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iphreeqc/OtherDatabases/thermochemie/sit.dat
Darth Vader 39086e3af2 Squashed 'database/' changes from 488636ae..20e6e440 
20e6e440 still produces different residuals
6ea9caf0 Tony H2S. Amm.dat, phreeqc.dat, pitzer.dat, utf8, updated test cases
c1c97a85 before H2S
a7be9fcf Updated Amm.dat, phreeqc.dat, pitzer.dat for H2S(g)
b40b25fd Another SIT database
fce334ff use cmake for valgrind tests
90f9cb53 checking in test cases using latest revisions. degree sign in pitzer.dat
d45a37e0 database UTF-8
3aa7a146 Tony database update, kinetic_rates example
f385cf57 Tony's updates March 10, 2021
88afb660 Tony's changes March 10, 2021.
4396def4 add databases
e4e5449a [wphast] updated date
4c209593 [phreeqc3] updated image location
beaab1d6 more characters
6b8138c2 fixed degree sign
759cac1f fixed some sit.dat characters
3f258562 updated databases
8be6ec5f update to charlton master
2560903d [phreeqci] Testing subtree merges
1d71804f Merge commit 'a400365a5e06a9cd2ac0aa6e2c51fa4797c631f8'
a400365a [phreeqc3] Testing subtree merges
4296b155 Merge commit '0e8069e37275f23d47e04bd6b7873ec56dfdf088'
0e8069e3 Fixed bug with more porosities than cells in TRANSPORT. Added silica sorption to databases. Revised CalPortDiff
fa7cbaf5 Added .gitlab-ci.yml
6a8d5088 Added .gitlab-ci.yml
cfc208b0 updated installer
164b85d3 Fixed some bugs with iso.dat inverse modeling, added test case. Still does not generate [13C](4) and [13C](-4) from SOLUTION
06e25ec8 Correction to core10.dat from Neveu

git-subtree-dir: database
git-subtree-split: 20e6e440f056358f9887ada878a76d8e3d4ecc64
2021-10-30 22:54:23 +00:00

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# PHREEQC database
# Thermodynamic database ANDRA/RWM - THERMOCHIMIE-TDB (www.thermochimie-tdb.com)
# Version 9b0
# Nom : ThermoChimie project
# BDD Date: 10/8/2015
# Comment: no comment
# NAMED_EXPRESSIONS
#
# formation of O2 from H2O
# 2H2O = O2 + 4H+ + 4e-
#
# Log_K_O2
# log_k -85.980
# delta_H 559.526 kJ/mol
#
# -analytic 1.20446E+1 0E+0 -2.9226E+4 0E+0 0E+0
SOLUTION_MASTER_SPECIES
#element species alk gfw_formula element_gfw
E e- 0 0 0
Acetate Acetate- 0 Acetate 59.01
Adipate Adipate-2 0 Adipate 144.07
Ag Ag+ 0 Ag 107.8682
Al Al+3 0 Al 26.9815
Alkalinity CO3-2 1 Ca0.5(CO3)0.5 50.05
Am Am+3 0 Am 243
Am(+2) Am+2 0 Am 243
Am(+3) Am+3 0 Am 243
Am(+4) Am+4 0 Am 243
Am(+5) AmO2+ 0 Am 243
Am(+6) AmO2+2 0 Am 243
As AsO4-3 0 As 74.9216
As(+3) H3(AsO3) 0 As 74.9216
As(+5) AsO4-3 2 As 74.9216
B B(OH)4- 1 B 10.811
Ba Ba+2 0 Ba 137.327
Br Br- 0 Br 79.904
C CO3-2 2 CO3 12.011
C(2) CO 0 CO
C(+4) CO3-2 2 CO3 12.011
C(-4) CH4 0 CH4 12.011
Ca Ca+2 0 Ca 40.078
Cd Cd+2 0 Cd 112.411
Cit Cit-3 0 Cit 189.1013
Cl Cl- 0 Cl 35.4527
Cl(-1) Cl- 0 Cl
Cl(0) Cl2 0 Cl
Cl(7) ClO4- 0 Cl
Cm Cm+3 0 Cm 247
Cn Cn- 0 Cn 26.018
Co Co+2 0 Co 58.9332
Cr CrO4-2 0 CrO4 51.9961
Cr(+2) Cr+2 0 Cr 51.9961
Cr(+3) Cr+3 -1 Cr 51.9961
Cr(+6) CrO4-2 1 CrO4 51.9961
Cs Cs+ 0 Cs 132.9054
Cu Cu+2 0 Cu 63.546
Cu(+1) Cu+ 0 Cu 63.546
Cu(+2) Cu+2 0 Cu 63.546
Edta Edta-4 0 Edta 288.2134
Eu Eu+3 0 Eu 151.965
Eu(+2) Eu+2 0 Eu 151.965
Eu(+3) Eu+3 0 Eu 151.965
F F- 0 F 18.9984
Fe Fe+2 0 Fe 55.847
Fe(+2) Fe+2 0 Fe 55.847
Fe(+3) Fe+3 0 Fe 55.847
Glu HGlu- 0 Glu 195.1459
H H+ -1 H 1.0079
H(+1) H+ -1 H 1.0079
H(0) H2 0 H 1.0079
Hf Hf+4 -4 Hf 178.49
Hg Hg+2 0 Hg 200.59
Hg(+2) Hg+2 0 Hg 200.59
Hg(+1) Hg2+2 0 Hg2 401.18
Ho Ho+3 0 Ho 164.9303
I I- 0 I 126.9045
I(+5) IO3- 0 I 126.9045
I(-1) I- 0 I 126.9045
Isa HIsa- 0 HIsa 180.1548
K K+ 0 K 39.0983
Li Li+ 0 Li 6.941
Malonate Malonate-2 0 Malonate 63.99
Mg Mg+2 0 Mg 24.305
Mn Mn+2 0 Mn 54.938
Mn(+2) Mn+2 0.0 Mn
Mn(+3) Mn+3 0.0 Mn
Mn(+5) MnO4-3 0 Mn
Mn(+6) MnO4-2 0 Mn
Mn(+7) MnO4- 0 Mn
Mo MoO4-2 0 Mo 95.94
Mo(3) Mo+3 0 Mo
Mo(6) MoO4-2 0 Mo
N NO3- 0 N 14.0067
N(+5) NO3- 0 N 14.0067
N(-3) NH3 1 N 14.0067
Na Na+ 0 Na 22.9898
Nb Nb(OH)6- 0 Nb 92.9064
Ni Ni+2 0 Ni 58.69
Np NpO2+2 0 Np 237.048
Np(+3) Np+3 0 Np 237.048
Np(+4) Np+4 0 Np 237.048
Np(+5) NpO2+ 0 Np 237.048
Np(+6) NpO2+2 0 Np 237.048
Nta Nta-3 0 Nta 188.1165
O H2O 0 O 15.999
O(0) O2 0 O 15.9994
O(-2) H2O 0 O 15.9994
Ox Ox-2 0 Ox 88.0196
P H2(PO4)- 1 P 30.9738
Pa Pa+4 0 Pa 231.0359
Pa(+4) Pa+4 0 Pa 231.0359
Pa(+5) PaO2+ 0 Pa 231.0359
Pb Pb+2 0 Pb 207.2
Pd Pd+2 -2 Pd 106.42
Phthalat Phthalat-2 0 Phthalat 164.084
Pu PuO2+2 0 Pu 244
Pu(+3) Pu+3 0 Pu 244
Pu(+4) Pu+4 0 Pu 244
Pu(+5) PuO2+ 0 Pu 244
Pu(+6) PuO2+2 0 Pu 244
Pyrophos Pyrophos-4 0 Pyrophos 173.95
Ra Ra+2 0 Ra 226.025
Rb Rb+ 0 Rb 85.4678
S SO4-2 0 SO4 32.066
S(-2) HS- 1 S
S(+2) S2O3-2 0 S
#S(2.01) S5O6-2 0 S
S(2.5) S4O6-2 0 S
S(+3) S2O4-2 0 S
S(3.3) S3O6-2 0 S
S(+4) SO3-2 0 S
S(+6) SO4-2 0 SO4
S(+7) S2O8-2 0.0 S
S(+8) HSO5- 0.0 S
Sb Sb(OH)3 0 Sb 121.76
Sb(+3) Sb(OH)3 0 Sb 121.76
Sb(+5) Sb(OH)5 0 Sb 121.76
Scn Scn- 0 Scn 58.084
Se SeO4-2 0 Se 78.96
Se(+4) SeO3-2 0 Se 78.96
Se(+6) SeO4-2 0 Se 78.96
Se(-2) HSe- 0 Se 78.96
Si H4(SiO4) 0 Si 28.0855
Sm Sm+3 0 Sm 150.36
Sn Sn+2 -1 Sn 118.71
Sn(+2) Sn+2 -1 Sn 118.71
Sn(+4) Sn+4 -4 Sn 118.71
Sr Sr+2 0 Sr 87.62
Suberate Suberate-2 0 Suberate 170.16
Succinat Succinat-2 0 Succinat 116.07
Tc TcO(OH)2 0 Tc 98
Tc(+4) TcO(OH)2 0 Tc 98
Tc(+6) TcO4-2 0 Tc 98
Tc(+7) TcO4- 0 Tc 98
Th Th+4 -3 Th 232.0381
U UO2+2 0 U 238.0289
U(+3) U+3 0 U 238.0289
U(+4) U+4 0 U 238.0289
U(+5) UO2+ 0 U 238.0289
U(+6) UO2+2 0 U 238.0289
Zn Zn+2 0 Zn 65.39
Zr Zr+4 -4 Zr 91.22
SIT
-epsilon
(NpO2)2(OH)2+2 Cl- -0.248
(NpO2)2(OH)2+2 ClO4- 0.57
(NpO2)2CO3(OH)3- Na+ 0
(NpO2)3(CO3)6-6 Na+ -0.46
(NpO2)3(OH)5+ Cl- -0.226
(NpO2)3(OH)5+ ClO4- 0.45
(PuO2)2(OH)2+2 Cl- -0.248
(PuO2)3(CO3)6-6 Na+ -0.46
(UO2)2(CO3)(OH)3- Na+ 0
(UO2)2(NpO2)(CO3)6-6 Na+ 0.09
(UO2)2(OH)2+2 Cl- 0.69
(UO2)2(OH)2+2 ClO4- 0.57
(UO2)2(OH)2+2 NO3- 0.49
(UO2)3(CO3)6-6 Na+ 0.37
(UO2)3(OH)4+2 Cl- 0.5
(UO2)3(OH)5+ Cl- 0.81
Ag(SeO3)- Na+ -0.024
Ag+ Cl- 0.031
Al(OH)+2 Cl- 0.09
Al(OH)2+ Cl- 0.09
Al+3 Cl- 0.33
Am(CO3)+ Cl- 0.129
Am(CO3)+ ClO4- 0.17
Am(CO3)2- Na+ -0.14
Am(CO3)3-3 Na+ -0.23
Am(CO3)5-6 Na+ -0.3
Am(Edta)- Na+ 0.01
Am(H2PO4)+2 Cl- 0.191
Am(H2PO4)+2 ClO4- 0.39
Am(NO3)+2 Cl- 0.191
Am(NO3)+2 ClO4- 0.39
Am(OH)+2 Cl- -0.04
Am(OH)+2 ClO4- 0.39
Am(OH)2+ Cl- -0.29
Am(OH)2+ ClO4- 0.17
Am(Ox)+ ClO4- 0.08
Am(Ox)2- Na+ -0.21
Am(Ox)3-3 Na+ -0.23
Am(SO4)+ Cl- 0.157
Am(SO4)+ ClO4- 0.22
Am(SO4)2- Na+ -0.05
Am+3 Cl- 0.23
Am+3 ClO4- 0.49
AmCl+2 Cl- 0.191
AmCl+2 ClO4- 0.39
AmCl2+ Cl- 0.129
AmF+2 Cl- 0.191
AmF+2 ClO4- 0.39
AmF2+ Cl- 0.129
AmF2+ ClO4- 0.17
AmO2(CO3)- Na+ -0.18
AmO2(CO3)2-3 Na+ -0.33
AmO2(CO3)3-5 Na+ -0.53
AmO2+ Cl- 0.09
AmO2+2 Cl- 0.39
B(OH)4- Na+ -0.07
Ba+2 Cl- 0.07
Ba+2 ClO4- 0.15
Ba+2 NO3- -0.28
Br- Na+ 0.05
CO3-2 Na+ -0.08
Ca+2 Cl- 0.14
Ca+2 ClO4- 0.27
Ca+2 NO3- 0.02
Ca4Th(OH)8+4 Cl- -0.01
Ca4Th(OH)8+4 ClO4- 0.21
Cd(HCO3)+ Cl- 0.2
Cd+2 Cl- 0.16
Cd+2 NO3- 0.09
CdCl+ Cl- 0.127
CdCl+ ClO4- 0.25
CdI+ Cl- 0.136
CdI+ ClO4- 0.27
Cit-3 Na+ -0.076
Cl- Na+ 0.03
Cm(CO3)2- Na+ 0.34
Cm(CO3)3-3 Na+ 0.16
Cm(H2PO4)+2 Cl- 0.191
Cm(H2PO4)+2 ClO4- 0.39
Cm(OH)+2 Cl- -0.04
Cm(OH)+2 ClO4- 0.39
Cm(OH)2+ Cl- -0.27
Cm(OH)2+ ClO4- 0.17
Cm(SO4)2- Na+ -0.05
Cm+3 Cl- 0.23
Cm+3 ClO4- 0.49
CmCO3+ Cl- 0.35
CmCl+2 Cl- 0.191
CmCl+2 ClO4- 0.39
CmCl2+ Cl- 0.129
CmF+2 ClO4- 0.39
CmF2+ ClO4- 0.17
CmNO3+2 ClO4- 0.39
CmSO4+ Cl- 0.157
CmSO4+ ClO4- 0.22
Cn- Na+ 0.07
Co+2 Cl- 0.16
Co+2 ClO4- 0.34
Co+2 NO3- 0.14
Cr+3 Cl- 0.3
Cr+3 NO3- 0.27
Cu+ ClO4- 0.11
Cu+2 Cl- 0.08
Cu+2 ClO4- 0.32
Cu+2 NO3- 0.11
Edta-4 Na+ 0.32
Eu(CO3)+ Cl- 0.129
Eu(CO3)+ ClO4- 0.17
Eu(CO3)2- Na+ -0.14
Eu(CO3)3-3 Na+ -0.23
Eu(H2PO4)+2 Cl- 0.191
Eu(H2PO4)+2 ClO4- 0.39
Eu(NO3)+2 Cl- 0.191
Eu(NO3)+2 ClO4- 0.39
Eu(OH)+2 Cl- -0.04
Eu(OH)+2 ClO4- 0.39
Eu(OH)2+ Cl- -0.29
Eu(OH)2+ ClO4- 0.17
Eu(SO4)+ Cl- 0.157
Eu(SO4)+ ClO4- 0.22
Eu(SO4)2- Na+ -0.05
Eu+3 Cl- 0.23
Eu+3 ClO4- 0.49
EuCl+2 Cl- 0.191
EuCl+2 ClO4- 0.39
EuCl2+ Cl- 0.129
EuF+2 Cl- 0.191
EuF2+ Cl- 0.129
F- Na+ 0.02
Fe(OH)+2 Cl- 0.186
Fe+3 ClO4- 0.56
Fe+3 NO3- 0.42
H(Cit)-2 Na+ -0.04
H(Edta)-3 Na+ -0.1
H(Ox)- Na+ -0.07
H(SO4)- Na+ -0.01
H(SeO3)- Na+ 0.02
H(SeO4)- Na+ 0
H+ Cl- 0.12
H+ ClO4- 0.14
H+ NO3- 0.07
H2(Cit)- Na+ -0.05
H2(Edta)-2 Na+ -0.37
H2(PO4)- Na+ -0.08
H2(SiO4)-2 Na+ -0.1
H3(Edta)- Na+ -0.33
H3(SiO4)- Na+ -0.08
H5(Edta)+ Cl- -0.23
H5(Edta)+ ClO4- -0.23
H5(Edta)+ NO3- -0.23
H6(Edta)+2 Cl- -0.2
H6(Edta)+2 ClO4- -0.2
H6(Edta)+2 NO3- -0.2
HCO3- Na+ 0
HGlu- Na+ -0.07
HIsa- Na+ -0.07
HMoO4- Na+ -0.099
HPO4-2 Na+ -0.15
Hf(NO3)2+2 ClO4- 0.84
Hf(OH)+3 ClO4- 0.57
Hf+4 Cl- 0.89
Hf+4 ClO4- 0.89
Hf+4 NO3- 0.89
HfCl+3 ClO4- 0.87
HfCl2+2 ClO4- 0.84
HfF+3 ClO4- 0.63
HfF2+2 ClO4- 0.47
HfNO3+3 ClO4- 0.91
Hg(SeO3)2-2 Na+ 0.008
Hg+2 Cl- 0.168
Hg2+2 Cl- 0.054
Ho(CO3)+ Cl- 0.129
Ho(CO3)+ ClO4- 0.17
Ho(CO3)2- Na+ -0.14
Ho(CO3)3-3 Na+ -0.23
Ho(H2PO4)+2 Cl- 0.191
Ho(H2PO4)+2 ClO4- 0.39
Ho(NO3)+2 Cl- 0.191
Ho(NO3)+2 ClO4- 0.39
Ho(OH)+2 Cl- -0.04
Ho(OH)+2 ClO4- 0.39
Ho(OH)2+ Cl- -0.29
Ho(OH)2+ ClO4- 0.17
Ho(SO4)+ Cl- 0.157
Ho(SO4)+ ClO4- 0.22
Ho(SO4)2- Na+ -0.05
Ho+3 Cl- 0.23
Ho+3 ClO4- 0.49
HoCl+2 Cl- 0.191
HoCl+2 ClO4- 0.39
HoCl2+ Cl- 0.129
HoF+2 Cl- 0.191
HoF+2 ClO4- 0.39
HoF2+ Cl- 0.129
HoF2+ ClO4- 0.17
I- Na+ 0.08
IO3- Na+ -0.06
K+ Cl- 0
K+ NO3- -0.11
Li+ Cl- 0.1
Li+ ClO4- 0.15
Li+ NO3- 0.08
Mg(Cit)- Na+ 0.03
Mg(Edta)-2 Na+ -0.01
Mg(HEdta)- Na+ 0.11
Mg(Ox)2-2 Na+ -0.15
Mg+2 Cl- 0.19
Mg+2 ClO4- 0.33
Mg+2 NO3- 0.17
Mn+2 Cl- 0.13
Mo7O21(OH)3-3 Na+ -1.455
Mo7O22(OH)2-4 Na+ -1.346
Mo7O23(OH)-5 Na+ -1.145
Mo7O24-6 Na+ -1.265
MoO4-2 Na+ 0.034
NH4+ Cl- -0.01
NH4+ ClO4- -0.08
NH4+ NO3- -0.06
NO3- Na+ -0.04
Na+ ClO4- 0.01
Ni(CO3)2-2 Na+ 0.003
Ni(Cit)- Na+ 0.22
Ni(Cn)4-2 Na+ 0.185
Ni(Cn)5-3 Na+ 0.25
Ni(HCO3)+ Cl- 0.085
Ni(NO3)+ Cl- 0.06
Ni(NO3)+ ClO4- 0.44
Ni(OH)+ Cl- -0.01
Ni(OH)+ ClO4- 0.14
Ni(OH)3- Na+ 0.88
Ni(SO4)2-2 Na+ -0.263
Ni(Scn)+ Cl- 0.11
Ni(Scn)+ ClO4- 0.31
Ni(Scn)3- Na+ 0.66
Ni+2 Cl- 0.17
Ni+2 ClO4- 0.37
Ni+2 NO3- 0.182
Ni4(OH)4+4 ClO4- 1.08
NiCl+ Cl- 0.1
NiCl+ ClO4- 0.34
NiF+ Cl- 0.065
NiF+ ClO4- 0.34
NiHS+ ClO4- -0.85
Np(CO3)(OH)3- Na+ -0.11
Np(CO3)+ Cl- 0.129
Np(CO3)+ ClO4- 0.17
Np(CO3)2- Na+ -0.14
Np(CO3)3-3 Na+ -0.23
Np(CO3)4-4 Na+ -0.09
Np(CO3)5-6 Na+ 0
Np(NO3)+3 ClO4- 0.71
Np(OH)+2 Cl- -0.04
Np(OH)+2 ClO4- 0.39
Np(OH)+3 Cl- 0.2
Np(OH)+3 ClO4- 0.5
Np(OH)2+ Cl- -0.29
Np(OH)2+ ClO4- 0.17
Np(OH)2+2 Cl- 0.1
Np(OH)3+ Cl- 0.05
Np(OH)4(CO3)-2 Na+ -0.13
Np(SO4)+ Cl- 0.157
Np(SO4)+ ClO4- 0.22
Np(SO4)+2 Cl- 0.232
Np(SO4)+2 ClO4- 0.48
Np(SO4)2- Na+ -0.05
Np+3 Cl- 0.23
Np+3 ClO4- 0.49
Np+4 Cl- 0.4
Np+4 ClO4- 0.84
NpCl+3 ClO4- 0.81
NpF+3 ClO4- 0.58
NpF2+2 Cl- 0.186
NpF2+2 ClO4- 0.38
NpF3+ Cl- 0.1
NpI+3 ClO4- 0.77
NpO2(CO3)- Na+ -0.18
NpO2(CO3)2-2 Na+ -0.02
NpO2(CO3)2-3 Na+ -0.33
NpO2(CO3)2OH-4 Na+ -0.4
NpO2(CO3)3-4 Na+ -0.4
NpO2(CO3)3-5 Na+ -0.53
NpO2(Cit)-2 Na+ -0.06
NpO2(Edta)-3 Na+ 0.2
NpO2(HEdta)-2 Na+ 0.07
NpO2(HPO4)2-2 Na+ -0.1
NpO2(NO3)+ Cl- 0.22
NpO2(NO3)+ ClO4- 0.33
NpO2(OH)+ Cl- -0.003
NpO2(OH)+ ClO4- -0.06
NpO2(OH)2- Na+ -0.01
NpO2(Ox)- Na+ -0.4
NpO2(Ox)2-3 Na+ -0.3
NpO2(SO4)- Na+ -0.74
NpO2(SO4)2-2 Na+ -0.12
NpO2+ Cl- 0.09
NpO2+ ClO4- 0.25
NpO2+2 Cl- 0.223
NpO2+2 ClO4- 0.46
NpO2Cl+ Cl- 0.318
NpO2Cl+ ClO4- 0.5
NpO2F+ Cl- 0.197
NpO2F+ ClO4- 0.29
OH- Na+ 0.04
Ox-2 Na+ -0.08
PO4-3 Na+ -0.25
Pa+4 Cl- 0.3
PaO(OH)+2 Cl- 0.13
Pb(OH)3- Na+ 0.02
Pb(SO4)2-2 Na+ -0.52
Pb+2 Cl- 0.081
Pb+2 ClO4- 0.15
Pb+2 NO3- -0.2
PbF+ Cl- 0.14
Pd(SO4)2-2 Na+ -0.12
Pd+2 Cl- 0.16
PdBr+ Cl- 0.175
PdBr3- Na+ 0
PdBr4-2 Na+ 0.1
PdCl+ Cl- 0.175
PdCl3- Na+ 0
PdCl4-2 Na+ 0.1
Pu(CO3)+ Cl- 0.129
Pu(CO3)+ ClO4- 0.17
Pu(CO3)2- Na+ -0.14
Pu(CO3)3-3 Na+ -0.23
Pu(CO3)4-4 Na+ -0.09
Pu(CO3)5-6 Na+ 0
Pu(NO3)+2 Cl- 0.191
Pu(NO3)+2 ClO4- 0.39
Pu(NO3)+3 ClO4- 0.59
Pu(OH)+2 Cl- -0.04
Pu(OH)+2 ClO4- 0.39
Pu(OH)+3 Cl- 0.2
Pu(OH)+3 ClO4- 0.5
Pu(OH)2+ Cl- -0.29
Pu(OH)2+ ClO4- 0.17
Pu(OH)2+2 Cl- 0.1
Pu(OH)3+ Cl- 0.05
Pu(SO4)+ Cl- 0.157
Pu(SO4)+ ClO4- 0.22
Pu(SO4)+2 Cl- 0.232
Pu(SO4)+2 ClO4- 0.36
Pu(SO4)2- Na+ -0.05
Pu+3 Cl- 0.23
Pu+3 ClO4- 0.49
Pu+4 Cl- 0.37
Pu+4 ClO4- 0.82
PuBr+3 Cl- 0.1
PuBr+3 ClO4- 0.58
PuCl+3 Cl- 0.1
PuCl+3 ClO4- 0.85
PuF+3 Cl- 0.1
PuF+3 ClO4- 0.56
PuF2+2 Cl- 0.177
PuF2+2 ClO4- 0.36
PuF3+ Cl- 0.1
PuI+2 Cl- 0.191
PuI+2 ClO4- 0.39
PuI+3 Cl- 0.1
PuO2(CO3)2-2 Na+ -0.7
PuO2(CO3)3-4 Na+ -0.2
PuO2(CO3)3-5 Na+ -0.53
PuO2(OH)+ Cl- -0.003
PuO2(SO4)- Na+ -0.74
PuO2(SO4)2-2 Na+ -0.12
PuO2+ Cl- 0.129
PuO2+ ClO4- 0.24
PuO2+2 Cl- 0.223
PuO2+2 ClO4- 0.46
PuO2CO3- Na+ -0.18
PuO2Cl+ Cl- 0.318
PuO2Cl+ ClO4- 0.5
PuO2F+ Cl- 0.197
PuO2F+ ClO4- 0.29
PuO2F3- Na+ 0
PuO2NO3+ Cl- 0.22
PuO2NO3+ ClO4- 0.33
SO3-2 Na+ -0.08
SO4-2 Na+ -0.12
Scn- Na+ 0.05
SeO3-2 Na+ -0.08
SeO4-2 Na+ -0.12
Si2O2(OH)5- Na+ -0.08
Si2O3(OH)4-2 Na+ -0.15
Si3O5(OH)5-3 Na+ -0.25
Si3O6(OH)3-3 Na+ -0.25
Si4O8(OH)4-4 Na+ -0.26
Sm(CO3)+ Cl- 0.129
Sm(CO3)+ ClO4- 0.17
Sm(CO3)2- Na+ -0.14
Sm(CO3)3-3 Na+ -0.23
Sm(H2PO4)+2 Cl- 0.191
Sm(H2PO4)+2 ClO4- 0.39
Sm(NO3)+2 Cl- 0.191
Sm(NO3)+2 ClO4- 0.39
Sm(OH)+2 Cl- -0.04
Sm(OH)+2 ClO4- 0.39
Sm(OH)2+ Cl- -0.29
Sm(OH)2+ ClO4- 0.17
Sm(SO4)+ Cl- 0.157
Sm(SO4)+ ClO4- 0.22
Sm(SO4)2- Na+ -0.05
Sm+3 Cl- 0.23
Sm+3 ClO4- 0.49
SmCl+2 Cl- 0.191
SmCl+2 ClO4- 0.39
SmF+2 Cl- 0.191
SmF+2 ClO4- 0.39
Sn(OH)+ ClO4- -0.07
Sn(OH)3- Na+ 0.22
Sn+2 Cl- 0.14
Sn+2 ClO4- 0.19
Sn+4 ClO4- 0.7
Sn3(OH)4+2 ClO4- -0.02
SnBr+ ClO4- 0.17
SnBr3- Na+ 0.16
SnCl+ ClO4- 0.08
SnCl3- Na+ 0.04
SnF+ ClO4- 0.14
Th(CO3)5-6 Na+ -0.3
Th(H2PO4)+3 ClO4- 0.5
Th(H2PO4)2+2 ClO4- 0.4
Th(H3PO4)(H2PO4)+3 ClO4- 0.5
Th(H3PO4)+4 ClO4- 0.7
Th(NO3)+3 ClO4- 0.56
Th(NO3)+3 NO3- 0.56
Th(NO3)2+2 ClO4- 0.43
Th(NO3)2+2 NO3- 0.43
Th(OH)(CO3)4-5 Na+ -0.22
Th(OH)+3 Cl- 0.19
Th(OH)+3 ClO4- 0.48
Th(OH)+3 NO3- 0.2
Th(OH)2(CO3)2-2 Na+ -0.1
Th(OH)2+2 Cl- 0.13
Th(OH)2+2 ClO4- 0.33
Th(OH)2+2 NO3- 0.1
Th(OH)3(CO3)- Na+ -0.05
Th(OH)3+ Cl- 0.06
Th(OH)3+ ClO4- 0.15
Th(OH)3+ NO3- 0.05
Th(OH)4(CO3)-2 Na+ -0.1
Th(SO4)+2 Cl- 0.14
Th(SO4)+2 ClO4- 0.3
Th(SO4)3-2 Na+ -0.091
Th+4 Cl- 0.7
Th+4 ClO4- 0.7
Th+4 NO3- 0.7
Th2(OH)2+6 Cl- 0.4
Th2(OH)2+6 ClO4- 1.22
Th2(OH)2+6 NO3- 0.69
Th2(OH)3+5 Cl- 0.29
Th2(OH)3+5 ClO4- 0.91
Th2(OH)3+5 NO3- 0.69
Th4(OH)12+4 Cl- 0.25
Th4(OH)12+4 ClO4- 0.56
Th4(OH)12+4 NO3- 0.42
Th4(OH)8+8 Cl- 0.7
Th4(OH)8+8 ClO4- 1.69
Th4(OH)8+8 NO3- 1.59
Th6(OH)14+10 Cl- 0.83
Th6(OH)14+10 ClO4- 2.2
Th6(OH)14+10 NO3- 2.9
Th6(OH)15+9 Cl- 0.72
Th6(OH)15+9 ClO4- 1.85
Th6(OH)15+9 NO3- 2.2
ThCl+3 Cl- 0.62
ThCl+3 ClO4- 0.62
ThF+3 ClO4- 0.48
ThF+3 NO3- 0.25
ThF2+2 ClO4- 0.3
ThF2+2 NO3- 0.15
ThF3+ ClO4- 0.1
ThF3+ NO3- 0
U(CO3)4-4 Na+ -0.09
U(CO3)5-6 Na+ -0.3
U(NO3)+3 ClO4- 0.62
U(NO3)2+2 Cl- 0.236
U(NO3)2+2 ClO4- 0.49
U(OH)+3 Cl- 0.2
U(OH)+3 ClO4- 0.48
U(OH)2+2 Cl- 0.1
U(OH)3+ Cl- 0.05
U(SO4)+2 Cl- 0.149
U(SO4)+2 ClO4- 0.3
U+3 Cl- 0.23
U+3 ClO4- 0.49
U+4 Cl- 0.36
U+4 ClO4- 0.76
UBr+3 ClO4- 0.52
UCl+3 Cl- 0.1
UCl+3 ClO4- 0.5
UF+3 Cl- 0.1
UF+3 ClO4- 0.48
UF2+2 Cl- 0.149
UF2+2 ClO4- 0.3
UF3+ Cl- 0.1
UF3+ ClO4- 0.1
UI+3 ClO4- 0.55
UI+3 NO3- 0.56
UO2(CO3)2-2 Na+ -0.02
UO2(CO3)3-4 Na+ -0.01
UO2(CO3)3-5 Na+ -0.62
UO2(Cit)- Na+ -0.11
UO2(NO3)+ Cl- 0.22
UO2(NO3)+ ClO4- 0.33
UO2(OH)+ Cl- -0.003
UO2(OH)+ ClO4- -0.06
UO2(OH)+ NO3- 0.51
UO2(OH)3- Na+ -0.09
UO2(Ox)2-2 Na+ -0.18
UO2(Ox)3-4 Na+ -0.01
UO2(SO4)2-2 Na+ -0.12
UO2+ Cl- 0.18
UO2+ ClO4- 0.26
UO2+2 Cl- 0.46
UO2+2 ClO4- 0.46
UO2+2 NO3- 0.46
UO2Br+ Cl- 0.169
UO2Br+ ClO4- 0.24
UO2Cl+ Cl- 0.22
UO2Cl+ ClO4- 0.33
UO2F+ Cl- 0.04
UO2F+ ClO4- 0.28
UO2F3- Na+ -0.14
UO2F4-2 Na+ -0.3
Zn+2 Cl- 0.163
Zn+2 ClO4- 0.33
Zn+2 NO3- 0.16
Zr(CO3)4-4 Na+ -0.09
Zr(NO3)2+2 ClO4- 0.84
Zr(OH)+3 ClO4- 0.57
Zr(OH)2+2 ClO4- 0.62
Zr(OH)6-2 Na+ -0.1
Zr+4 Cl- 0.89
Zr+4 ClO4- 0.89
Zr+4 NO3- 0.89
Zr4(OH)15+ ClO4- 0.09
ZrCl+3 ClO4- 0.87
ZrCl2+2 ClO4- 0.84
ZrF+3 ClO4- 0.63
ZrF2+2 ClO4- 0.47
ZrF5- Na+ -0.14
ZrF6-2 Na+ -0.15
ZrNO3+3 ClO4- 0.88
SOLUTION_SPECIES
1.000H2O = H2O
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ = H+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000e- = e-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Acetate- = Acetate-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -486.01 #kJ/mol #82WAG/EVA
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Adipate-2 = Adipate-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ag+ = Ag+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 105.79 #kJ/mol #95SIL/BID
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 = Al+3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -538.4 #kJ/mol #95POK/HEL
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 = Am+3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -616.7 #kJ/mol #95SIL/BID
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000AsO4-3 = AsO4-3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -888.14 #kJ/mol #09RAN/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000B(OH)4- = B(OH)4-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1345.116 #kJ/mol #99RAR/RAN
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ba+2 = Ba+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -534.8 #kJ/mol #95SIL/BID
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Br- = Br-
log_k 0.000 #95SIL/BID
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -121.41 #kJ/mol #95SIL/BID
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000CO3-2 = CO3-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -675.23 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 = Ca+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -543 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 = Cd+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -75.92 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cit-3 = Cit-3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1519.92 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cl- = Cl-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -167.08 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cm+3 = Cm+3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -615 #kJ/mol #01KON2
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cn- = Cn-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 150.624 #kJ/mol #92JOH/OEL
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 = Co+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -57.6 #kJ/mol #98PLY/ZHA1
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000CrO4-2 = CrO4-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -879 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cs+ = Cs+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -258 #kJ/mol #95SIL/BID
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Cu+2 = Cu+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 64.9 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Edta-4 = Edta-4
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1704.8 #kJ/mol #05HUM/AND
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 = Eu+3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -605.331 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000F- = F-
log_k 0.000 #95SIL/BID
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -335.35 #kJ/mol #95SIL/BID
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 = Fe+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -90 #kJ/mol #98CHI
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000H2(PO4)- = H2(PO4)-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1302.6 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000H4(SiO4) = H4(SiO4)
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1461.194 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000HGlu- = HGlu-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000HIsa- = HIsa-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Hf+4 = Hf+4
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -628.91 #kJ/mol #99VAS/LYT
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 = Hg+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 170.21 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ho+3 = Ho+3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -707.042 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000I- = I-
log_k 0.000 #92GRE/FUG
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -56.78 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000K+ = K+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -252.14 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Li+ = Li+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Malonate-2 = Malonate-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 = Mg+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -467 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 = Mn+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -220.8 #kJ/mol #95ROB/HEM
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000MoO4-2 = MoO4-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -997 #kJ/mol #74OHA
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000NO3- = NO3-
log_k 0.000 #92GRE/FUG
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -206.85 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Na+ = Na+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -240.34 #kJ/mol #92GRE/FUG (89COX/WAG)
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Nb(OH)6- = Nb(OH)6-
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1925.665 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 = Ni+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -55.012 #kJ/mol #05GAM/BUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 = NpO2+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -860.733 #kJ/mol #01LEM/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Nta-3 = Nta-3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ox-2 = Ox-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -830.66 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Pa+4 = Pa+4
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -620 #kJ/mol #85BAR/PAR
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 = Pb+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 0.92 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 = Pd+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 189.883 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Phthalat-2 = Phthalat-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 = PuO2+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -822.036 #kJ/mol #01LEM/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Pyrophos-4 = Pyrophos-4
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Ra+2 = Ra+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -528.025 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Rb+ = Rb+
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -251.12 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000SO4-2 = SO4-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -909.34 #kJ/mol #89COX/WAG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Sb(OH)3 = Sb(OH)3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -733.892 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Scn- = Scn-
log_k 0.000 #92GRE/FUG
delta_h 0.000 #kJ/mol
# Enthalpy of formation: 76.4 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000SeO4-2 = SeO4-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -603.5 #kJ/mol #05OLI/NOL
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 = Sm+3
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -691.199 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 = Sn+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -9.617 #kJ/mol #12GAM/GAJ
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 = Sr+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -550.9 #kJ/mol #84BUS/PLUS
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Suberate-2 = Suberate-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Succinat-2 = Succinat-2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 = TcO(OH)2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -749.32 #kJ/mol
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 = Th+4
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -768.7 #kJ/mol #09RAN/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 = UO2+2
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1019 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Zn+2 = Zn+2
log_k 0.000 #92GRE/FUG
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -153.39 #kJ/mol #92GRE/FUG
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Zr+4 = Zr+4
log_k 0.000
delta_h 0.000 #kJ/mol
# Enthalpy of formation: -608.5 #kJ/mol #05BRO/CUR
-analytic 0E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 0.500H2O - 1.000H+ - 0.250O2 = Am+2
log_k -60.375 #95SIL/BID
delta_h 401.958 #kJ/mol
# Enthalpy of formation: -354.624 #kJ/mol
-analytic 1.00448E+1 0E+0 -2.09957E+4 0E+0 0E+0
1.000Am+3 - 0.500H2O + 1.000H+ + 0.250O2 = Am+4
log_k -22.715
delta_h 70.819 #kJ/mol
# Enthalpy of formation: -406 #kJ/mol #95SIL/BID
-analytic -1.03081E+1 0E+0 -3.6991E+3 0E+0 0E+0
- 2.000H+ + 1.000Am+3 + 1.000H2O + 0.500O2 = AmO2+
log_k -15.380
delta_h 104.337 #kJ/mol #95SIL/BID
# Enthalpy of formation: -804.26 #kJ/mol
-analytic 2.89903E+0 0E+0 -5.44989E+3 0E+0 0E+0
- 1.000H+ + 1.000Am+3 + 0.500H2O + 0.750O2 = AmO2+2
log_k -20.865
delta_h 117.956 #kJ/mol #95SIL/BID
# Enthalpy of formation: -650.76 #kJ/mol
-analytic -2.00114E-1 0E+0 -6.16124E+3 0E+0 0E+0
2.000H+ + 1.000CO3-2 + 1.000H2O - 2.000O2 = CH4
log_k -133.770
delta_h 848.886 #kJ/mol
# Enthalpy of formation: -87.906 #kJ/mol #01SCH/SHO
-analytic 1.49482E+1 0E+0 -4.43403E+4 0E+0 0E+0
4.000H+ + 1.000CrO4-2 - 2.000H2O - 1.000O2 = Cr+2
log_k -18.760 #04CHI
delta_h 137.587 #kJ/mol
# Enthalpy of formation: -157.62 #kJ/mol
-analytic 5.34417E+0 0E+0 -7.18666E+3 0E+0 0E+0
5.000H+ + 1.000CrO4-2 - 2.500H2O - 0.750O2 = Cr+3
log_k 9.135
delta_h -85.176 #kJ/mol
# Enthalpy of formation: -240.5 #kJ/mol #04CHI
-analytic -5.78709E+0 0E+0 4.44902E+3 0E+0 0E+0
1.000Cu+2 + 0.500H2O - 1.000H+ - 0.250O2 = Cu+
log_k -18.855
delta_h 146.652 #kJ/mol
# Enthalpy of formation: 71.67 #kJ/mol #82WAG/EVA
-analytic 6.8372E+0 0E+0 -7.66013E+3 0E+0 0E+0
1.000Eu+3 + 0.500H2O - 1.000H+ - 0.250O2 = Eu+2
log_k -27.465
delta_h 217.611 #kJ/mol
# Enthalpy of formation: -527.602 #kJ/mol #92JOH/OEL
-analytic 1.06587E+1 0E+0 -1.13666E+4 0E+0 0E+0
1.000Fe+2 - 0.500H2O + 1.000H+ + 0.250O2 = Fe+3
log_k 8.485
delta_h -98.882 #kJ/mol
# Enthalpy of formation: -49 #kJ/mol #98CHI
-analytic -8.83827E+0 0E+0 5.16493E+3 0E+0 0E+0
1.000H2O - 0.500O2 = H2
log_k -46.070
delta_h 275.563 #kJ/mol
# Enthalpy of formation: -4.2 #kJ/mol #82WAG/EVA
-analytic 2.20649E+0 0E+0 -1.43936E+4 0E+0 0E+0
3.000H+ + 1.000AsO4-3 - 0.500O2 = H3(AsO3)
log_k -2.960
delta_h 139.873 #kJ/mol
# Enthalpy of formation: -742.2 #kJ/mol #09RAN/FUG
-analytic 2.15447E+1 0E+0 -7.30606E+3 0E+0 0E+0
1.000H+ + 1.000SO4-2 - 2.000O2 = HS-
log_k -138.270
delta_h 868.772 #kJ/mol
# Enthalpy of formation: -16.3 #kJ/mol #89COX/WAG
-analytic 1.39321E+1 0E+0 -4.53791E+4 0E+0 0E+0
1.000H+ + 1.000SeO4-2 - 2.000O2 = HSe-
log_k -90.390
delta_h 593.532 #kJ/mol
# Enthalpy of formation: 14.3 #kJ/mol #05OLI/NOL
-analytic 1.35922E+1 0E+0 -3.10023E+4 0E+0 0E+0
2.000Hg+2 + 1.000H2O - 2.000H+ - 0.500O2 = Hg2+2
log_k -12.200
delta_h 106.213 #kJ/mol
# Enthalpy of formation: 166.87 #kJ/mol #01LEM/FUG
-analytic 6.40769E+0 0E+0 -5.54788E+3 0E+0 0E+0
1.000I- + 1.500O2 = IO3-
log_k 17.410 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -219.7 #kJ/mol #92GRE/FUG
-analytic 1.741E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000NO3- + 1.000H2O - 2.000O2 = NH3
log_k -61.960 #95SIL/BID
delta_h 387.242 #kJ/mol
# Enthalpy of formation: -81.17 #kJ/mol #95SIL/BID
-analytic 5.88179E+0 0E+0 -2.0227E+4 0E+0 0E+0
1.000Np+4 + 0.500H2O - 1.000H+ - 0.250O2 = Np+3
log_k -17.795
delta_h 168.720 #kJ/mol
# Enthalpy of formation: -527.184 #kJ/mol #01LEM/FUG
-analytic 1.17633E+1 0E+0 -8.81282E+3 0E+0 0E+0
1.000NpO2+ + 3.000H+ - 1.500H2O - 0.250O2 = Np+4
log_k -11.285
delta_h -9.620 #kJ/mol
# Enthalpy of formation: -556.022 #kJ/mol #01LEM/FUG
-analytic -1.29703E+1 0E+0 5.02461E+2 0E+0 0E+0
1.000NpO2+2 + 0.500H2O - 1.000H+ - 0.250O2 = NpO2+
log_k -1.905
delta_h 22.434 #kJ/mol
# Enthalpy of formation: -978.181 #kJ/mol #01LEM/FUG
-analytic 2.02517E+0 0E+0 -1.17178E+3 0E+0 0E+0
- 4.000H+ - 4.000e- + 2.000H2O = O2
log_k -85.980 #89COX/WAG
delta_h 559.526 #kJ/mol
# Enthalpy of formation: -12.134 #kJ/mol #01SCH/SHO
-analytic 1.20446E+1 0E+0 -2.9226E+4 0E+0 0E+0
- 3.000H+ + 1.000Pa+4 + 1.500H2O + 0.250O2 = PaO2+
log_k 25.715 #85BAR/PAR, 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.5715E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 0.500H2O - 1.000H+ - 0.250O2 = Pu+3
log_k -3.805
delta_h 87.987 #kJ/mol
# Enthalpy of formation: -591.79 #kJ/mol #01LEM/FUG
-analytic 1.16096E+1 0E+0 -4.59585E+3 0E+0 0E+0
1.000PuO2+ + 3.000H+ - 1.500H2O - 0.250O2 = Pu+4
log_k -4.045
delta_h -61.547 #kJ/mol
# Enthalpy of formation: -539.895 #kJ/mol #01LEM/FUG
-analytic -1.48275E+1 0E+0 3.21479E+3 0E+0 0E+0
1.000PuO2+2 + 0.500H2O - 1.000H+ - 0.250O2 = PuO2+
log_k -5.675
delta_h 51.791 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -910.127 #kJ/mol
-analytic 3.39829E+0 0E+0 -2.7052E+3 0E+0 0E+0
2.000H+ + 2.000SO4-2 - 1.000H2O - 2.000O2 = S2O3-2
log_k -133.400
delta_h 856.296 #kJ/mol
# Enthalpy of formation: -652.286 #kJ/mol #04CHI
-analytic 1.66164E+1 0E+0 -4.47274E+4 0E+0 0E+0
2.000H+ + 2.000SO4-2 - 1.000H2O - 1.500O2 = S2O4-2
log_k -118.270
delta_h 761.149 #kJ/mol
# Enthalpy of formation: -735.5 #kJ/mol #82WAG/EVA
-analytic 1.50774E+1 0E+0 -3.97575E+4 0E+0 0E+0
1.000SO4-2 - 0.500O2 = SO3-2
log_k -46.610
delta_h 272.213 #kJ/mol
# Enthalpy of formation: -631.06 #kJ/mol #85GOL/PAR
-analytic 1.0796E+0 0E+0 -1.42187E+4 0E+0 0E+0
1.000Sb(OH)3 + 1.000H2O + 0.500O2 = Sb(OH)5
log_k 21.250 #99LOT/OCH recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.125E+1 0E+0 0E+0 0E+0 0E+0
1.000SeO4-2 - 0.500O2 = SeO3-2
log_k -14.950 #05OLI/NOL
delta_h 90.273 #kJ/mol
# Enthalpy of formation: -507.16 #kJ/mol #05OLI/NOL
-analytic 8.65128E-1 0E+0 -4.71528E+3 0E+0 0E+0
1.000Sn+2 - 1.000H2O + 2.000H+ + 0.500O2 = Sn+4
log_k 30.010 #12GAM/GAJ; E°=0.384V for Sn2+/Sn4+ reaction ( I=0)
delta_h -301.645 #kJ/mol
# Enthalpy of formation: -31.499 #kJ/mol
-analytic -2.28359E+1 0E+0 1.5756E+4 0E+0 0E+0
1.000TcO(OH)2 - 1.000H+ - 0.500H2O + 0.750O2 = TcO4-
log_k 35.055
delta_h -113.895 #kJ/mol
# Enthalpy of formation: -729.4 #kJ/mol #99RAR/RAN
-analytic 1.51016E+1 0E+0 5.94912E+3 0E+0 0E+0
1.000TcO4- + 0.500H2O - 1.000H+ - 0.250O2 = TcO4-2
log_k -32.295 #99RAR/RAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.2295E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 0.500H2O - 1.000H+ - 0.250O2 = U+3
log_k -30.845 #92GRE/FUG
delta_h 241.982 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -489.1 #kJ/mol
-analytic 1.15483E+1 0E+0 -1.26396E+4 0E+0 0E+0
1.000UO2+2 + 2.000H+ - 1.000H2O - 0.500O2 = U+4
log_k -33.950 #92GRE/FUG
delta_h 135.903 #kJ/mol
# Enthalpy of formation: -591.2 #kJ/mol #92GRE/FUG
-analytic -1.01409E+1 0E+0 -7.0987E+3 0E+0 0E+0
1.000UO2+2 + 0.500H2O - 1.000H+ - 0.250O2 = UO2+
log_k -20.015
delta_h 133.755 #kJ/mol
# Enthalpy of formation: -1025.127 #kJ/mol
-analytic 3.41775E+0 0E+0 -6.98647E+3 0E+0 0E+0
2.000NpO2+2 - 2.000H+ + 2.000H2O = (NpO2)2(OH)2+2
log_k -6.270 #01LEM/FUG
delta_h 44.996 #kJ/mol
# Enthalpy of formation: -2248.13 #kJ/mol
-analytic 1.61295E+0 0E+0 -2.3503E+3 0E+0 0E+0
2.000NpO2+2 - 3.000H+ + 1.000CO3-2 + 3.000H2O = (NpO2)2CO3(OH)3-
log_k -2.870 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.87E+0 0E+0 0E+0 0E+0 0E+0
3.000NpO2+2 + 6.000CO3-2 = (NpO2)3(CO3)6-6
log_k 49.840 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.984E+1 0E+0 0E+0 0E+0 0E+0
3.000NpO2+2 - 5.000H+ + 5.000H2O = (NpO2)3(OH)5+
log_k -17.120 #01LEM/FUG
delta_h 110.667 #kJ/mol
# Enthalpy of formation: -3900.682 #kJ/mol
-analytic 2.268E+0 0E+0 -5.78053E+3 0E+0 0E+0
2.000PuO2+2 - 2.000H+ + 2.000H2O = (PuO2)2(OH)2+2
log_k -7.500 #01LEM/FUG
delta_h 43.583 #kJ/mol
# Enthalpy of formation: -2172.149 #kJ/mol
-analytic 1.35403E-1 0E+0 -2.2765E+3 0E+0 0E+0
3.000PuO2+2 + 6.000CO3-2 = (PuO2)3(CO3)6-6
log_k 46.020 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.602E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 - 1.000H+ + 1.000H2O = (TcO)(OH)3-
log_k -10.800
delta_h 39.030 #kJ/mol #97NGU/LAN
# Enthalpy of formation: -996.12 #kJ/mol
-analytic -3.96225E+0 0E+0 -2.03868E+3 0E+0 0E+0
2.000Th+4 - 2.000H+ + 2.000Edta-4 + 2.000H2O = (Th(OH)(Edta))2-2
log_k 43.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.37E+1 0E+0 0E+0 0E+0 0E+0
2.000U+4 - 2.000H+ + 2.000Edta-4 + 2.000H2O = (U(OH)(Edta))2-2
log_k 51.700 #63ERM/KRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.17E+1 0E+0 0E+0 0E+0 0E+0
11.000UO2+2 - 12.000H+ + 6.000CO3-2 + 12.000H2O = (UO2)11(CO3)6(OH)12-2
log_k 36.430 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.643E+1 0E+0 0E+0 0E+0 0E+0
2.000UO2+2 - 3.000H+ + 1.000CO3-2 + 3.000H2O = (UO2)2(CO3)(OH)3-
log_k -0.860 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.6E-1 0E+0 0E+0 0E+0 0E+0
2.000UO2+2 + 2.000Cit-3 = (UO2)2(Cit)2-2
log_k 21.300 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.13E+1 0E+0 0E+0 0E+0 0E+0
2.000UO2+2 + 1.000Edta-4 = (UO2)2(Edta)
log_k 20.600 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.06E+1 0E+0 0E+0 0E+0 0E+0
2.000UO2+2 + 1.000NpO2+2 + 6.000CO3-2 = (UO2)2(NpO2)(CO3)6-6
log_k 53.590 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.359E+1 0E+0 0E+0 0E+0 0E+0
2.000UO2+2 - 1.000H+ + 1.000H2O = (UO2)2(OH)+3
log_k -2.700 #92GRE/FUG
delta_h 14.354 #kJ/mol
# Enthalpy of formation: -2309.476 #kJ/mol
-analytic -1.85291E-1 0E+0 -7.49761E+2 0E+0 0E+0
2.000UO2+2 - 2.000H+ + 2.000H2O = (UO2)2(OH)2+2
log_k -5.620 #92GRE/FUG
delta_h 37.595 #kJ/mol
# Enthalpy of formation: -2572.065 #kJ/mol
-analytic 9.66352E-1 0E+0 -1.96372E+3 0E+0 0E+0
3.000UO2+2 - 3.000H+ + 1.000CO3-2 + 3.000H2O = (UO2)3(CO3)(OH)3+
log_k 0.660 #92GRE/FUG
delta_h 81.159 #kJ/mol
# Enthalpy of formation: -4361.23 #kJ/mol
-analytic 1.48784E+1 0E+0 -4.23922E+3 0E+0 0E+0
3.000UO2+2 + 6.000CO3-2 = (UO2)3(CO3)6-6
log_k 54.000 #92GRE/FUG
delta_h -62.700 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -7171.08 #kJ/mol
-analytic 4.30154E+1 0E+0 3.27504E+3 0E+0 0E+0
3.000UO2+2 - 4.000H+ + 4.000H2O = (UO2)3(OH)4+2
log_k -11.900 #92GRE/FUG
delta_h 84.264 #kJ/mol
# Enthalpy of formation: -4251.906 #kJ/mol
-analytic 2.8624E+0 0E+0 -4.40141E+3 0E+0 0E+0
3.000UO2+2 - 5.000H+ + 5.000H2O = (UO2)3(OH)5+
log_k -15.550 #92GRE/FUG
delta_h 97.063 #kJ/mol
# Enthalpy of formation: -4389.086 #kJ/mol
-analytic 1.45468E+0 0E+0 -5.06995E+3 0E+0 0E+0
3.000UO2+2 - 7.000H+ + 7.000H2O = (UO2)3(OH)7-
log_k -32.200 #92SAN/BRU
delta_h 229.868 #kJ/mol
# Enthalpy of formation: -4827.942 #kJ/mol
-analytic 8.07109E+0 0E+0 -1.20068E+4 0E+0 0E+0
4.000UO2+2 - 7.000H+ + 7.000H2O = (UO2)4(OH)7+
log_k -21.900 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.19E+1 0E+0 0E+0 0E+0 0E+0
1.000Ag+ + 2.000CO3-2 = Ag(CO3)2-3
log_k 2.160 #97SVE/SHO
delta_h -28.044 #kJ/mol
# Enthalpy of formation: -1272.714 #kJ/mol
-analytic -2.75309E+0 0E+0 1.46484E+3 0E+0 0E+0
1.000Ag+ + 1.000HS- = Ag(HS)
log_k 14.050 #74NAU/RYZ in 91BAL/NOR
delta_h -78.826 #kJ/mol
# Enthalpy of formation: 10.664 #kJ/mol
-analytic 2.40298E-1 0E+0 4.11736E+3 0E+0 0E+0
1.000Ag+ + 2.000HS- = Ag(HS)2-
log_k 18.450 #74NAU/RYZ in 91BAL/NOR
delta_h -105.805 #kJ/mol
# Enthalpy of formation: -32.615 #kJ/mol
-analytic -8.62131E-2 0E+0 5.52657E+3 0E+0 0E+0
1.000Ag+ - 1.000H+ + 1.000H2O = Ag(OH)
log_k -12.000 #76BAE/MES
delta_h 47.178 #kJ/mol
# Enthalpy of formation: -132.862 #kJ/mol
-analytic -3.73478E+0 0E+0 -2.46427E+3 0E+0 0E+0
1.000Ag+ - 2.000H+ + 2.000H2O = Ag(OH)2-
log_k -24.000 #76BAE/MES
delta_h 111.634 #kJ/mol
# Enthalpy of formation: -354.236 #kJ/mol
-analytic -4.44259E+0 0E+0 -5.83104E+3 0E+0 0E+0
1.000Ag+ + 1.000S2O3-2 = Ag(S2O3)-
log_k 9.230 #74BEL/MAR in 82HÖG
delta_h -58.994 #kJ/mol #74BEL/MAR in 82HÖG
# Enthalpy of formation: -601.724 #kJ/mol
-analytic -1.10529E+0 0E+0 3.08147E+3 0E+0 0E+0
1.000Ag+ + 2.000S2O3-2 = Ag(S2O3)2-3
log_k 13.640 #72POU/RIG in 82HÖG
delta_h -94.450 #kJ/mol
# Enthalpy of formation: -1285.7 #kJ/mol #82WAG/EVA
-analytic -2.90691E+0 0E+0 4.93346E+3 0E+0 0E+0
1.000Ag+ + 1.000SO3-2 = Ag(SO3)-
log_k 5.210
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.21E+0 0E+0 0E+0 0E+0 0E+0
1.000Ag+ + 1.000SO4-2 = Ag(SO4)-
log_k 1.380
delta_h 4.646 #kJ/mol
# Enthalpy of formation: -798.904 #kJ/mol
-analytic 2.19394E+0 0E+0 -2.42677E+2 0E+0 0E+0
1.000Ag+ + 3.000H+ + 3.000Cn- + 3.000HSe- - 3.000H2O + 1.500O2 = Ag(SeCn)3-2
log_k 181.900
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.819E+2 0E+0 0E+0 0E+0 0E+0
1.000Ag+ + 1.000SeO3-2 = Ag(SeO3)-
log_k 3.200 #Data from 68MEH and 69MEH/GUB in 05OLI/NOL corrected to I=0 by DH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Ag+ + 1.000Br- = AgBr
log_k 4.240 #91BAL/NOR, 68WAG
delta_h -23.129 #kJ/mol
# Enthalpy of formation: -38.749 #kJ/mol
-analytic 1.87979E-1 0E+0 1.20811E+3 0E+0 0E+0
1.000Ag+ + 2.000Br- = AgBr2-
log_k 7.280 #91BAL/NOR, 68WAG
delta_h -45.296 #kJ/mol
# Enthalpy of formation: -182.326 #kJ/mol
-analytic -6.55507E-1 0E+0 2.36597E+3 0E+0 0E+0
1.000Ag+ + 3.000Br- = AgBr3-2
log_k 8.710 #91BAL/NOR, 68WAG
delta_h -66.741 #kJ/mol
# Enthalpy of formation: -325.181 #kJ/mol
-analytic -2.9825E+0 0E+0 3.48612E+3 0E+0 0E+0
1.000Ag+ + 1.000CO3-2 = AgCO3-
log_k 2.690 #97SVE/SHO
delta_h -22.832 #kJ/mol
# Enthalpy of formation: -592.272 #kJ/mol
-analytic -1.30999E+0 0E+0 1.1926E+3 0E+0 0E+0
1.000Ag+ + 1.000Cl- = AgCl
log_k 3.270 #91BAL/NOR
delta_h -17.099 #kJ/mol
# Enthalpy of formation: -78.389 #kJ/mol
-analytic 2.74388E-1 0E+0 8.93142E+2 0E+0 0E+0
1.000Ag+ + 2.000Cl- = AgCl2-
log_k 5.270 #91BAL/NOR
delta_h -28.752 #kJ/mol
# Enthalpy of formation: -257.122 #kJ/mol
-analytic 2.32873E-1 0E+0 1.50182E+3 0E+0 0E+0
1.000Ag+ + 3.000Cl- = AgCl3-2
log_k 5.290 #91BAL/NOR
delta_h -29.163 #kJ/mol
# Enthalpy of formation: -424.613 #kJ/mol
-analytic 1.80869E-1 0E+0 1.52329E+3 0E+0 0E+0
1.000Ag+ + 4.000Cl- = AgCl4-3
log_k 5.510 #91BAL/NOR
delta_h -26.094 #kJ/mol
# Enthalpy of formation: -588.624 #kJ/mol
-analytic 9.38534E-1 0E+0 1.36298E+3 0E+0 0E+0
1.000Ag+ + 1.000I- = AgI
log_k 6.580 #76SMI/MAR
delta_h -36.962 #kJ/mol
# Enthalpy of formation: 12.048 #kJ/mol
-analytic 1.04545E-1 0E+0 1.93066E+3 0E+0 0E+0
1.000Ag+ + 2.000I- = AgI2-
log_k 11.700 #76SMI/MAR
delta_h -76.578 #kJ/mol
# Enthalpy of formation: -84.348 #kJ/mol
-analytic -1.71587E+0 0E+0 3.99994E+3 0E+0 0E+0
1.000Ag+ + 3.000I- = AgI3-2
log_k 13.280
delta_h -114.911 #kJ/mol
# Enthalpy of formation: -179.461 #kJ/mol
-analytic -6.85151E+0 0E+0 6.00221E+3 0E+0 0E+0
1.000Ag+ + 1.000NO3- = AgNO3
log_k -0.290 #91BAL/NOR, 68WAG
delta_h -0.740 #kJ/mol
# Enthalpy of formation: -101.8 #kJ/mol #82WAG/EVA
-analytic -4.19642E-1 0E+0 3.86528E+1 0E+0 0E+0
1.000Al+3 + 1.000Cit-3 = Al(Cit)
log_k 9.900 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 1.000H+ + 2.000Cit-3 + 1.000H2O = Al(Cit)2(OH)-4
log_k 10.190 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.019E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 2.000Cit-3 = Al(Cit)2-3
log_k 14.130 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.413E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000Edta-4 = Al(Edta)-
log_k 19.080 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.908E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000H+ + 1.000Cit-3 = Al(HCit)+
log_k 12.900 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.29E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000H+ + 1.000Edta-4 = Al(HEdta)
log_k 21.820 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.182E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000H+ + 1.000Nta-3 = Al(HNta)+
log_k 15.130 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.513E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000H+ + 1.000Ox-2 = Al(HOx)+2
log_k 7.500 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000IO3- = Al(IO3)+2
log_k 2.460 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.46E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 2.000IO3- = Al(IO3)2+
log_k 4.300 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000Nta-3 = Al(Nta)
log_k 13.230 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.323E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 2.000H+ + 1.000Nta-3 + 2.000H2O = Al(Nta)(OH)2-2
log_k -0.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3E-1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 2.000Nta-3 = Al(Nta)2-3
log_k 20.800 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.08E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 1.000H+ + 1.000Cit-3 + 1.000H2O = Al(OH)(Cit)-
log_k 8.100 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 1.000H+ + 1.000Edta-4 + 1.000H2O = Al(OH)(Edta)-2
log_k 13.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 1.000H+ + 1.000Nta-3 + 1.000H2O = Al(OH)(Nta)-
log_k 6.790 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.79E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 1.000H+ + 1.000H2O = Al(OH)+2
log_k -4.950 #95POK/HEL
delta_h 49.760 #kJ/mol
# Enthalpy of formation: -774.47 #kJ/mol
-analytic 3.76756E+0 0E+0 -2.59914E+3 0E+0 0E+0
1.000Al+3 - 2.000H+ + 1.000Edta-4 + 2.000H2O = Al(OH)2(Edta)-3
log_k 2.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 - 2.000H+ + 2.000H2O = Al(OH)2+
log_k -10.580
delta_h 98.264 #kJ/mol
# Enthalpy of formation: -1011.796 #kJ/mol #95POK/HEL
-analytic 6.63509E+0 0E+0 -5.13268E+3 0E+0 0E+0
1.000Al+3 - 2.000H+ + 1.000F- + 2.000H2O = Al(OH)2F
log_k -4.210
delta_h 118.636 #kJ/mol
# Enthalpy of formation: -1326.774 #kJ/mol #01TAG/SCH
-analytic 1.65741E+1 0E+0 -6.19678E+3 0E+0 0E+0
1.000Al+3 - 2.000H+ + 2.000F- + 2.000H2O = Al(OH)2F2-
log_k -1.990
delta_h 134.839 #kJ/mol
# Enthalpy of formation: -1645.921 #kJ/mol #01TAG/SCH
-analytic 2.16327E+1 0E+0 -7.04312E+3 0E+0 0E+0
1.000Al+3 - 3.000H+ + 3.000H2O = Al(OH)3
log_k -16.420
delta_h 144.686 #kJ/mol
# Enthalpy of formation: -1251.204 #kJ/mol #95POK/HEL
-analytic 8.92786E+0 0E+0 -7.55747E+3 0E+0 0E+0
1.000Al+3 - 4.000H+ + 4.000H2O = Al(OH)4-
log_k -22.870
delta_h 180.881 #kJ/mol
# Enthalpy of formation: -1500.839 #kJ/mol #95POK/HEL
-analytic 8.81894E+0 0E+0 -9.44806E+3 0E+0 0E+0
1.000Al+3 + 1.000Ox-2 = Al(Ox)+
log_k 9.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 2.000Ox-2 = Al(Ox)2-
log_k 15.390 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.539E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 3.000Ox-2 = Al(Ox)3-3
log_k 18.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.83E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000SO4-2 = Al(SO4)+
log_k 3.170 #01TAG/SCH
delta_h 18.870 #kJ/mol
# Enthalpy of formation: -1428.87 #kJ/mol
-analytic 6.47588E+0 0E+0 -9.85647E+2 0E+0 0E+0
2.000Al+3 - 2.000H+ + 4.000Ox-2 + 2.000H2O = Al2(Ox)4(OH)2-4
log_k -6.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6E+0 0E+0 0E+0 0E+0 0E+0
3.000Al+3 - 4.000H+ + 3.000Cit-3 + 4.000H2O = Al3(Cit)3(OH)4-4
log_k 20.600 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.06E+1 0E+0 0E+0 0E+0 0E+0
3.000Al+3 - 3.000H+ + 3.000Ox-2 + 3.000H2O = Al3(Ox)3(OH)3
log_k 16.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6E+1 0E+0 0E+0 0E+0 0E+0
4.000Al+3 - 4.000H+ + 4.000Ox-2 + 4.000H2O = Al4(Ox)4(OH)4
log_k 21.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.1E+1 0E+0 0E+0 0E+0 0E+0
1.000Al+3 + 1.000F- = AlF+2
log_k 6.980 #01TAG/SCH
delta_h -0.346 #kJ/mol
# Enthalpy of formation: -874.096 #kJ/mol
-analytic 6.91938E+0 0E+0 1.80728E+1 0E+0 0E+0
1.000Al+3 + 2.000F- = AlF2+
log_k 12.500 #01TAG/SCH
delta_h 0.420 #kJ/mol
# Enthalpy of formation: -1208.68 #kJ/mol
-analytic 1.25736E+1 0E+0 -2.19381E+1 0E+0 0E+0
1.000Al+3 + 3.000F- = AlF3
log_k 16.550 #01TAG/SCH
delta_h 0.615 #kJ/mol
# Enthalpy of formation: -1543.835 #kJ/mol
-analytic 1.66577E+1 0E+0 -3.21236E+1 0E+0 0E+0
1.000Al+3 + 4.000F- = AlF4-
log_k 18.930 #01TAG/SCH
delta_h 0.823 #kJ/mol
# Enthalpy of formation: -1878.977 #kJ/mol
-analytic 1.90742E+1 0E+0 -4.29882E+1 0E+0 0E+0
1.000Al+3 - 1.000H+ + 1.000H4(SiO4) = AlH3SiO4+2
log_k -2.380 #01TAG/SCH
delta_h 77.389 #kJ/mol
# Enthalpy of formation: -1922.205 #kJ/mol
-analytic 1.1178E+1 0E+0 -4.0423E+3 0E+0 0E+0
1.000Al+3 - 1.000H+ + 2.000F- + 1.000H2O = AlOHF2
log_k 0.210
delta_h 139.337 #kJ/mol
# Enthalpy of formation: -1355.593 #kJ/mol #01TAG/SCH
-analytic 2.46208E+1 0E+0 -7.27807E+3 0E+0 0E+0
1.000Am+3 + 1.000Acetate- = Am(Acetate)+2
log_k 2.940 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.94E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 2.000Acetate- = Am(Acetate)2+
log_k 5.070 #69MOS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.07E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 3.000Acetate- = Am(Acetate)3
log_k 6.540 #69MOS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.54E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000CO3-2 = Am(CO3)+
log_k 7.900 #recalculated from 03GUI/FAN
delta_h 158.156 #kJ/mol
# Enthalpy of formation: -1133.774 #kJ/mol
-analytic 3.56077E+1 0E+0 -8.26105E+3 0E+0 0E+0
1.000Am+3 + 2.000CO3-2 = Am(CO3)2-
log_k 12.600 #recalculated from 03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.26E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 3.000CO3-2 = Am(CO3)3-3
log_k 14.600 #Recalculated from 03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.46E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 5.000CO3-2 - 0.500H2O + 1.000H+ + 0.250O2 = Am(CO3)5-6
log_k 16.395 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6395E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000Cit-3 = Am(Cit)
log_k 8.550 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.55E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 2.000Cit-3 = Am(Cit)2-3
log_k 13.900 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.39E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000Edta-4 = Am(Edta)-
log_k 19.670 #05HUM/AND
delta_h -10.600 #kJ/mol
# Enthalpy of formation: -2332.1 #kJ/mol
-analytic 1.7813E+1 0E+0 5.53676E+2 0E+0 0E+0
1.000Am+3 + 1.000H2(PO4)- = Am(H2PO4)+2
log_k 3.000 #95SIL/BID
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Am+3 + 1.000CO3-2 = Am(HCO3)+2
log_k 13.430 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.343E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Am+3 + 1.000Cit-3 = Am(HCit)+
log_k 12.860 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.286E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Am+3 + 2.000Cit-3 = Am(HCit)2-
log_k 23.520 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.352E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Am+3 + 1.000Edta-4 = Am(HEdta)
log_k 21.840 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.184E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Am+3 + 1.000H2(PO4)- = Am(HPO4)+
log_k -1.740
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.74E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000Am+3 + 2.000H2(PO4)- = Am(HPO4)2-
log_k -5.310
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.31E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000NO3- = Am(NO3)+2
log_k 1.330 #95SIL/BID
delta_h 1.800 #kJ/mol #09SKE/PAN
# Enthalpy of formation: -821.75 #kJ/mol
-analytic 1.64535E+0 0E+0 -9.40204E+1 0E+0 0E+0
1.000Am+3 + 1.000Nta-3 = Am(Nta)
log_k 13.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 2.000Nta-3 = Am(Nta)2-3
log_k 22.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.2E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Am+3 + 1.000H2O = Am(OH)+2
log_k -7.200 #03GUI/FAN, 88STA/KIM1, 94RUN/KIM, 83EDE/BUC, 83CAC/CHO, 92WIM/KLE
delta_h 78.411 #kJ/mol
# Enthalpy of formation: -824.119 #kJ/mol
-analytic 6.537E+0 0E+0 -4.09569E+3 0E+0 0E+0
- 2.000H+ + 1.000Am+3 + 2.000H2O = Am(OH)2+
log_k -15.100 #03GUI/FAN, 88STA/KIM1, 94RUN/KIM, 83EDE/BUC, 83CAC/CHO, 92WIM/KLE
delta_h 143.704 #kJ/mol
# Enthalpy of formation: -1044.656 #kJ/mol
-analytic 1.00758E+1 0E+0 -7.50617E+3 0E+0 0E+0
- 3.000H+ + 1.000Am+3 + 3.000H2O = Am(OH)3
log_k -26.200 #03GUI/FAN, 88STA/KIM1, 94RUN/KIM, 83EDE/BUC, 83CAC/CHO, 92WIM/KLE
delta_h 230.125 #kJ/mol
# Enthalpy of formation: -1244.065 #kJ/mol
-analytic 1.41161E+1 0E+0 -1.20202E+4 0E+0 0E+0
- 3.000H+ + 1.000Am+3 + 1.000HGlu- + 3.000H2O = Am(OH)3(HGlu)-
log_k -19.700 #05TIT/WIE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.97E+1 0E+0 0E+0 0E+0 0E+0
- 3.000H+ + 1.000Am+3 + 1.000HIsa- + 3.000H2O = Am(OH)3(HIsa)-
log_k -21.500 #05TIT/WIE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.15E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 1.000Am+3 + 4.000H2O = Am(OH)4-
log_k -40.700 #07NEC/ALT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.07E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000Ox-2 = Am(Ox)+
log_k 6.510 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.51E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 2.000Ox-2 = Am(Ox)2-
log_k 10.710 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.071E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 3.000Ox-2 = Am(Ox)3-3
log_k 13.000 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 1.000Am+3 + 2.000H2(PO4)- = Am(PO4)2-3
log_k -19.430
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.943E+1 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000Phthalat-2 = Am(Phthalat)+
log_k 4.930 #In analogy with Cm
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.93E+0 0E+0 0E+0 0E+0 0E+0
1.000Am+3 + 1.000SO4-2 = Am(SO4)+
log_k 3.450 #12GRI/GAR1
delta_h 15.493 #kJ/mol
# Enthalpy of formation: -1510.547 #kJ/mol
-analytic 6.16425E+0 0E+0 -8.09255E+2 0E+0 0E+0
1.000Am+3 + 2.000SO4-2 = Am(SO4)2-
log_k 4.570 #12GRI/GAR1
delta_h 20.927 #kJ/mol
# Enthalpy of formation: -2414.453 #kJ/mol
-analytic 8.23625E+0 0E+0 -1.09309E+3 0E+0 0E+0
1.000Am+3 + 1.000Cl- = AmCl+2
log_k 0.240 #97KÖN/FAN
delta_h 25.106 #kJ/mol
# Enthalpy of formation: -758.674 #kJ/mol
-analytic 4.63838E+0 0E+0 -1.31138E+3 0E+0 0E+0
1.000Am+3 + 2.000Cl- = AmCl2+
log_k -0.740 #97KÖN/FAN
delta_h 40.568 #kJ/mol
# Enthalpy of formation: -910.292 #kJ/mol
-analytic 6.3672E+0 0E+0 -2.11901E+3 0E+0 0E+0
1.000Am+3 + 1.000F- = AmF+2
log_k 3.400 #03GUI/FAN
delta_h 27.134 #kJ/mol
# Enthalpy of formation: -924.916 #kJ/mol
-analytic 8.15367E+0 0E+0 -1.41731E+3 0E+0 0E+0
1.000Am+3 + 2.000F- = AmF2+
log_k 5.800 #95SIL/BID
delta_h 22.320 #kJ/mol
# Enthalpy of formation: -1265.08 #kJ/mol
-analytic 9.71029E+0 0E+0 -1.16585E+3 0E+0 0E+0
1.000Am+3 + 3.000F- = AmF3
log_k 10.820 #69AZI/LYL
delta_h -12.119 #kJ/mol
# Enthalpy of formation: -1634.869 #kJ/mol
-analytic 8.69685E+0 0E+0 6.33019E+2 0E+0 0E+0
1.000AmO2+ + 1.000CO3-2 = AmO2(CO3)-
log_k 5.100 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.1E+0 0E+0 0E+0 0E+0 0E+0
1.000AmO2+ + 2.000CO3-2 = AmO2(CO3)2-3
log_k 6.700 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.7E+0 0E+0 0E+0 0E+0 0E+0
1.000AmO2+ + 3.000CO3-2 = AmO2(CO3)3-5
log_k 5.100 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.1E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000AmO2+ + 2.000H2O = AmO2(OH)2-
log_k -23.600 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.36E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000AmO2+ + 1.000H2O = AmO2OH
log_k -11.300 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.13E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Am+3 + 1.000H4(SiO4) = AmOSi(OH)3+2
log_k -2.310 #Original data 07THA/SIN, 05PAN/KIM and 97STE/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.31E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000Am+3 + 1.000H2(PO4)- = AmPO4
log_k -7.760
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.76E+0 0E+0 0E+0 0E+0 0E+0
- 3.000H+ + 1.000H3(AsO3) = AsO3-3
log_k -38.590 #79IVA/VOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.859E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000B(OH)4- - 1.000H2O = B(OH)3
log_k 9.240
delta_h -13.514 #kJ/mol
# Enthalpy of formation: -1072.8 #kJ/mol #01LEM/FUG
-analytic 6.87245E+0 0E+0 7.05884E+2 0E+0 0E+0
2.000H+ + 3.000B(OH)4- - 7.000H2O = B3O5-
log_k 20.900 #97CRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.09E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 4.000B(OH)4- - 9.000H2O = B4O7-2
log_k 21.900 #97CRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.19E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000F- + 1.000B(OH)4- - 1.000H2O = BF(OH)3-
log_k 8.940 #77NOR/JEN
delta_h -39.078 #kJ/mol #77NOR/JEN
# Enthalpy of formation: -1433.714 #kJ/mol
-analytic 2.09384E+0 0E+0 2.04118E+3 0E+0 0E+0
2.000H+ + 2.000F- + 1.000B(OH)4- - 2.000H2O = BF2(OH)2-
log_k 16.970 #77NOR/JEN
delta_h -38.702 #kJ/mol #77NOR/JEN
# Enthalpy of formation: -1482.858 #kJ/mol
-analytic 1.01897E+1 0E+0 2.02154E+3 0E+0 0E+0
3.000H+ + 3.000F- + 1.000B(OH)4- - 3.000H2O = BF3(OH)-
log_k 23.010 #77NOR/JEN
delta_h -38.326 #kJ/mol #77NOR/JEN
# Enthalpy of formation: -1532.002 #kJ/mol
-analytic 1.62956E+1 0E+0 2.0019E+3 0E+0 0E+0
4.000H+ + 4.000F- + 1.000B(OH)4- - 4.000H2O = BF4-
log_k 29.620 #77NOR/JEN
delta_h 73.680 #kJ/mol #77NOR/JEN
# Enthalpy of formation: -1616.876 #kJ/mol
-analytic 4.25282E+1 0E+0 -3.84857E+3 0E+0 0E+0
1.000Ba+2 + 1.000CO3-2 = Ba(CO3)
log_k 2.710 #86BUS/PLU
delta_h 14.841 #kJ/mol #86BUS/PLU
# Enthalpy of formation: -1195.189 #kJ/mol
-analytic 5.31003E+0 0E+0 -7.75198E+2 0E+0 0E+0
1.000Ba+2 + 1.000H+ + 1.000CO3-2 = Ba(HCO3)+
log_k 11.310 #86BUS/PLU
delta_h 8.560 #kJ/mol #86BUS/PLU
# Enthalpy of formation: -1201.47 #kJ/mol
-analytic 1.28096E+1 0E+0 -4.47119E+2 0E+0 0E+0
1.000Ba+2 + 1.000NO3- = Ba(NO3)+
log_k -0.310
delta_h 6.819 #kJ/mol
# Enthalpy of formation: -734.831 #kJ/mol
-analytic 8.84636E-1 0E+0 -3.56181E+2 0E+0 0E+0
1.000Ba+2 - 1.000H+ + 1.000H2O = Ba(OH)+
log_k -13.470 #76BAE/MES
delta_h 87.395 #kJ/mol
# Enthalpy of formation: -733.235 #kJ/mol
-analytic 1.84092E+0 0E+0 -4.56495E+3 0E+0 0E+0
1.000Ba+2 + 1.000SO4-2 = Ba(SO4)
log_k 2.700 #76SMI/MAR
delta_h 7.367 #kJ/mol
# Enthalpy of formation: -1436.773 #kJ/mol
-analytic 3.99064E+0 0E+0 -3.84805E+2 0E+0 0E+0
1.000Ba+2 + 1.000B(OH)4- = BaB(OH)4+
log_k 1.490 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.49E+0 0E+0 0E+0 0E+0 0E+0
1.000Ba+2 + 1.000F- = BaF+
log_k 0.400
delta_h 6.697 #kJ/mol
# Enthalpy of formation: -863.452 #kJ/mol #97SVE/SHO
-analytic 1.57326E+0 0E+0 -3.49808E+2 0E+0 0E+0
2.000H+ + 1.000CO3-2 - 1.000H2O - 0.500O2 = CO
log_k -31.390
delta_h 262.373 #kJ/mol
# Enthalpy of formation: -120.96 #kJ/mol #82WAG/EVA
-analytic 1.45757E+1 0E+0 -1.37047E+4 0E+0 0E+0
2.000H+ + 1.000CO3-2 - 1.000H2O = CO2
log_k 16.680
delta_h -23.860 #kJ/mol
# Enthalpy of formation: -413.26 #kJ/mol #89COX/WAG
-analytic 1.24999E+1 0E+0 1.24629E+3 0E+0 0E+0
1.000Ca+2 + 1.000Acetate- = Ca(Acetate)+
log_k 1.120 #95DER/DIG
delta_h -19.338 #kJ/mol
# Enthalpy of formation: -1048.348 #kJ/mol
-analytic -2.26787E+0 0E+0 1.01009E+3 0E+0 0E+0
1.000Ca+2 + 1.000Adipate-2 = Ca(Adipate)
log_k 2.190 #04MAR/SMI from 40TOP/DAV
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.19E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 3.000H+ + 1.000Am+3 + 3.000H2O = Ca(Am(OH)3)+2
log_k -26.300 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.63E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000AsO4-3 = Ca(AsO4)-
log_k 5.770 #10MAR/ACC
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.77E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Cit-3 = Ca(Cit)-
log_k 4.800 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -2062.92 #kJ/mol
-analytic 4.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 3.000H+ + 1.000Cm+3 + 3.000H2O = Ca(Cm(OH)3)+2
log_k -26.300 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.63E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Edta-4 = Ca(Edta)-2
log_k 12.690 #05HUM/AND
delta_h -22.200 #kJ/mol
# Enthalpy of formation: -2270 #kJ/mol
-analytic 8.80073E+0 0E+0 1.15959E+3 0E+0 0E+0
1.000Ca+2 + 1.000Eu+3 - 3.000H+ + 3.000H2O = Ca(Eu(OH)3)+2
log_k -26.300 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.63E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 2.000H+ + 1.000AsO4-3 = Ca(H2AsO4)+
log_k 19.870 #10MAR/ACC
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.987E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 2.000H+ + 1.000Cit-3 = Ca(H2Cit)+
log_k 12.670 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.267E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H2(PO4)- = Ca(H2PO4)+
log_k 1.410 #68CHU/MAR
delta_h 14.226 #kJ/mol #68CHU/MAR
# Enthalpy of formation: -1831.374 #kJ/mol
-analytic 3.90228E+0 0E+0 -7.43075E+2 0E+0 0E+0
1.000Ca+2 - 1.000H+ + 1.000H4(SiO4) = Ca(H3SiO4)+
log_k -8.830 #97SVE/SHO
delta_h 31.633 #kJ/mol
# Enthalpy of formation: -1972.561 #kJ/mol
-analytic -3.28814E+0 0E+0 -1.6523E+3 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000AsO4-3 = Ca(HAsO4)
log_k 13.900 #10MAR/ACC
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.39E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000CO3-2 = Ca(HCO3)+
log_k 11.430 #96BOU1
delta_h -23.597 #kJ/mol
# Enthalpy of formation: -1241.827 #kJ/mol
-analytic 7.29599E+0 0E+0 1.23256E+3 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Cit-3 = Ca(HCit)
log_k 9.280 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.28E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Edta-4 = Ca(HEdta)-
log_k 16.230 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.623E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000HGlu- = Ca(HGlu)+
log_k 1.730 #52SCH/LIN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.73E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000HIsa- = Ca(HIsa)+
log_k 1.700 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Malonate-2 = Ca(HMalonate)+
log_k 6.640 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.64E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Nta-3 = Ca(HNta)
log_k 13.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.34E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 2.000H+ + 2.000Nta-3 = Ca(HNta)2-2
log_k 23.630 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.363E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 1.000H+ + 1.000H2(PO4)- = Ca(HPO4)
log_k -4.470 #68CHU/MAR
delta_h 17.407 #kJ/mol #68CHU/MAR
# Enthalpy of formation: -1828.193 #kJ/mol
-analytic -1.42043E+0 0E+0 -9.0923E+2 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Phthalat-2 = Ca(HPhthalat)+
log_k 6.420 #85DAN/DER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.42E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Pyrophos-4 = Ca(HPyrophos)-
log_k 13.800 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.38E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000H+ + 1.000Succinat-2 = Ca(HSuccinat)+
log_k 6.790 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.79E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 3.000H+ + 1.000Ho+3 + 3.000H2O = Ca(Ho(OH)3)+2
log_k -26.300 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.63E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000IO3- = Ca(IO3)+
log_k 0.400 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4E-1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 1.000H+ + 1.000HIsa- = Ca(Isa)
log_k -10.400 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.04E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Malonate-2 = Ca(Malonate)
log_k 2.430 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.43E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000NH3 = Ca(NH3)+2
log_k -0.100 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1E-1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 2.000NH3 = Ca(NH3)2+2
log_k -0.700 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7E-1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 3.000NH3 = Ca(NH3)3+2
log_k -1.500 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 4.000NH3 = Ca(NH3)4+2
log_k -2.600 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Nta-3 = Ca(Nta)-
log_k 7.730 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.73E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 1.000H+ + 1.000HGlu- + 1.000H2O = Ca(OH)(HGlu)
log_k -10.400 #02TIT/WIE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.04E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 1.000H+ + 1.000H2O = Ca(OH)+
log_k -12.780 #87GAR/PAR
delta_h 77.206 #kJ/mol
# Enthalpy of formation: -751.624 #kJ/mol
-analytic 7.45891E-1 0E+0 -4.03274E+3 0E+0 0E+0
1.000Ca+2 + 1.000Ox-2 = Ca(Ox)
log_k 3.190 #05HUM/AND
delta_h 6.807 #kJ/mol
# Enthalpy of formation: -1366.853 #kJ/mol
-analytic 4.38253E+0 0E+0 -3.55554E+2 0E+0 0E+0
1.000Ca+2 + 2.000Ox-2 = Ca(Ox)2-2
log_k 4.020 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.02E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 - 2.000H+ + 1.000H2(PO4)- = Ca(PO4)-
log_k -13.100 #68CHU/MAR
delta_h 31.170 #kJ/mol
# Enthalpy of formation: -1814.43 #kJ/mol
-analytic -7.63926E+0 0E+0 -1.62812E+3 0E+0 0E+0
1.000Ca+2 + 1.000Phthalat-2 = Ca(Phthalat)
log_k 2.490 #85DAN/DER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.49E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Pyrophos-4 = Ca(Pyrophos)-2
log_k 7.500 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000S2O3-2 = Ca(S2O3)
log_k 1.900 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de Hatches3.0)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1191.5 #kJ/mol
-analytic 1.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000SO4-2 = Ca(SO4)
log_k 2.310 #53BEL/GEO
delta_h 4.292 #kJ/mol
# Enthalpy of formation: -1448.048 #kJ/mol
-analytic 3.06193E+0 0E+0 -2.24186E+2 0E+0 0E+0
1.000Ca+2 + 1.000SeO4-2 = Ca(SeO4)
log_k 2.000 #05OLI/NOL
delta_h 1.475 #kJ/mol
# Enthalpy of formation: -1145.025 #kJ/mol
-analytic 2.25841E+0 0E+0 -7.70445E+1 0E+0 0E+0
1.000Ca+2 + 1.000Sm+3 - 3.000H+ + 3.000H2O = Ca(Sm(OH)3)+2
log_k -26.300 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.63E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Succinat-2 = Ca(Succinat)
log_k 2.340 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.34E+0 0E+0 0E+0 0E+0 0E+0
2.000Ca+2 - 4.000H+ + 1.000Am+3 + 4.000H2O = Ca2(Am(OH)4)+3
log_k -37.200 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.72E+1 0E+0 0E+0 0E+0 0E+0
2.000Ca+2 - 4.000H+ + 1.000Cm+3 + 4.000H2O = Ca2(Cm(OH)4)+3
log_k -37.200 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.72E+1 0E+0 0E+0 0E+0 0E+0
2.000Ca+2 + 1.000Eu+3 - 4.000H+ + 4.000H2O = Ca2(Eu(OH)4)+3
log_k -37.200 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.72E+1 0E+0 0E+0 0E+0 0E+0
2.000Ca+2 - 4.000H+ + 1.000Ho+3 + 4.000H2O = Ca2(Ho(OH)4)+3
log_k -37.200 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.72E+1 0E+0 0E+0 0E+0 0E+0
2.000Ca+2 + 1.000Sm+3 - 4.000H+ + 4.000H2O = Ca2(Sm(OH)4)+3
log_k -37.200 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.72E+1 0E+0 0E+0 0E+0 0E+0
2.000Ca+2 + 3.000CO3-2 + 1.000UO2+2 = Ca2UO2(CO3)3
log_k 30.700 #06DON/BRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.07E+1 0E+0 0E+0 0E+0 0E+0
3.000Ca+2 - 6.000H+ + 1.000Am+3 + 6.000H2O = Ca3(Am(OH)6)+3
log_k -60.700 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.07E+1 0E+0 0E+0 0E+0 0E+0
3.000Ca+2 - 6.000H+ + 1.000Cm+3 + 6.000H2O = Ca3(Cm(OH)6)+3
log_k -60.700 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.07E+1 0E+0 0E+0 0E+0 0E+0
3.000Ca+2 + 1.000Eu+3 - 6.000H+ + 6.000H2O = Ca3(Eu(OH)6)+3
log_k -60.700 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.07E+1 0E+0 0E+0 0E+0 0E+0
3.000Ca+2 - 6.000H+ + 1.000Ho+3 + 6.000H2O = Ca3(Ho(OH)6)+3
log_k -60.700 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.07E+1 0E+0 0E+0 0E+0 0E+0
3.000Ca+2 + 1.000Sm+3 - 6.000H+ + 6.000H2O = Ca3(Sm(OH)6)+3
log_k -60.700 #07RAB/ALT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.07E+1 0E+0 0E+0 0E+0 0E+0
4.000Ca+2 + 1.000Th+4 - 8.000H+ + 8.000H2O = Ca4Th(OH)8+4
log_k -63.100 #08ALT/NEC
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.31E+1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000B(OH)4- = CaB(OH)4+
log_k 1.800 #97CRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000CO3-2 = CaCO3
log_k 3.220 #96BOU1
delta_h 14.830 #kJ/mol
# Enthalpy of formation: -1203.4 #kJ/mol #96BOU1
-analytic 5.8181E+0 0E+0 -7.74624E+2 0E+0 0E+0
1.000Ca+2 + 1.000CrO4-2 = CaCrO4
log_k 2.770 #00PER/PAL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.77E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000F- = CaF+
log_k 0.940 #ANDRA, CRP OHEM 95.002, X. BOURBON, janvier1996; Sélection de données thermodynamiques afférentes aux corrections de Température sur les principaux équilibres chimiques en milieu naturel
delta_h 17.238 #kJ/mol
# Enthalpy of formation: -861.112 #kJ/mol
-analytic 3.95996E+0 0E+0 -9.00402E+2 0E+0 0E+0
1.000Ca+2 + 1.000I- = CaI+
log_k 0.140 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.4E-1 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 2.000I- = CaI2
log_k -0.020 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2E-2 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Th+4 - 4.000H+ + 1.000HGlu- + 4.000H2O = CaTh(OH)4(HGlu)+
log_k -9.000 #13COL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000Th+4 - 4.000H+ + 1.000HIsa- + 4.000H2O = CaTh(OH)4(HIsa)+
log_k -9.000 #13COL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9E+0 0E+0 0E+0 0E+0 0E+0
1.000Ca+2 + 1.000UO2+2 + 3.000CO3-2 = CaUO2(CO3)3-2
log_k 27.180 #06DON/BRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.718E+1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000CO3-2 = Cd(CO3)
log_k 4.700 #91RAI/FEL1
delta_h 4.299 #kJ/mol
# Enthalpy of formation: -746.851 #kJ/mol
-analytic 5.45315E+0 0E+0 -2.24552E+2 0E+0 0E+0
1.000Cd+2 + 2.000CO3-2 = Cd(CO3)2-2
log_k 6.500 #91RAI/FEL1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000Cn- = Cd(Cn)+
log_k 5.300
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 2.000Cn- = Cd(Cn)2
log_k 10.340
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.034E+1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 3.000Cn- = Cd(Cn)3-
log_k 14.810
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.481E+1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 4.000Cn- = Cd(Cn)4-2
log_k 18.250
delta_h -98.480 #kJ/mol
# Enthalpy of formation: 428.096 #kJ/mol
-analytic 9.9707E-1 0E+0 5.14396E+3 0E+0 0E+0
1.000Cd+2 + 1.000H2(PO4)- = Cd(H2PO4)+
log_k 1.800 #01AYA/MAD
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000H+ + 1.000CO3-2 = Cd(HCO3)+
log_k 11.830 #93STI/PAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.183E+1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 2.000HS- = Cd(HS)2
log_k 14.430 #99WAN/TES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.443E+1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000NH3 = Cd(NH3)+2
log_k 2.520
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.52E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 2.000NH3 = Cd(NH3)2+2
log_k 4.870
delta_h -27.965 #kJ/mol
# Enthalpy of formation: -266.225 #kJ/mol
-analytic -2.92505E-2 0E+0 1.46071E+3 0E+0 0E+0
1.000Cd+2 + 3.000NH3 = Cd(NH3)3+2
log_k 5.930
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.93E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 4.000NH3 = Cd(NH3)4+2
log_k 7.300
delta_h -49.714 #kJ/mol
# Enthalpy of formation: -450.314 #kJ/mol
-analytic -1.40951E+0 0E+0 2.59674E+3 0E+0 0E+0
1.000Cd+2 + 1.000NO3- = Cd(NO3)+
log_k 0.460 #74FED/ROB in 82HÖG
delta_h -21.757 #kJ/mol #74NAU/RYZ in 91BAL/NOR
# Enthalpy of formation: -304.527 #kJ/mol
-analytic -3.35166E+0 0E+0 1.13645E+3 0E+0 0E+0
1.000Cd+2 + 2.000NO3- = Cd(NO3)2
log_k 0.170 #97CRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.7E-1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 - 1.000H+ + 1.000H2O = Cd(OH)+
log_k -10.080 #81BAE/MES
delta_h 54.810 #kJ/mol #81BAE/MES
# Enthalpy of formation: -306.94 #kJ/mol
-analytic -4.77714E-1 0E+0 -2.86292E+3 0E+0 0E+0
1.000Cd+2 - 2.000H+ + 2.000H2O = Cd(OH)2
log_k -20.900 #91RAI/FEL1
delta_h 114.900 #kJ/mol
# Enthalpy of formation: -532.68 #kJ/mol
-analytic -7.70414E-1 0E+0 -6.00164E+3 0E+0 0E+0
1.000Cd+2 - 3.000H+ + 3.000H2O = Cd(OH)3-
log_k -33.300 #81BAE/MES
delta_h 156.416 #kJ/mol
# Enthalpy of formation: -776.994 #kJ/mol
-analytic -5.89713E+0 0E+0 -8.17016E+3 0E+0 0E+0
1.000Cd+2 - 4.000H+ + 4.000H2O = Cd(OH)4-2
log_k -47.480 #91RAI/FEL1
delta_h 229.571 #kJ/mol
# Enthalpy of formation: -989.669 #kJ/mol
-analytic -7.26095E+0 0E+0 -1.19913E+4 0E+0 0E+0
1.000Cd+2 + 1.000Pyrophos-4 = Cd(Pyrophos)-2
log_k 8.700 #92CLE/DER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000S2O3-2 = Cd(S2O3)
log_k 2.460
delta_h 5.405 #kJ/mol
# Enthalpy of formation: -722.801 #kJ/mol #74NAU/RYZ
-analytic 3.40691E+0 0E+0 -2.82322E+2 0E+0 0E+0
1.000Cd+2 + 1.000SO4-2 = Cd(SO4)
log_k 2.370 #97MAR/SMI
delta_h 8.700 #kJ/mol #97MAR/SMI
# Enthalpy of formation: -976.56 #kJ/mol
-analytic 3.89417E+0 0E+0 -4.54432E+2 0E+0 0E+0
1.000Cd+2 + 2.000SO4-2 = Cd(SO4)2-2
log_k 3.440 #76SMI/MAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.44E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000H+ + 1.000Cn- + 1.000HSe- - 1.000H2O + 0.500O2 = Cd(SeCn)+
log_k 58.260
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.826E+1 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 2.000H+ + 2.000Cn- + 2.000HSe- - 2.000H2O + 1.000O2 = Cd(SeCn)2
log_k 115.370
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1537E+2 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 3.000H+ + 3.000Cn- + 3.000HSe- - 3.000H2O + 1.500O2 = Cd(SeCn)3-
log_k 171.860
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.7186E+2 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 4.000H+ + 4.000Cn- + 4.000HSe- - 4.000H2O + 2.000O2 = Cd(SeCn)4-2
log_k 228.670
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.2867E+2 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000SeO4-2 = Cd(SeO4)
log_k 2.270 #05OLI/NOL
delta_h 8.300 #kJ/mol #05OLI/NOL
# Enthalpy of formation: -671.12 #kJ/mol
-analytic 3.7241E+0 0E+0 -4.33539E+2 0E+0 0E+0
4.000Cd+2 - 4.000H+ + 4.000H2O = Cd4(OH)4+4
log_k -32.070
delta_h 172.135 #kJ/mol
# Enthalpy of formation: -1274.865 #kJ/mol #99YUN/GLU
-analytic -1.91329E+0 0E+0 -8.99122E+3 0E+0 0E+0
1.000Cd+2 + 1.000Br- = CdBr+
log_k 2.160
delta_h -7.959 #kJ/mol
# Enthalpy of formation: -205.289 #kJ/mol
-analytic 7.65645E-1 0E+0 4.15727E+2 0E+0 0E+0
1.000Cd+2 + 2.000Br- = CdBr2
log_k 2.920
delta_h -15.742 #kJ/mol
# Enthalpy of formation: -334.482 #kJ/mol
-analytic 1.62124E-1 0E+0 8.22261E+2 0E+0 0E+0
1.000Cd+2 + 3.000Br- = CdBr3-
log_k 3.190
delta_h -28.845 #kJ/mol
# Enthalpy of formation: -468.995 #kJ/mol
-analytic -1.86342E+0 0E+0 1.50668E+3 0E+0 0E+0
1.000Cd+2 + 1.000Cl- = CdCl+
log_k 1.970 #76BAE/MES
delta_h -5.520 #kJ/mol
# Enthalpy of formation: -248.52 #kJ/mol
-analytic 1.00294E+0 0E+0 2.88329E+2 0E+0 0E+0
1.000Cd+2 + 2.000Cl- = CdCl2
log_k 2.590 #76BAE/MES
delta_h -14.068 #kJ/mol
# Enthalpy of formation: -424.148 #kJ/mol
-analytic 1.25396E-1 0E+0 7.34822E+2 0E+0 0E+0
1.000Cd+2 + 3.000Cl- = CdCl3-
log_k 2.400 #76BAE/MES
delta_h -25.804 #kJ/mol
# Enthalpy of formation: -602.964 #kJ/mol
-analytic -2.12066E+0 0E+0 1.34783E+3 0E+0 0E+0
1.000Cd+2 + 4.000Cl- = CdCl4-2
log_k 1.470 #76BAE/MES
delta_h -44.765 #kJ/mol
# Enthalpy of formation: -789.005 #kJ/mol
-analytic -6.37248E+0 0E+0 2.33824E+3 0E+0 0E+0
1.000Cd+2 - 1.000H+ + 1.000H2(PO4)- = CdHPO4
log_k -2.380 #01AYA/MAD
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.38E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000HS- = CdHS+
log_k 7.380 #99WAN/TES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.38E+0 0E+0 0E+0 0E+0 0E+0
1.000Cd+2 + 1.000I- = CdI+
log_k 2.090
delta_h -8.739 #kJ/mol
# Enthalpy of formation: -141.439 #kJ/mol
-analytic 5.58995E-1 0E+0 4.56469E+2 0E+0 0E+0
1.000Cd+2 + 2.000I- = CdI2
log_k 3.520
delta_h -18.988 #kJ/mol
# Enthalpy of formation: -208.468 #kJ/mol
-analytic 1.9345E-1 0E+0 9.91811E+2 0E+0 0E+0
1.000Cd+2 + 3.000I- = CdI3-
log_k 4.640
delta_h -38.647 #kJ/mol
# Enthalpy of formation: -284.907 #kJ/mol
-analytic -2.13065E+0 0E+0 2.01867E+3 0E+0 0E+0
1.000Cd+2 + 4.000I- = CdI4-2
log_k 5.480
delta_h -75.609 #kJ/mol
# Enthalpy of formation: -378.649 #kJ/mol
-analytic -7.76611E+0 0E+0 3.94933E+3 0E+0 0E+0
2.000Cl- - 1.000H2O + 2.000H+ + 0.500O2 = Cl2
log_k -4.220
delta_h 30.997 #kJ/mol
# Enthalpy of formation: -23.4 #kJ/mol #82WAG/EVA
-analytic 1.21043E+0 0E+0 -1.61908E+3 0E+0 0E+0
1.000Cl- + 2.000O2 = ClO4-
log_k -16.130
delta_h 63.248 #kJ/mol
# Enthalpy of formation: -128.1 #kJ/mol #89COX/WAG
-analytic -5.04944E+0 0E+0 -3.30367E+3 0E+0 0E+0
1.000Cm+3 + 1.000Acetate- = Cm(Acetate)+2
log_k 3.010 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.01E+0 0E+0 0E+0 0E+0 0E+0
1.000Cm+3 + 2.000Acetate- = Cm(Acetate)2+
log_k 4.960 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.96E+0 0E+0 0E+0 0E+0 0E+0
1.000Cm+3 + 3.000Acetate- = Cm(Acetate)3
log_k 6.300 #69MOS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.3E+0 0E+0 0E+0 0E+0 0E+0
2.000CO3-2 + 1.000Cm+3 = Cm(CO3)2-
log_k 12.600 #06DUR/CER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.26E+1 0E+0 0E+0 0E+0 0E+0
3.000CO3-2 + 1.000Cm+3 = Cm(CO3)3-3
log_k 14.600 #06DUR/CER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.46E+1 0E+0 0E+0 0E+0 0E+0
1.000H2(PO4)- + 1.000Cm+3 = Cm(H2PO4)+2
log_k 2.400 #estimated by correlation with Ln(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.4E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000H2(PO4)- + 1.000Cm+3 = Cm(HPO4)+
log_k -1.700 #estimated by correlation with Ln(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.7E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 2.000H2(PO4)- + 1.000Cm+3 = Cm(HPO4)2-
log_k -5.210 #estimated by correlation with Ln(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.21E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Cm+3 + 1.000H2O = Cm(OH)+2
log_k -7.200 #03GUI/FAN
delta_h 79.365 #kJ/mol
# Enthalpy of formation: -821.465 #kJ/mol
-analytic 6.70413E+0 0E+0 -4.14552E+3 0E+0 0E+0
- 2.000H+ + 1.000Cm+3 + 2.000H2O = Cm(OH)2+
log_k -15.100 #03GUI/FAN
delta_h 144.956 #kJ/mol
# Enthalpy of formation: -1041.704 #kJ/mol
-analytic 1.02952E+1 0E+0 -7.57157E+3 0E+0 0E+0
- 3.000H+ + 1.000Cm+3 + 3.000H2O = Cm(OH)3
log_k -26.200 #03GUI/FAN
delta_h 231.675 #kJ/mol
# Enthalpy of formation: -1240.815 #kJ/mol
-analytic 1.43877E+1 0E+0 -1.21012E+4 0E+0 0E+0
- 4.000H+ + 1.000Cm+3 + 4.000H2O = Cm(OH)4-
log_k -40.700 #07NEC/ALT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.07E+1 0E+0 0E+0 0E+0 0E+0
1.000Ox-2 + 1.000Cm+3 = Cm(Ox)+
log_k 6.480 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.48E+0 0E+0 0E+0 0E+0 0E+0
2.000Ox-2 + 1.000Cm+3 = Cm(Ox)2-
log_k 10.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.04E+1 0E+0 0E+0 0E+0 0E+0
3.000Ox-2 + 1.000Cm+3 = Cm(Ox)3-3
log_k 12.840 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.284E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 2.000H2(PO4)- + 1.000Cm+3 = Cm(PO4)2-3
log_k -19.230 #estimated by corrlation with Ln(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.923E+1 0E+0 0E+0 0E+0 0E+0
1.000Cm+3 + 1.000Phthalat-2 = Cm(Phthalat)+
log_k 4.930 #11GRI/COL3 from 95PAN/KLE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.93E+0 0E+0 0E+0 0E+0 0E+0
2.000SO4-2 + 1.000Cm+3 = Cm(SO4)2-
log_k 4.570 #12SKE/PAN, same as Am, revised in the 2012 update.
delta_h 20.880 #kJ/mol
# Enthalpy of formation: -2412.8 #kJ/mol #estimated by analogy with Ln
-analytic 8.22801E+0 0E+0 -1.09064E+3 0E+0 0E+0
1.000CO3-2 + 1.000Cm+3 = CmCO3+
log_k 7.900 #06DUR/CER
delta_h 153.982 #kJ/mol
# Enthalpy of formation: -1136.248 #kJ/mol
-analytic 3.48764E+1 0E+0 -8.04303E+3 0E+0 0E+0
1.000Cl- + 1.000Cm+3 = CmCl+2
log_k 0.240 #03GUI/FAN, same as Am
delta_h 22.512 #kJ/mol
# Enthalpy of formation: -759.568 #kJ/mol
-analytic 4.18393E+0 0E+0 -1.17588E+3 0E+0 0E+0
2.000Cl- + 1.000Cm+3 = CmCl2+
log_k -0.740 #03GUI/FAN, same as Am
delta_h 41.165 #kJ/mol
# Enthalpy of formation: -907.995 #kJ/mol
-analytic 6.47179E+0 0E+0 -2.15019E+3 0E+0 0E+0
1.000F- + 1.000Cm+3 = CmF+2
log_k 3.400 #03GUI/FAN, same as Am
delta_h 25.613 #kJ/mol
# Enthalpy of formation: -924.737 #kJ/mol
-analytic 7.8872E+0 0E+0 -1.33786E+3 0E+0 0E+0
2.000F- + 1.000Cm+3 = CmF2+
log_k 5.800 #03GUI/FAN, same as Am
delta_h 20.620 #kJ/mol
# Enthalpy of formation: -1265.08 #kJ/mol
-analytic 9.41246E+0 0E+0 -1.07706E+3 0E+0 0E+0
3.000F- + 1.000Cm+3 = CmF3
log_k 11.180 #69AZI/LYL
delta_h -15.485 #kJ/mol
# Enthalpy of formation: -1636.535 #kJ/mol
-analytic 8.46715E+0 0E+0 8.08837E+2 0E+0 0E+0
1.000H+ + 1.000CO3-2 + 1.000Cm+3 = CmHCO3+2
log_k 13.430 #03GUI/FAN, same as Am
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.343E+1 0E+0 0E+0 0E+0 0E+0
1.000NO3- + 1.000Cm+3 = CmNO3+2
log_k 1.330 #95SIL/BID
delta_h 1.800 #kJ/mol #09SKE/PAN
# Enthalpy of formation: -819.926 #kJ/mol
-analytic 1.64535E+0 0E+0 -9.40204E+1 0E+0 0E+0
- 2.000H+ + 1.000H2(PO4)- + 1.000Cm+3 = CmPO4
log_k -7.660 #estimated by correlation with Ln(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.66E+0 0E+0 0E+0 0E+0 0E+0
1.000SO4-2 + 1.000Cm+3 = CmSO4+
log_k 3.450 #12SKE/PAN, same as Am, revised in the 2012 update.
delta_h 15.640 #kJ/mol
# Enthalpy of formation: -1508.7 #kJ/mol #estimated by analogy with Ln
-analytic 6.19001E+0 0E+0 -8.16933E+2 0E+0 0E+0
- 1.000H+ + 1.000H4(SiO4) + 1.000Cm+3 = CmSiO(OH)3+2
log_k -2.310 #Original data 07THA/SIN, 05PAN/KIM and 97STE/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.31E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 + 2.000HS- = Co(HS)2
log_k 8.770 #66KHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.77E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 - 1.000H+ + 1.000H2O = Co(OH)+
log_k -9.230 #98PLY/ZHA1
delta_h 45.962 #kJ/mol
# Enthalpy of formation: -297.468 #kJ/mol
-analytic -1.17782E+0 0E+0 -2.40076E+3 0E+0 0E+0
1.000Co+2 - 2.000H+ + 2.000H2O = Co(OH)2
log_k -18.600 #98PLY/ZHA1
delta_h 105.707 #kJ/mol
# Enthalpy of formation: -523.553 #kJ/mol
-analytic -8.09557E-2 0E+0 -5.52145E+3 0E+0 0E+0
1.000Co+2 - 3.000H+ + 3.000H2O = Co(OH)3-
log_k -31.700 #98PLY/ZHA1
delta_h 160.297 #kJ/mol
# Enthalpy of formation: -754.792 #kJ/mol
-analytic -3.61721E+0 0E+0 -8.37288E+3 0E+0 0E+0
1.000Co+2 - 4.000H+ + 4.000H2O = Co(OH)4-2
log_k -46.420 #98PLY/ZHA1
delta_h 214.483 #kJ/mol
# Enthalpy of formation: -986.436 #kJ/mol
-analytic -8.84425E+0 0E+0 -1.12032E+4 0E+0 0E+0
1.000Co+2 + 1.000H+ + 1.000Cn- + 1.000HSe- - 1.000H2O + 0.500O2 = Co(SeCn)+
log_k 57.520 #75SAT/SAH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.752E+1 0E+0 0E+0 0E+0 0E+0
1.000Co+2 + 1.000SeO4-2 = Co(SeO4)
log_k 2.700 #05OLI/NOL
delta_h -3.654 #kJ/mol
# Enthalpy of formation: -664.754 #kJ/mol
-analytic 2.05985E+0 0E+0 1.90861E+2 0E+0 0E+0
2.000Co+2 - 1.000H+ + 1.000H2O = Co2(OH)+3
log_k -9.830 #98PLY/ZHA1
delta_h 30.030 #kJ/mol
# Enthalpy of formation: -371 #kJ/mol #98PLY/ZHA1
-analytic -4.56898E+0 0E+0 -1.56857E+3 0E+0 0E+0
4.000Co+2 - 4.000H+ + 4.000H2O = Co4(OH)4+4
log_k -29.880 #98PLY/ZHA1
delta_h 149.720 #kJ/mol
# Enthalpy of formation: -1224 #kJ/mol #98PLY/ZHA1
-analytic -3.65022E+0 0E+0 -7.82041E+3 0E+0 0E+0
1.000Co+2 + 1.000CO3-2 = CoCO3
log_k 4.230 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.23E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 + 1.000Cl- = CoCl+
log_k 0.570 #81TUR/WHI
delta_h -2.180 #kJ/mol
# Enthalpy of formation: -226.859 #kJ/mol
-analytic 1.88081E-1 0E+0 1.13869E+2 0E+0 0E+0
1.000Co+2 + 2.000Cl- = CoCl2
log_k 0.020 #06BLA/IGN
delta_h 4.074 #kJ/mol #06BLA/IGN
# Enthalpy of formation: -387.686 #kJ/mol
-analytic 7.33733E-1 0E+0 -2.128E+2 0E+0 0E+0
1.000Co+2 + 3.000Cl- = CoCl3-
log_k -1.710 #06BLA/IGN
delta_h 6.688 #kJ/mol #06BLA/IGN
# Enthalpy of formation: -552.152 #kJ/mol
-analytic -5.38314E-1 0E+0 -3.49338E+2 0E+0 0E+0
1.000Co+2 + 4.000Cl- = CoCl4-2
log_k -2.090 #06BLA/IGN
delta_h 22.570 #kJ/mol #06BLA/IGN
# Enthalpy of formation: -703.35 #kJ/mol
-analytic 1.86409E+0 0E+0 -1.17891E+3 0E+0 0E+0
1.000Co+2 + 1.000F- = CoF+
log_k 1.500 #97MAR/SMI
delta_h -0.631 #kJ/mol
# Enthalpy of formation: -393.581 #kJ/mol
-analytic 1.38945E+0 0E+0 3.29594E+1 0E+0 0E+0
1.000Co+2 + 1.000H+ + 1.000CO3-2 = CoHCO3+
log_k 12.220 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.222E+1 0E+0 0E+0 0E+0 0E+0
1.000Co+2 - 1.000H+ + 1.000H2(PO4)- = CoHPO4
log_k -4.150 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.15E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 + 1.000HS- = CoHS+
log_k 5.670 #66KHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.67E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 + 1.000S2O3-2 = CoS2O3
log_k 2.050 #51DEN/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.05E+0 0E+0 0E+0 0E+0 0E+0
1.000Co+2 + 1.000SO4-2 = CoSO4
log_k 2.300 #97MAR/SMI
delta_h 2.092 #kJ/mol #74NAU/RYZ
# Enthalpy of formation: -964.848 #kJ/mol
-analytic 2.6665E+0 0E+0 -1.09273E+2 0E+0 0E+0
1.000H2(PO4)- + 1.000Cr+3 = Cr(H2PO4)+2
log_k 2.560 #66LAH/ADI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.56E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000H2(PO4)- + 1.000Cr+3 = Cr(HPO4)+
log_k 2.250 #76ALE/MAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.25E+0 0E+0 0E+0 0E+0 0E+0
1.000Cr+3 + 2.000CO3-2 + 1.000H2O - 1.000H+ = Cr(OH)(CO3)2-2
log_k 9.730 #07RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.73E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Cr+2 + 1.000H2O = Cr(OH)+
log_k -5.300 #83MIC/DEB, 04CHI
delta_h 30.327 #kJ/mol
# Enthalpy of formation: -413.123 #kJ/mol
-analytic 1.30545E-2 0E+0 -1.58409E+3 0E+0 0E+0
- 1.000H+ + 1.000Cr+3 + 1.000H2O = Cr(OH)+2
log_k -3.420 #04RAI/MOO
delta_h 37.165 #kJ/mol
# Enthalpy of formation: -489.164 #kJ/mol
-analytic 3.09102E+0 0E+0 -1.94126E+3 0E+0 0E+0
- 2.000H+ + 1.000Cr+3 + 2.000H2O = Cr(OH)2+
log_k -8.900 #11GRI/COL4
delta_h 93.201 #kJ/mol
# Enthalpy of formation: -718.958 #kJ/mol
-analytic 7.42809E+0 0E+0 -4.86822E+3 0E+0 0E+0
- 3.000H+ + 1.000Cr+3 + 3.000H2O = Cr(OH)3
log_k -14.340 #04RAI/MOO
delta_h 143.689 #kJ/mol
# Enthalpy of formation: -954.3 #kJ/mol
-analytic 1.08332E+1 0E+0 -7.50539E+3 0E+0 0E+0
- 3.000H+ + 1.000H2(PO4)- + 1.000Cr+3 + 3.000H2O = Cr(OH)3(H2PO4)-
log_k -11.560 #04RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.156E+1 0E+0 0E+0 0E+0 0E+0
2.000H2(PO4)- + 1.000Cr+3 + 3.000H2O - 3.000H+ = Cr(OH)3(H2PO4)2-2
log_k -10.860 #04RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.086E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 1.000H2(PO4)- + 1.000Cr+3 + 3.000H2O = Cr(OH)3(HPO4)-2
log_k -19.580 #04RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.958E+1 0E+0 0E+0 0E+0 0E+0
- 5.000H+ + 1.000H2(PO4)- + 1.000Cr+3 + 3.000H2O = Cr(OH)3(PO4)-3
log_k -30.240 #98ZIE/JON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.024E+1 0E+0 0E+0 0E+0 0E+0
1.000Cr+3 + 1.000CO3-2 + 4.000H2O - 4.000H+ = Cr(OH)4(CO3)-3
log_k -25.690 #07RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.569E+1 0E+0 0E+0 0E+0 0E+0
- 5.000H+ + 2.000H2(PO4)- + 1.000Cr+3 + 4.000H2O = Cr(OH)4(HPO4)(H2PO4)-4
log_k -28.760 #98ZIE/JON
delta_h 14.000 #kJ/mol #98ZIE/JON
# Enthalpy of formation: -3975.04 #kJ/mol
-analytic -2.63073E+1 0E+0 -7.3127E+2 0E+0 0E+0
- 4.000H+ + 1.000Cr+3 + 4.000H2O = Cr(OH)4-
log_k -25.860 #04RAI/MOO
delta_h 193.604 #kJ/mol
# Enthalpy of formation: -1190.214 #kJ/mol
-analytic 8.05792E+0 0E+0 -1.01126E+4 0E+0 0E+0
1.000Cr+3 + 1.000CO3-2 + 1.000H2O - 1.000H+ = Cr(OH)CO3
log_k 4.000 #07RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 2.000Cl- + 1.000Cr+3 + 1.000H2O = Cr(OH)Cl2
log_k -5.730
delta_h 32.720 #kJ/mol
# Enthalpy of formation: -827.77 #kJ/mol #76DEL/HEP
-analytic 2.28952E-3 0E+0 -1.70908E+3 0E+0 0E+0
- 2.000H+ + 2.000Cr+3 + 2.000H2O = Cr2(OH)2+4
log_k -4.000 #11GRI/COL4
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 2.000CrO4-2 - 1.000H2O = Cr2O7-2
log_k 14.750 #87PAL/WES, 04CHI
delta_h -3.752 #kJ/mol
# Enthalpy of formation: -1475.923 #kJ/mol
-analytic 1.40927E+1 0E+0 1.9598E+2 0E+0 0E+0
- 4.000H+ + 3.000Cr+3 + 4.000H2O = Cr3(OH)4+5
log_k -7.600 #11GRI/COL4
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Br- + 1.000Cr+3 = CrBr+2
log_k -0.620
delta_h 22.600 #kJ/mol
# Enthalpy of formation: -339.322 #kJ/mol #76DEL/HEP
-analytic 3.33934E+0 0E+0 -1.18048E+3 0E+0 0E+0
1.000Cl- + 1.000Cr+2 = CrCl+
log_k 5.600 #91ALL/BRO
delta_h -20.200 #kJ/mol #91ALL/BRO
# Enthalpy of formation: -344.9 #kJ/mol
-analytic 2.06112E+0 0E+0 1.05512E+3 0E+0 0E+0
1.000Cl- + 1.000Cr+3 = CrCl+2
log_k 0.620 #64SIL/MAR
delta_h 20.920 #kJ/mol #64SIL/MAR
# Enthalpy of formation: -386.66 #kJ/mol
-analytic 4.28502E+0 0E+0 -1.09273E+3 0E+0 0E+0
2.000Cl- + 1.000Cr+3 = CrCl2+
log_k -0.710 #64SIL/MAR
delta_h 20.920 #kJ/mol #64SIL/MAR
# Enthalpy of formation: -553.74 #kJ/mol
-analytic 2.95502E+0 0E+0 -1.09273E+3 0E+0 0E+0
1.000F- + 1.000Cr+3 = CrF+2
log_k 5.210 #81TUR/WHI
delta_h -2.510 #kJ/mol #53HEP/JOL
# Enthalpy of formation: -578.36 #kJ/mol
-analytic 4.77027E+0 0E+0 1.31106E+2 0E+0 0E+0
2.000F- + 1.000Cr+3 = CrF2+
log_k 9.310 #81TUR/WHI
delta_h -0.418 #kJ/mol #53HEP/JOL
# Enthalpy of formation: -911.618 #kJ/mol
-analytic 9.23677E+0 0E+0 2.18336E+1 0E+0 0E+0
3.000F- + 1.000Cr+3 = CrF3
log_k 11.910 #81TUR/WHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.191E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Cl- + 1.000CrO4-2 - 1.000H2O = CrO3Cl-
log_k 8.080
delta_h 5.500 #kJ/mol
# Enthalpy of formation: -754.8 #kJ/mol #76DEL/HEP
-analytic 9.04356E+0 0E+0 -2.87285E+2 0E+0 0E+0
1.000SO4-2 + 1.000Cr+3 = CrSO4+
log_k 4.610 #81TUR/WHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.61E+0 0E+0 0E+0 0E+0 0E+0
1.000Cs+ + 1.000Cit-3 = Cs(Cit)-2
log_k 0.980 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.8E-1 0E+0 0E+0 0E+0 0E+0
1.000Cs+ + 1.000Edta-4 = Cs(Edta)-3
log_k 1.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Cs+ + 1.000Nta-3 = Cs(Nta)-2
log_k 0.850 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.5E-1 0E+0 0E+0 0E+0 0E+0
1.000Cs+ - 1.000H+ + 1.000H2O = Cs(OH)
log_k -15.640
delta_h 65.736 #kJ/mol
# Enthalpy of formation: -478.094 #kJ/mol #97SHO/SAS2
-analytic -4.12356E+0 0E+0 -3.43363E+3 0E+0 0E+0
1.000Cs+ + 1.000Br- = CsBr
log_k 0.090
delta_h 5.922 #kJ/mol
# Enthalpy of formation: -373.488 #kJ/mol
-analytic 1.12749E+0 0E+0 -3.09327E+2 0E+0 0E+0
1.000Cs+ + 1.000Cl- = CsCl
log_k -0.090
delta_h 7.523 #kJ/mol
# Enthalpy of formation: -417.557 #kJ/mol
-analytic 1.22797E+0 0E+0 -3.92953E+2 0E+0 0E+0
1.000Cs+ + 1.000F- = CsF
log_k -0.380
delta_h 2.446 #kJ/mol
# Enthalpy of formation: -590.904 #kJ/mol
-analytic 4.85202E-2 0E+0 -1.27763E+2 0E+0 0E+0
1.000Cs+ + 1.000I- = CsI
log_k 1.050
delta_h -0.055 #kJ/mol
# Enthalpy of formation: -314.835 #kJ/mol
-analytic 1.04036E+0 0E+0 2.87285E+0 0E+0 0E+0
1.000Cu+2 + 1.000B(OH)4- = Cu(B(OH)4)+
log_k 7.130 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.13E+0 0E+0 0E+0 0E+0 0E+0
1.000Cu+2 + 2.000B(OH)4- = Cu(B(OH)4)2
log_k 12.450 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.245E+1 0E+0 0E+0 0E+0 0E+0
1.000Cu+2 + 3.000B(OH)4- = Cu(B(OH)4)3-
log_k 15.170 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.517E+1 0E+0 0E+0 0E+0 0E+0
1.000Cu+2 + 1.000SeO4-2 = Cu(SeO4)
log_k 2.200 #Upper value suggested in 05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000Acetate- = Eu(Acetate)+2
log_k 2.900 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 2.000Acetate- = Eu(Acetate)2+
log_k 4.800 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 3.000Acetate- = Eu(Acetate)3
log_k 5.600 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000CO3-2 = Eu(CO3)+
log_k 7.900 #95SPA/BRU
delta_h 167.549 #kJ/mol
# Enthalpy of formation: -1113.013 #kJ/mol
-analytic 3.72533E+1 0E+0 -8.75168E+3 0E+0 0E+0
1.000Eu+3 + 2.000CO3-2 = Eu(CO3)2-
log_k 12.900 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.29E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 3.000CO3-2 = Eu(CO3)3-3
log_k 14.800 #05VER/VIT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.48E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000H2(PO4)- = Eu(H2PO4)+2
log_k 2.400 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000H+ + 1.000CO3-2 = Eu(HCO3)+2
log_k 12.430 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.243E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 - 1.000H+ + 1.000H2(PO4)- = Eu(HPO4)+
log_k -1.510 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.51E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 - 2.000H+ + 2.000H2(PO4)- = Eu(HPO4)2-
log_k -4.820 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.82E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000Malonate-2 = Eu(Malonate)+
log_k 5.430 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.43E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 2.000Malonate-2 = Eu(Malonate)2-
log_k 7.780 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.78E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000NO3- = Eu(NO3)+2
log_k 1.210 #09RAO/TIA1 (Calculated usig SIT)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.21E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 - 1.000H+ + 1.000H2O = Eu(OH)+2
log_k -7.800 #95SPA/BRU
delta_h 79.824 #kJ/mol
# Enthalpy of formation: -811.337 #kJ/mol
-analytic 6.18454E+0 0E+0 -4.16949E+3 0E+0 0E+0
1.000Eu+3 - 2.000H+ + 2.000H2O = Eu(OH)2+
log_k -15.700 #07NEC/ALT2
delta_h 144.521 #kJ/mol
# Enthalpy of formation: -1032.471 #kJ/mol
-analytic 9.61896E+0 0E+0 -7.54885E+3 0E+0 0E+0
1.000Eu+3 - 3.000H+ + 3.000H2O = Eu(OH)3
log_k -26.200 #07NEC/ALT2
delta_h 226.860 #kJ/mol
# Enthalpy of formation: -1235.961 #kJ/mol
-analytic 1.35441E+1 0E+0 -1.18497E+4 0E+0 0E+0
1.000HIsa- + 1.000Eu+3 + 3.000H2O - 3.000H+ = Eu(OH)3(HIsa)-
log_k -20.900 #05TIT/WIE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.09E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 - 4.000H+ + 4.000H2O = Eu(OH)4-
log_k -40.700 #07NEC/ALT2
delta_h 296.791 #kJ/mol
# Enthalpy of formation: -1451.86 #kJ/mol
-analytic 1.12955E+1 0E+0 -1.55025E+4 0E+0 0E+0
1.000Eu+3 + 1.000Ox-2 = Eu(Ox)+
log_k 6.550 #Richard et al. 2011. Extrapolation to I=0 from various data, specially using the constant reported in 01SCH/BYR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.55E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 2.000Ox-2 = Eu(Ox)2-
log_k 10.930 # Extrapolation to I=0 from various data, specially using the constant reported in 01SCH/BYR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.093E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 3.000Ox-2 = Eu(Ox)3-3
log_k 12.480 #Richard et al. 2011. Extrapolation to I=0 from various data, specially using the constant reported in 01SCH/BYR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.248E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 - 2.000H+ + 1.000H2(PO4)- = Eu(PO4)
log_k -7.360 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.36E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 - 4.000H+ + 2.000H2(PO4)- = Eu(PO4)2-3
log_k -18.460 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.846E+1 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000Phthalat-2 = Eu(Phthalat)+
log_k 4.960 #11GRI/COL3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.96E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 2.000Phthalat-2 = Eu(Phthalat)2-
log_k 7.340 #11GRI/COL3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.34E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000SO4-2 = Eu(SO4)+
log_k 3.500 #95SPA/BRU
delta_h 15.577 #kJ/mol
# Enthalpy of formation: -1499.094 #kJ/mol
-analytic 6.22897E+0 0E+0 -8.13642E+2 0E+0 0E+0
1.000Eu+3 + 2.000SO4-2 = Eu(SO4)2-
log_k 5.200 #95SPA/BRU
delta_h 27.787 #kJ/mol
# Enthalpy of formation: -2396.224 #kJ/mol
-analytic 1.00681E+1 0E+0 -1.45141E+3 0E+0 0E+0
1.000Eu+3 + 1.000Succinat-2 = Eu(Succinat)+
log_k 4.360 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.36E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 2.000Succinat-2 = Eu(Succinat)2-
log_k 6.500 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Eu+3 + 1.000Br- = EuBr+2
log_k 0.250 #95SPA/BRU
delta_h 16.223 #kJ/mol
# Enthalpy of formation: -710.518 #kJ/mol
-analytic 3.09214E+0 0E+0 -8.47385E+2 0E+0 0E+0
1.000Eu+3 + 2.000Br- = EuBr2+
log_k -0.090 #95SPA/BRU
delta_h 26.498 #kJ/mol
# Enthalpy of formation: -821.653 #kJ/mol
-analytic 4.55224E+0 0E+0 -1.38408E+3 0E+0 0E+0
1.000Eu+3 + 1.000Cl- = EuCl+2
log_k 0.760 #Original data 01LUO/BYR and 04LUO/BYR
delta_h 21.929 #kJ/mol
# Enthalpy of formation: -750.482 #kJ/mol
-analytic 4.60179E+0 0E+0 -1.14543E+3 0E+0 0E+0
1.000Eu+3 + 2.000Cl- = EuCl2+
log_k -0.050 #95SPA/BRU
delta_h 35.334 #kJ/mol
# Enthalpy of formation: -904.158 #kJ/mol
-analytic 6.14024E+0 0E+0 -1.84562E+3 0E+0 0E+0
1.000Eu+3 + 1.000F- = EuF+2
log_k 4.330 #07LUO/BYR
delta_h 24.956 #kJ/mol
# Enthalpy of formation: -915.725 #kJ/mol
-analytic 8.7021E+0 0E+0 -1.30354E+3 0E+0 0E+0
1.000Eu+3 + 2.000F- = EuF2+
log_k 6.550 #Original data from 99SCH/BYR and 04LUO/BYR
delta_h 21.483 #kJ/mol
# Enthalpy of formation: -1254.548 #kJ/mol
-analytic 1.03137E+1 0E+0 -1.12213E+3 0E+0 0E+0
1.000Eu+3 + 3.000F- = EuF3
log_k 10.600 #95SPA/BRU
delta_h -8.343 #kJ/mol
# Enthalpy of formation: -1619.724 #kJ/mol
-analytic 9.13837E+0 0E+0 4.35785E+2 0E+0 0E+0
1.000Eu+3 - 1.000H+ + 1.000H4(SiO4) = EuSiO(OH)3+2
log_k -2.620 #Original data 07THA/SIN and 96JEN/CHO1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.62E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000B(OH)4- = Fe(B(OH)4)+2
log_k 8.580 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.58E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000B(OH)4- = Fe(B(OH)4)2+
log_k 15.540 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.554E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000CO3-2 = Fe(CO3)
log_k 5.690 #99CHI3
delta_h -5.764 #kJ/mol
# Enthalpy of formation: -770.994 #kJ/mol
-analytic 4.68019E+0 0E+0 3.01074E+2 0E+0 0E+0
1.000Fe+2 + 2.000CO3-2 = Fe(CO3)2-2
log_k 7.450 #98KIN in 99CHI3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.45E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 3.000CO3-2 = Fe(CO3)3-3
log_k 24.240 #05GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.424E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000Cit-3 = Fe(Cit)
log_k 12.650 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.265E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000Cit-3 + 1.000H2O = Fe(Cit)(OH)-
log_k 10.330 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.033E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000Cit-3 = Fe(Cit)-
log_k 6.100 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 2.000H+ + 2.000Cit-3 + 2.000H2O = Fe(Cit)2(OH)2-5
log_k 3.440 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.44E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000Cit-3 = Fe(Cit)2-3
log_k 18.150 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.815E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 6.000Cn- = Fe(Cn)6-3
log_k 43.600 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.36E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 6.000Cn- = Fe(Cn)6-4
log_k 35.400 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.54E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000Edta-4 = Fe(Edta)-
log_k 27.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.77E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000Edta-4 = Fe(Edta)-2
log_k 16.020 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.602E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 2.000H+ + 1.000Cit-3 = Fe(H2Cit)+
log_k 24.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.47E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000H+ + 1.000Cit-3 = Fe(H2Cit)+2
log_k 30.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.04E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000H2(PO4)- = Fe(H2PO4)+
log_k 2.690 #USGS original
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.69E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H2(PO4)- = Fe(H2PO4)+2
log_k 5.420 #USGS original
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.42E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000H4(SiO4) = Fe(H3SiO4)+2
log_k 0.360 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.6E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000H+ + 1.000Cit-3 = Fe(HCit)
log_k 10.020 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.002E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H+ + 2.000Cit-3 = Fe(HCit)(Cit)-2
log_k 19.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.93E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H+ + 1.000Cit-3 = Fe(HCit)+
log_k 13.560 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.356E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000H+ + 2.000Cit-3 = Fe(HCit)2-
log_k 24.920 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.492E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H+ + 1.000Edta-4 = Fe(HEdta)
log_k 29.200 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.92E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000H+ + 1.000Edta-4 = Fe(HEdta)-
log_k 18.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.83E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000H+ + 1.000Nta-3 = Fe(HNta)
log_k 12.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.23E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H+ + 1.000Ox-2 = Fe(HOx)+2
log_k 9.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 1.000H+ + 1.000H2(PO4)- = Fe(HPO4)
log_k -3.610 #USGS original
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.61E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000H2(PO4)- = Fe(HPO4)+
log_k 1.630 #96BOU4
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.63E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000HS- = Fe(HS)+
log_k 4.340 #04CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.34E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 2.000HS- = Fe(HS)2
log_k 6.450 #04CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.45E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000H+ + 1.000SO4-2 = Fe(HSO4)+
log_k 3.070 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de la base 0391 MINEQL- PSY)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.07E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H+ + 1.000SeO3-2 = Fe(HSeO3)+2
log_k 12.350 #01SEB/POT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.235E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000NH3 = Fe(NH3)+2
log_k 1.300 #82SCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 2.000NH3 = Fe(NH3)2+2
log_k 2.100 #82SCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 4.000NH3 = Fe(NH3)4+2
log_k 3.600 #82SCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000NO3- = Fe(NO3)+2
log_k 0.950 #HATCHES 8.0 1996
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.5E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000Nta-3 = Fe(Nta)
log_k 18.600 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.86E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000Nta-3 = Fe(Nta)-
log_k 10.600 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.06E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000Nta-3 = Fe(Nta)2-3
log_k 27.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.7E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 2.000Nta-3 = Fe(Nta)2-4
log_k 13.500 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.35E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 1.000H+ + 1.000Cit-3 + 1.000H2O = Fe(OH)(Cit)-2
log_k 1.500 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000Edta-4 + 1.000H2O = Fe(OH)(Edta)-2
log_k 20.840 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.084E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 1.000H+ + 1.000Edta-4 + 1.000H2O = Fe(OH)(Edta)-3
log_k 6.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000Nta-3 + 1.000H2O = Fe(OH)(Nta)-
log_k 14.600 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.46E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 1.000H+ + 1.000Nta-3 + 1.000H2O = Fe(OH)(Nta)-2
log_k -0.120 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.2E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 1.000H+ + 1.000H2O = Fe(OH)+
log_k -9.500 #76BAE/MES in 99CHI3
delta_h 55.304 #kJ/mol
# Enthalpy of formation: -320.526 #kJ/mol
-analytic 1.88831E-1 0E+0 -2.88872E+3 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000H2O = Fe(OH)+2
log_k -2.190 #76BAE/MES in 98CHI
delta_h 43.514 #kJ/mol
# Enthalpy of formation: -291.316 #kJ/mol
-analytic 5.43331E+0 0E+0 -2.27289E+3 0E+0 0E+0
1.000Fe+2 - 2.000H+ + 2.000H2O = Fe(OH)2
log_k -20.600 #76BAE/MES in 99CHI3
delta_h 119.662 #kJ/mol
# Enthalpy of formation: -541.998 #kJ/mol
-analytic 3.63852E-1 0E+0 -6.25037E+3 0E+0 0E+0
1.000Fe+3 - 2.000H+ + 1.000Cit-3 + 2.000H2O = Fe(OH)2(Cit)-2
log_k 2.900 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 2.000H+ + 1.000Edta-4 + 2.000H2O = Fe(OH)2(Edta)-3
log_k 10.060 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.006E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 2.000H+ + 1.000Edta-4 + 2.000H2O = Fe(OH)2(Edta)-4
log_k -4.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 2.000H+ + 1.000Nta-3 + 2.000H2O = Fe(OH)2(Nta)-2
log_k 6.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 2.000H+ + 2.000H2O = Fe(OH)2+
log_k -5.670 #76BAE/MES in 98CHI
delta_h 71.546 #kJ/mol
# Enthalpy of formation: -549.114 #kJ/mol
-analytic 6.8643E+0 0E+0 -3.7371E+3 0E+0 0E+0
1.000Fe+3 - 3.000H+ + 3.000H2O = Fe(OH)3
log_k -12.560 #91PEA/BER in 98CHI
delta_h 103.764 #kJ/mol
# Enthalpy of formation: -802.726 #kJ/mol
-analytic 5.61865E+0 0E+0 -5.41996E+3 0E+0 0E+0
1.000Fe+3 - 3.000H+ + 1.000Edta-4 + 3.000H2O = Fe(OH)3(Edta)-4
log_k 8.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 3.000H+ + 3.000H2O = Fe(OH)3-
log_k -31.900 #76BAE/MES in 99CHI3
delta_h 138.072 #kJ/mol
# Enthalpy of formation: -809.418 #kJ/mol
-analytic -7.71086E+0 0E+0 -7.21199E+3 0E+0 0E+0
1.000Fe+3 - 4.000H+ + 4.000H2O = Fe(OH)4-
log_k -21.600 #76BAE/MES in 98CHI
delta_h 133.471 #kJ/mol
# Enthalpy of formation: -1058.849 #kJ/mol
-analytic 1.78308E+0 0E+0 -6.97167E+3 0E+0 0E+0
1.000Fe+2 - 4.000H+ + 4.000H2O = Fe(OH)4-2
log_k -46.000 #76BAE/MES in 99CHI3
delta_h 158.797 #kJ/mol
# Enthalpy of formation: -1074.523 #kJ/mol
-analytic -1.818E+1 0E+0 -8.29453E+3 0E+0 0E+0
1.000Fe+2 + 1.000Ox-2 = Fe(Ox)
log_k 4.100 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000Ox-2 = Fe(Ox)+
log_k 9.530 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.53E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000Ox-2 = Fe(Ox)2-
log_k 15.750 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.575E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 2.000Ox-2 = Fe(Ox)2-2
log_k 6.200 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 3.000Ox-2 = Fe(Ox)3-3
log_k 20.200 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.02E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 3.000Ox-2 = Fe(Ox)3-4
log_k 5.220 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.22E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000SO4-2 = Fe(SO4)
log_k 2.200 #91PEA/BER in 98CHI
delta_h 13.514 #kJ/mol
# Enthalpy of formation: -985.826 #kJ/mol
-analytic 4.56755E+0 0E+0 -7.05884E+2 0E+0 0E+0
1.000Fe+3 + 1.000SO4-2 = Fe(SO4)+
log_k 4.100 #95BOU in 98CHI
delta_h 16.359 #kJ/mol
# Enthalpy of formation: -941.981 #kJ/mol
-analytic 6.96597E+0 0E+0 -8.54489E+2 0E+0 0E+0
1.000Fe+3 + 2.000SO4-2 = Fe(SO4)2-
log_k 5.400 #91PEA/BER in 98CHI
delta_h 19.248 #kJ/mol
# Enthalpy of formation: -1848.432 #kJ/mol
-analytic 8.7721E+0 0E+0 -1.00539E+3 0E+0 0E+0
1.000Fe+3 + 1.000SeO3-2 = Fe(SeO3)+
log_k 11.150 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.115E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000SeO4-2 = Fe(SeO4)
log_k 2.710 #01SEB/POT2
delta_h -12.601 #kJ/mol
# Enthalpy of formation: -706.101 #kJ/mol
-analytic 5.02403E-1 0E+0 6.58195E+2 0E+0 0E+0
2.000Fe+3 - 2.000H+ + 2.000Cit-3 + 2.000H2O = Fe2(Cit)2(OH)2-2
log_k 45.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.5E+1 0E+0 0E+0 0E+0 0E+0
2.000Fe+3 - 2.000H+ + 2.000Edta-4 + 2.000H2O = Fe2(OH)2(Edta)2-4
log_k 68.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.8E+1 0E+0 0E+0 0E+0 0E+0
2.000Fe+3 - 2.000H+ + 2.000H2O = Fe2(OH)2+4
log_k -2.950 #91PEA/BER in 98CHI
delta_h 56.484 #kJ/mol
# Enthalpy of formation: -613.175 #kJ/mol
-analytic 6.94556E+0 0E+0 -2.95036E+3 0E+0 0E+0
3.000Fe+3 - 4.000H+ + 4.000H2O = Fe3(OH)4+5
log_k -6.300 #76BAE/MES in 98CHI
delta_h 59.831 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.18193E+0 0E+0 -3.12519E+3 0E+0 0E+0
1.000Fe+3 + 1.000Br- = FeBr+2
log_k 0.700 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000Br- = FeBr2+
log_k 0.900 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 - 1.000H+ + 1.000CO3-2 + 1.000H2O = FeCO3OH
log_k 10.760 #05GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.076E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 - 1.000H+ + 1.000CO3-2 + 1.000H2O = FeCO3OH-
log_k -4.030 #98KIN in 99CHI3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.03E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000Cl- = FeCl+
log_k 0.140 #91PEA/BER in 98CHI
delta_h -0.078 #kJ/mol
# Enthalpy of formation: -257.158 #kJ/mol
-analytic 1.26335E-1 0E+0 4.07422E+0 0E+0 0E+0
1.000Fe+3 + 1.000Cl- = FeCl+2
log_k 1.400 #95BOU in 98CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 2.000Cl- = FeCl2
log_k -0.520 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.2E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 2.000Cl- = FeCl2+
log_k 2.100 #95BOU in 98CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 3.000Cl- = FeCl3
log_k 1.130 #90NOR/PLU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.13E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 3.000Cl- = FeCl3-
log_k 1.020 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.02E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 4.000Cl- = FeCl4-
log_k -0.790 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.9E-1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000CrO4-2 = FeCrO4+
log_k 7.800 #96BAR/PAL
delta_h 19.100 #kJ/mol #96BAR/PAL
# Enthalpy of formation: -908.9 #kJ/mol
-analytic 1.11462E+1 0E+0 -9.97661E+2 0E+0 0E+0
1.000Fe+2 + 1.000F- = FeF+
log_k 1.000 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000F- = FeF+2
log_k 6.130 #92PEA/BER in 98CHI
delta_h 11.297 #kJ/mol
# Enthalpy of formation: -373.053 #kJ/mol
-analytic 8.10915E+0 0E+0 -5.90083E+2 0E+0 0E+0
1.000Fe+3 + 2.000F- = FeF2+
log_k 10.800 #92PEA/BER in 98CHI
delta_h 19.665 #kJ/mol
# Enthalpy of formation: -700.035 #kJ/mol
-analytic 1.42452E+1 0E+0 -1.02717E+3 0E+0 0E+0
1.000Fe+3 + 3.000F- = FeF3
log_k 14.000 #92PEA/BER in 98CHI
delta_h 22.595 #kJ/mol
# Enthalpy of formation: -1032.455 #kJ/mol
-analytic 1.79585E+1 0E+0 -1.18022E+3 0E+0 0E+0
1.000Fe+3 + 2.000H+ + 1.000Pyrophos-4 = FeH2Pyrophos+
log_k 26.000 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.6E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+2 + 1.000H+ + 1.000CO3-2 = FeHCO3+
log_k 11.770 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.177E+1 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000H+ + 1.000SO4-2 = FeHSO4+2
log_k 4.470 #90NOR/PLU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.47E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000I- = FeI+2
log_k 2.100 #96BOU2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000S2O3-2 = FeS2O3+
log_k 3.900 #82SCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Fe+3 + 1.000Scn- = FeScn+2
log_k 3.100 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.1E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Adipate-2 = H(Adipate)-
log_k 5.450 #04MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.45E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000H3(AsO3) = H(AsO3)-2
log_k -23.620 #79IVA/VOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.362E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000AsO4-3 = H(AsO4)-2
log_k 11.600
delta_h -18.200 #kJ/mol
# Enthalpy of formation: -906.34 #kJ/mol #09RAN/FUG
-analytic 8.4115E+0 0E+0 9.50651E+2 0E+0 0E+0
1.000H+ + 1.000Cit-3 = H(Cit)-2
log_k 6.360 #05HUM/AND
delta_h 3.300 #kJ/mol
# Enthalpy of formation: -1516.62 #kJ/mol
-analytic 6.93813E+0 0E+0 -1.72371E+2 0E+0 0E+0
1.000H+ + 1.000Edta-4 = H(Edta)-3
log_k 11.240 #05HUM/AND
delta_h -19.800 #kJ/mol
# Enthalpy of formation: -1724.6 #kJ/mol
-analytic 7.77119E+0 0E+0 1.03422E+3 0E+0 0E+0
1.000H+ + 1.000Malonate-2 = H(Malonate)-
log_k 5.710 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.71E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Nta-3 = H(Nta)-2
log_k 10.280 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.028E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Ox-2 = H(Ox)-
log_k 4.250 #05HUM/AND
delta_h 7.300 #kJ/mol
# Enthalpy of formation: -823.36 #kJ/mol
-analytic 5.5289E+0 0E+0 -3.81305E+2 0E+0 0E+0
1.000H+ + 1.000Pyrophos-4 = H(Pyrophos)-3
log_k 9.400 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.4E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000S2O3-2 = H(S2O3)-
log_k 1.720 #04CHI
delta_h 8.253 #kJ/mol
# Enthalpy of formation: -644.033 #kJ/mol
-analytic 3.16586E+0 0E+0 -4.31084E+2 0E+0 0E+0
1.000H+ + 1.000SO3-2 = H(SO3)-
log_k 7.170 #85GOL/PAR
delta_h 3.668 #kJ/mol
# Enthalpy of formation: -627.392 #kJ/mol
-analytic 7.81261E+0 0E+0 -1.91593E+2 0E+0 0E+0
1.000H+ + 1.000SO4-2 = H(SO4)-
log_k 1.980
delta_h 22.440 #kJ/mol
# Enthalpy of formation: -886.9 #kJ/mol
-analytic 5.91131E+0 0E+0 -1.17212E+3 0E+0 0E+0
1.000H+ + 1.000SeO3-2 = H(SeO3)-
log_k 8.360 #05OLI/NOL
delta_h -5.170 #kJ/mol
# Enthalpy of formation: -512.33 #kJ/mol #05OLI/NOL
-analytic 7.45426E+0 0E+0 2.70048E+2 0E+0 0E+0
1.000H+ + 1.000SeO4-2 = H(SeO4)-
log_k 1.750 #05OLI/NOL
delta_h 20.800 #kJ/mol #05OLI/NOL
# Enthalpy of formation: -582.7 #kJ/mol
-analytic 5.394E+0 0E+0 -1.08646E+3 0E+0 0E+0
1.000H+ + 1.000Suberate-2 = H(Suberate)-
log_k 5.400 #31GAN/ING
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.4E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Succinat-2 = H(Succinat)-
log_k 5.710 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.71E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Adipate-2 = H2(Adipate)
log_k 9.890 #04MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.89E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000H3(AsO3) = H2(AsO3)-
log_k -9.220
delta_h 27.410 #kJ/mol
# Enthalpy of formation: -714.79 #kJ/mol #10RAN/FUG
-analytic -4.41798E+0 0E+0 -1.43172E+3 0E+0 0E+0
2.000H+ + 1.000AsO4-3 = H2(AsO4)-
log_k 18.370
delta_h -21.420 #kJ/mol
# Enthalpy of formation: -909.56 #kJ/mol #09RAN/FUG
-analytic 1.46174E+1 0E+0 1.11884E+3 0E+0 0E+0
2.000H+ + 1.000Cit-3 = H2(Cit)-
log_k 11.140 #05HUM/AND
delta_h 0.900 #kJ/mol
# Enthalpy of formation: -1519.02 #kJ/mol
-analytic 1.12977E+1 0E+0 -4.70102E+1 0E+0 0E+0
2.000H+ + 1.000Edta-4 = H2(Edta)-2
log_k 18.040 #05HUM/AND
delta_h -35.000 #kJ/mol
# Enthalpy of formation: -1739.8 #kJ/mol
-analytic 1.19083E+1 0E+0 1.82817E+3 0E+0 0E+0
2.000H+ + 1.000Malonate-2 = H2(Malonate)
log_k 8.670 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.67E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Nta-3 = H2(Nta)-
log_k 13.200 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.32E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Ox-2 = H2(Ox)
log_k 5.650 #05HUM/AND
delta_h 10.600 #kJ/mol #05HUM/AND
# Enthalpy of formation: -820.06 #kJ/mol
-analytic 7.50704E+0 0E+0 -5.53676E+2 0E+0 0E+0
2.000H+ + 1.000Pyrophos-4 = H2(Pyrophos)-2
log_k 16.050 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.605E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000S2O3-2 = H2(S2O3)
log_k 2.320 #04CHI
delta_h 22.917 #kJ/mol
# Enthalpy of formation: -629.369 #kJ/mol
-analytic 6.33488E+0 0E+0 -1.19704E+3 0E+0 0E+0
2.000H+ + 1.000SO3-2 = H2(SO3)
log_k 9.030 #85GOL/PAR
delta_h 21.453 #kJ/mol
# Enthalpy of formation: -609.607 #kJ/mol
-analytic 1.27884E+1 0E+0 -1.12057E+3 0E+0 0E+0
2.000H+ + 1.000SeO3-2 = H2(SeO3)
log_k 11.000 #05OLI/NOL
delta_h 1.840 #kJ/mol
# Enthalpy of formation: -505.32 #kJ/mol #05OLI/NOL
-analytic 1.13224E+1 0E+0 -9.61098E+1 0E+0 0E+0
- 2.000H+ + 1.000H4(SiO4) = H2(SiO4)-2
log_k -23.140 #92GRE/FUG
delta_h 75.000 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1386.194 #kJ/mol
-analytic -1.00006E+1 0E+0 -3.91752E+3 0E+0 0E+0
2.000H+ + 1.000Suberate-2 = H2(Suberate)
log_k 9.920 #31GAN/ING
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.92E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Succinat-2 = H2(Succinat)
log_k 9.950 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.95E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000CrO4-2 = H2CrO4
log_k 6.320 #76BAE/MES, 04CHI
delta_h 39.596 #kJ/mol
# Enthalpy of formation: -839.404 #kJ/mol
-analytic 1.32569E+1 0E+0 -2.06824E+3 0E+0 0E+0
2.000H+ + 1.000H2(PO4)- + 1.000CrO4-2 - 1.000H2O = H2CrPO7-
log_k 9.020
delta_h -51.490 #kJ/mol
# Enthalpy of formation: -1947.26 #kJ/mol #76DEL/HAL
-analytic -6.47544E-4 0E+0 2.68951E+3 0E+0 0E+0
1.000H+ + 1.000HGlu- = H2Glu
log_k 3.900 #98ZUB/CAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.9E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000HIsa- = H2Isa
log_k 4.000 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000MoO4-2 = H2MoO4
log_k 8.150 #68SAS/SIL, 64AVE/ANA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.15E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Phthalat-2 = H2Phthalat
log_k 8.320 #10RIC/SAB1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.32E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000HS- = H2S
log_k 6.990
delta_h -22.300 #kJ/mol
# Enthalpy of formation: -38.6 #kJ/mol #89COX/WAG
-analytic 3.08321E+0 0E+0 1.16481E+3 0E+0 0E+0
2.000H+ + 1.000S2O4-2 = H2S2O4
log_k 2.800 #04CHI
delta_h 20.207 #kJ/mol
# Enthalpy of formation: -733.293 #kJ/mol
-analytic 6.34011E+0 0E+0 -1.05548E+3 0E+0 0E+0
1.000H+ + 1.000HSe- = H2Se
log_k 3.850
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: 14.3 #kJ/mol #05OLI/NOL
-analytic 3.85E+0 0E+0 0E+0 0E+0 0E+0
3.000H+ + 1.000AsO4-3 = H3(AsO4)
log_k 20.630
delta_h -14.360 #kJ/mol
# Enthalpy of formation: -902.5 #kJ/mol #09RAN/FUG
-analytic 1.81142E+1 0E+0 7.50074E+2 0E+0 0E+0
3.000H+ + 1.000Cit-3 = H3(Cit)
log_k 14.270 #05HUM/AND
delta_h -3.600 #kJ/mol
# Enthalpy of formation: -1523.52 #kJ/mol
-analytic 1.36393E+1 0E+0 1.88041E+2 0E+0 0E+0
3.000H+ + 1.000Edta-4 = H3(Edta)-
log_k 21.190 #05HUM/AND
delta_h -27.900 #kJ/mol
# Enthalpy of formation: -1732.7 #kJ/mol
-analytic 1.63021E+1 0E+0 1.45732E+3 0E+0 0E+0
3.000H+ + 1.000Nta-3 = H3(Nta)
log_k 15.330 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.533E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000H2(PO4)- = H3(PO4)
log_k 2.140 #92GRE/FUG
delta_h 8.480 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1294.12 #kJ/mol
-analytic 3.62563E+0 0E+0 -4.42941E+2 0E+0 0E+0
3.000H+ + 1.000Pyrophos-4 = H3(Pyrophos)-
log_k 18.300 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.83E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000H4(SiO4) = H3(SiO4)-
log_k -9.840 #06BLA/PIA
delta_h 29.363 #kJ/mol
# Enthalpy of formation: -1431.831 #kJ/mol
-analytic -4.69583E+0 0E+0 -1.53373E+3 0E+0 0E+0
4.000H+ + 1.000Edta-4 = H4(Edta)
log_k 23.420 #05HUM/AND
delta_h -26.000 #kJ/mol
# Enthalpy of formation: -1730.8 #kJ/mol
-analytic 1.8865E+1 0E+0 1.35807E+3 0E+0 0E+0
4.000H+ + 1.000Nta-3 = H4(Nta)+
log_k 16.130 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.613E+1 0E+0 0E+0 0E+0 0E+0
4.000H+ + 1.000Pyrophos-4 = H4(Pyrophos)
log_k 19.300 #92GRE/FUG
delta_h 6.684 #kJ/mol
# Enthalpy of formation: -2280.21 #kJ/mol #92GRE/FUG
-analytic 2.0471E+1 0E+0 -3.49129E+2 0E+0 0E+0
5.000H+ + 1.000Edta-4 = H5(Edta)+
log_k 24.720 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.472E+1 0E+0 0E+0 0E+0 0E+0
6.000H+ + 1.000Edta-4 = H6(Edta)+2
log_k 24.220 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.422E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Acetate- = HAcetate
log_k 4.760
delta_h 0.250 #kJ/mol
# Enthalpy of formation: -485.76 #kJ/mol #82WAG/EVA
-analytic 4.8038E+0 0E+0 -1.30584E+1 0E+0 0E+0
1.000H+ + 2.000B(OH)4- - 4.000H2O = HB2O4-
log_k 9.170 #97CRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.17E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000CO3-2 = HCO3-
log_k 10.330
delta_h -14.700 #kJ/mol
# Enthalpy of formation: -689.93 #kJ/mol #89COX/WAG
-analytic 7.75467E+0 0E+0 7.67833E+2 0E+0 0E+0
1.000H+ + 1.000Cl- = HCl
log_k -0.710 #97TAG/ZOT
delta_h -12.298 #kJ/mol
# Enthalpy of formation: -179.378 #kJ/mol
-analytic -2.86451E+0 0E+0 6.42368E+2 0E+0 0E+0
1.000H+ + 1.000CrO4-2 = HCrO4-
log_k 6.520 #87PAL/WES, 04CHI
delta_h 6.016 #kJ/mol
# Enthalpy of formation: -872.984 #kJ/mol
-analytic 7.57396E+0 0E+0 -3.14237E+2 0E+0 0E+0
1.000H+ + 1.000H2(PO4)- + 1.000CrO4-2 - 1.000H2O = HCrPO7-2
log_k 6.370
delta_h -36.390 #kJ/mol
# Enthalpy of formation: -1932.16 #kJ/mol #76DEL/HEP
-analytic -5.24498E-3 0E+0 1.90078E+3 0E+0 0E+0
1.000H+ + 1.000MoO4-2 = HMoO4-
log_k 4.110 #68SAS/SIL, 64AVE/ANA
delta_h 58.576 #kJ/mol #68ARN/SZI in 76BAE/MES
# Enthalpy of formation: -938.424 #kJ/mol
-analytic 1.43721E+1 0E+0 -3.05963E+3 0E+0 0E+0
- 1.000H+ + 1.000H2(PO4)- = HPO4-2
log_k -7.210
delta_h 3.600 #kJ/mol
# Enthalpy of formation: -1299 #kJ/mol #89COX/WAG
-analytic -6.57931E+0 0E+0 -1.88041E+2 0E+0 0E+0
1.000H+ + 1.000Phthalat-2 = HPhthalat-
log_k 5.340 #10RIC/SAB1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.34E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000S2O4-2 = HS2O4-
log_k 2.500 #04CHI
delta_h 3.834 #kJ/mol
# Enthalpy of formation: -749.666 #kJ/mol
-analytic 3.17169E+0 0E+0 -2.00263E+2 0E+0 0E+0
1.000H+ + 1.000SO4-2 + 0.500O2 = HSO5-
log_k -17.220
delta_h 139.777 #kJ/mol
# Enthalpy of formation: -775.63 #kJ/mol #88SHO/HEL
-analytic 7.26784E+0 0E+0 -7.30105E+3 0E+0 0E+0
4.000CO3-2 + 1.000Hf+4 = Hf(CO3)4-4
log_k 42.900 #analogy with Zr
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.29E+1 0E+0 0E+0 0E+0 0E+0
2.000NO3- + 1.000Hf+4 = Hf(NO3)2+2
log_k 2.490 #65DES/KHO recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.49E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Hf+4 + 1.000H2O = Hf(OH)+3
log_k -0.200 #01RAI/XIA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2E-1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 1.000Hf+4 + 4.000H2O = Hf(OH)4
log_k -11.200 #01RAI/XIA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.12E+1 0E+0 0E+0 0E+0 0E+0
- 5.000H+ + 1.000Hf+4 + 5.000H2O = Hf(OH)5-
log_k -20.300 #01RAI/XIA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.03E+1 0E+0 0E+0 0E+0 0E+0
- 6.000H+ + 1.000Hf+4 + 6.000H2O = Hf(OH)6-2
log_k -32.800 #01RAI/XIA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.28E+1 0E+0 0E+0 0E+0 0E+0
2.000SO4-2 + 1.000Hf+4 = Hf(SO4)2
log_k 10.110 #65DES/KHO recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.011E+1 0E+0 0E+0 0E+0 0E+0
1.000Br- + 1.000Hf+4 = HfBr+3
log_k 0.380 #67HAL/POH recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.8E-1 0E+0 0E+0 0E+0 0E+0
1.000Cl- + 1.000Hf+4 = HfCl+3
log_k 2.200 #65DES/KHO and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.2E+0 0E+0 0E+0 0E+0 0E+0
2.000Cl- + 1.000Hf+4 = HfCl2+2
log_k 2.050 #65DES/KHO and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.05E+0 0E+0 0E+0 0E+0 0E+0
1.000F- + 1.000Hf+4 = HfF+3
log_k 9.290 #05SAW/THA and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.29E+0 0E+0 0E+0 0E+0 0E+0
2.000F- + 1.000Hf+4 = HfF2+2
log_k 17.850 #05SAW/THA and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.785E+1 0E+0 0E+0 0E+0 0E+0
3.000F- + 1.000Hf+4 = HfF3+
log_k 25.080 #05SAW/THA and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.508E+1 0E+0 0E+0 0E+0 0E+0
4.000F- + 1.000Hf+4 = HfF4
log_k 31.410 #05SAW/THA and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.141E+1 0E+0 0E+0 0E+0 0E+0
1.000I- + 1.000Hf+4 = HfI+3
log_k 0.020 #67HAL/POH recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2E-2 0E+0 0E+0 0E+0 0E+0
1.000NO3- + 1.000Hf+4 = HfNO3+3
log_k 1.850 #65DES/KHO 69HAL/SMO recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.85E+0 0E+0 0E+0 0E+0 0E+0
1.000SO4-2 + 1.000Hf+4 = HfSO4+2
log_k 6.060 #65DES/KHO recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.06E+0 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 + 2.000H+ + 2.000Cn- + 2.000HSe- - 2.000H2O + 1.000O2 = Hg(SeCn)2
log_k 134.330
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3433E+2 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 + 3.000H+ + 3.000Cn- + 3.000HSe- - 3.000H2O + 1.500O2 = Hg(SeCn)3-
log_k 194.850
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.9485E+2 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 + 4.000H+ + 4.000Cn- + 4.000HSe- - 4.000H2O + 2.000O2 = Hg(SeCn)4-2
log_k 253.370
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.5337E+2 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 + 2.000SeO3-2 = Hg(SeO3)2-2
log_k 14.850 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.485E+1 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 - 1.000H+ + 1.000HSe- = HgSe
log_k 37.590
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.759E+1 0E+0 0E+0 0E+0 0E+0
1.000Hg+2 - 2.000H+ + 2.000HSe- = HgSe2-2
log_k 32.630
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.263E+1 0E+0 0E+0 0E+0 0E+0
1.000Ho+3 + 1.000CO3-2 = Ho(CO3)+
log_k 8.000 #95SPA/BRU
delta_h 168.562 #kJ/mol
# Enthalpy of formation: -1213.71 #kJ/mol
-analytic 3.75308E+1 0E+0 -8.80459E+3 0E+0 0E+0
1.000Ho+3 + 2.000CO3-2 = Ho(CO3)2-
log_k 13.300 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.33E+1 0E+0 0E+0 0E+0 0E+0
1.000Ho+3 + 3.000CO3-2 = Ho(CO3)3-3
log_k 14.800 #05VER/VIT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.48E+1 0E+0 0E+0 0E+0 0E+0
1.000Ho+3 + 1.000H2(PO4)- = Ho(H2PO4)+2
log_k 2.300 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.3E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Ho+3 + 1.000CO3-2 = Ho(HCO3)+2
log_k 12.500 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.25E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Ho+3 + 1.000H2(PO4)- = Ho(HPO4)+
log_k -1.410 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.41E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000Ho+3 + 2.000H2(PO4)- = Ho(HPO4)2-
log_k -4.520 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.52E+0 0E+0 0E+0 0E+0 0E+0
1.000Ho+3 + 1.000NO3- = Ho(NO3)+2
log_k 0.500 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5E-1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Ho+3 + 1.000H2O = Ho(OH)+2
log_k -7.900 #95SPA/BRU
delta_h 79.900 #kJ/mol
# Enthalpy of formation: -912.972 #kJ/mol
-analytic 6.09786E+0 0E+0 -4.17346E+3 0E+0 0E+0
- 2.000H+ + 1.000Ho+3 + 2.000H2O = Ho(OH)2+
log_k -15.700 #07NEC/ALT2
delta_h 143.846 #kJ/mol
# Enthalpy of formation: -1134.856 #kJ/mol
-analytic 9.5007E+0 0E+0 -7.51359E+3 0E+0 0E+0
- 3.000H+ + 1.000Ho+3 + 3.000H2O = Ho(OH)3
log_k -26.200 #07NEC/ALT2
delta_h 226.067 #kJ/mol
# Enthalpy of formation: -1338.465 #kJ/mol
-analytic 1.34052E+1 0E+0 -1.18083E+4 0E+0 0E+0
- 4.000H+ + 1.000Ho+3 + 4.000H2O = Ho(OH)4-
log_k -40.700 #07NEC/ALT2
delta_h 295.822 #kJ/mol
# Enthalpy of formation: -1554.54 #kJ/mol
-analytic 1.11257E+1 0E+0 -1.54518E+4 0E+0 0E+0
- 2.000H+ + 1.000Ho+3 + 1.000H2(PO4)- = Ho(PO4)
log_k -6.960 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.96E+0 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 1.000Ho+3 + 2.000H2(PO4)- = Ho(PO4)2-3
log_k -17.820 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.782E+1 0E+0 0E+0 0E+0 0E+0
1.000Ho+3 + 1.000SO4-2 = Ho(SO4)+
log_k 3.400 #95SPA/BRU
delta_h 15.387 #kJ/mol
# Enthalpy of formation: -1600.995 #kJ/mol
-analytic 6.09568E+0 0E+0 -8.03718E+2 0E+0 0E+0
1.000Ho+3 + 2.000SO4-2 = Ho(SO4)2-
log_k 4.900 #95SPA/BRU
delta_h 23.670 #kJ/mol
# Enthalpy of formation: -2502.052 #kJ/mol
-analytic 9.0468E+0 0E+0 -1.23637E+3 0E+0 0E+0
1.000Ho+3 + 1.000Cl- = HoCl+2
log_k 0.740 #Original data from 01LUO/BYR and 04LUO/BYR
delta_h 22.013 #kJ/mol
# Enthalpy of formation: -852.109 #kJ/mol
-analytic 4.59651E+0 0E+0 -1.14982E+3 0E+0 0E+0
1.000Ho+3 + 2.000Cl- = HoCl2+
log_k -0.290 #81TUR/WHI
delta_h 36.300 #kJ/mol
# Enthalpy of formation: -1004.902 #kJ/mol
-analytic 6.06948E+0 0E+0 -1.89608E+3 0E+0 0E+0
1.000Ho+3 + 1.000F- = HoF+2
log_k 4.330 #07LUO/BYR
delta_h 25.761 #kJ/mol
# Enthalpy of formation: -1016.631 #kJ/mol
-analytic 8.84313E+0 0E+0 -1.34559E+3 0E+0 0E+0
1.000Ho+3 + 2.000F- = HoF2+
log_k 6.520 #Original data from 99SCH/BYR and 04LUO/BYR
delta_h 21.110 #kJ/mol #04LUO/MIL
# Enthalpy of formation: -1356.632 #kJ/mol
-analytic 1.02183E+1 0E+0 -1.10265E+3 0E+0 0E+0
- 1.000H+ + 1.000Ho+3 + 1.000H4(SiO4) = HoSiO(OH)3+2
log_k -2.620 #Original data from 07THA/SIN and 96JEN/CHO1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.62E+0 0E+0 0E+0 0E+0 0E+0
3.000I- - 1.000H2O + 2.000H+ + 0.500O2 = I3-
log_k 24.820
delta_h -160.886 #kJ/mol
# Enthalpy of formation: -51.463 #kJ/mol
-analytic -3.36598E+0 0E+0 8.40365E+3 0E+0 0E+0
2.000Cl- + 1.000I- - 1.000H2O + 2.000H+ + 0.500O2 = ICl2-
log_k 16.190 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.619E+1 0E+0 0E+0 0E+0 0E+0
1.000I- + 0.500O2 = IO-
log_k -1.010 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.01E+0 0E+0 0E+0 0E+0 0E+0
1.000I- + 2.000O2 = IO4-
log_k 6.980
delta_h -70.413 #kJ/mol
# Enthalpy of formation: -151.461 #kJ/mol
-analytic -5.35581E+0 0E+0 3.67792E+3 0E+0 0E+0
1.000K+ + 1.000Edta-4 = K(Edta)-3
log_k 1.800 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.8E+0 0E+0 0E+0 0E+0 0E+0
1.000K+ + 1.000H+ + 1.000Nta-3 = K(HNta)-
log_k 10.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.03E+1 0E+0 0E+0 0E+0 0E+0
1.000K+ - 1.000H+ + 1.000H2(PO4)- = K(HPO4)-
log_k -6.400 #97MAR/SMI
delta_h 31.589 #kJ/mol #97MAR/SMI
# Enthalpy of formation: -1523.151 #kJ/mol
-analytic -8.65853E-1 0E+0 -1.65001E+3 0E+0 0E+0
1.000K+ + 1.000IO3- = K(IO3)
log_k 0.020 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2E-2 0E+0 0E+0 0E+0 0E+0
1.000K+ + 1.000Nta-3 = K(Nta)-2
log_k 1.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+0 0E+0 0E+0 0E+0 0E+0
1.000K+ + 1.000Pyrophos-4 = K(Pyrophos)-3
log_k 2.100 #76MAR/SMI
delta_h 7.113 #kJ/mol #76MAR/SMI
# Enthalpy of formation: -2531.921 #kJ/mol
-analytic 3.34614E+0 0E+0 -3.71537E+2 0E+0 0E+0
1.000K+ + 1.000Al+3 - 4.000H+ + 4.000H2O = KAl(OH)4
log_k -24.220
delta_h 211.675 #kJ/mol
# Enthalpy of formation: -1722.185 #kJ/mol #97POK/HEL2
-analytic 1.28638E+1 0E+0 -1.10565E+4 0E+0 0E+0
1.000K+ + 1.000H2(PO4)- = KH2PO4
log_k 0.440 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.4E-1 0E+0 0E+0 0E+0 0E+0
1.000K+ + 1.000I- = KI
log_k -1.570 #estimation NEA87 08/2/95
delta_h 9.011 #kJ/mol
# Enthalpy of formation: -299.909 #kJ/mol
-analytic 8.65712E-3 0E+0 -4.70677E+2 0E+0 0E+0
1.000K+ - 2.000H+ + 1.000H2(PO4)- = KPO4-2
log_k -18.260 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.826E+1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000CO3-2 = Mg(CO3)
log_k 2.980 #97SVE/SHO
delta_h 8.804 #kJ/mol
# Enthalpy of formation: -1133.426 #kJ/mol
-analytic 4.52239E+0 0E+0 -4.59864E+2 0E+0 0E+0
1.000Mg+2 + 1.000Cit-3 = Mg(Cit)-
log_k 4.810 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.81E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000Edta-4 = Mg(Edta)-2
log_k 10.900 #05HUM/AND
delta_h 19.800 #kJ/mol
# Enthalpy of formation: -2152 #kJ/mol
-analytic 1.43688E+1 0E+0 -1.03422E+3 0E+0 0E+0
1.000Mg+2 + 2.000H+ + 1.000Cit-3 = Mg(H2Cit)+
log_k 12.450 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.245E+1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000H2(PO4)- = Mg(H2PO4)+
log_k 1.170 #81TUR/WHI
delta_h 13.514 #kJ/mol #96BOU1
# Enthalpy of formation: -1756.086 #kJ/mol
-analytic 3.53755E+0 0E+0 -7.05884E+2 0E+0 0E+0
1.000Mg+2 - 1.000H+ + 1.000H4(SiO4) = Mg(H3SiO4)+
log_k -8.580 #97SVE/SHO
delta_h 27.114 #kJ/mol
# Enthalpy of formation: -1901.08 #kJ/mol
-analytic -3.82984E+0 0E+0 -1.41626E+3 0E+0 0E+0
1.000Mg+2 + 1.000H+ + 1.000CO3-2 = Mg(HCO3)+
log_k 11.370 #95SHO/KOR
delta_h -12.859 #kJ/mol
# Enthalpy of formation: -1155.089 #kJ/mol
-analytic 9.1172E+0 0E+0 6.71671E+2 0E+0 0E+0
1.000Mg+2 + 1.000H+ + 1.000Cit-3 = Mg(HCit)
log_k 8.960 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.96E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000H+ + 1.000Edta-4 = Mg(HEdta)-
log_k 15.400 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.54E+1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000H+ + 1.000Malonate-2 = Mg(HMalonate)+
log_k 7.050 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.05E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 - 1.000H+ + 1.000H2(PO4)- = Mg(HPO4)
log_k -4.300 #76SMI/MAR
delta_h 16.152 #kJ/mol #76SMI/MAR
# Enthalpy of formation: -1753.448 #kJ/mol
-analytic -1.4703E+0 0E+0 -8.43676E+2 0E+0 0E+0
1.000Mg+2 + 1.000H+ + 1.000Succinat-2 = Mg(HSuccinat)+
log_k 6.720 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.72E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000IO3- = Mg(IO3)+
log_k 0.700 #estimation NEA87 08/2/95 ;
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7E-1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000Malonate-2 = Mg(Malonate)
log_k 2.860 #76KLA/OST
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.86E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000NH3 = Mg(NH3)+2
log_k 0.100 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -548.148 #kJ/mol
-analytic 1E-1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 3.000NH3 = Mg(NH3)3+2
log_k -0.300 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -710.444 #kJ/mol
-analytic -3E-1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 4.000NH3 = Mg(NH3)4+2
log_k -1.000 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -791.592 #kJ/mol
-analytic -1E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000Nta-3 = Mg(Nta)-
log_k 6.790 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.79E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 - 1.000H+ + 1.000H2O = Mg(OH)+
log_k -11.680 #97SHO/SAS2
delta_h 62.835 #kJ/mol
# Enthalpy of formation: -689.995 #kJ/mol
-analytic -6.71797E-1 0E+0 -3.2821E+3 0E+0 0E+0
1.000Mg+2 + 1.000Ox-2 = Mg(Ox)
log_k 3.560 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.56E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 2.000Ox-2 = Mg(Ox)2-2
log_k 5.170 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.17E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 - 2.000H+ + 1.000H2(PO4)- = Mg(PO4)-
log_k -14.710 #81TUR/WHI
delta_h 31.170 #kJ/mol #96BOU1
# Enthalpy of formation: -1738.43 #kJ/mol
-analytic -9.24926E+0 0E+0 -1.62812E+3 0E+0 0E+0
1.000Mg+2 + 1.000Pyrophos-4 = Mg(Pyrophos)-2
log_k 7.200 #76SMI/MAR
delta_h 12.542 #kJ/mol
# Enthalpy of formation: -2741.352 #kJ/mol
-analytic 9.39726E+0 0E+0 -6.55113E+2 0E+0 0E+0
1.000Mg+2 + 1.000S2O3-2 = Mg(S2O3)
log_k 1.820 #76SMI/MAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.82E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000SO4-2 = Mg(SO4)
log_k 2.230 #76SMI/MAR
delta_h 5.858 #kJ/mol #76SMI/MAR
# Enthalpy of formation: -1370.482 #kJ/mol
-analytic 3.25628E+0 0E+0 -3.05984E+2 0E+0 0E+0
1.000Mg+2 + 1.000SeO4-2 = Mg(SeO4)
log_k 2.200 #05OLI/NOL
delta_h -6.614 #kJ/mol
# Enthalpy of formation: -1077.114 #kJ/mol
-analytic 1.04128E+0 0E+0 3.45473E+2 0E+0 0E+0
1.000Mg+2 + 1.000Succinat-2 = Mg(Succinat)
log_k 2.270 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.27E+0 0E+0 0E+0 0E+0 0E+0
4.000Mg+2 - 4.000H+ + 4.000H2O = Mg4(OH)4+4
log_k -39.750 #76BAE/MES
delta_h 229.186 #kJ/mol
# Enthalpy of formation: -2782.134 #kJ/mol
-analytic 4.01605E-1 0E+0 -1.19712E+4 0E+0 0E+0
1.000Mg+2 + 1.000B(OH)4- = MgB(OH)4+
log_k 1.600 #97CRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000Br- = MgBr+
log_k -0.140 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.4E-1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 1.000Cl- = MgCl+
log_k 0.350 #96BOU1
delta_h -1.729 #kJ/mol
# Enthalpy of formation: -635.809 #kJ/mol
-analytic 4.70926E-2 0E+0 9.03118E+1 0E+0 0E+0
1.000Mg+2 + 1.000F- = MgF+
log_k 1.800 #ANDRA, CRP OHEM 95.002, X. BOURBON, janvier1996; Sélection de données thermodynamiques afférentes aux corrections de Température sur les principaux équilibres chimiques en milieu naturel
delta_h 13.389 #kJ/mol
# Enthalpy of formation: -788.961 #kJ/mol
-analytic 4.14565E+0 0E+0 -6.99355E+2 0E+0 0E+0
1.000Mg+2 + 1.000I- = MgI+
log_k 0.180 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.8E-1 0E+0 0E+0 0E+0 0E+0
1.000Mg+2 + 2.000I- = MgI2
log_k 0.030 #estimation NEA87 08/2/95 ;
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3E-2 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000CO3-2 = Mn(CO3)
log_k 6.500 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000H+ + 1.000CO3-2 = Mn(HCO3)+
log_k 11.610 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.161E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 1.000H+ + 1.000H2(PO4)- = Mn(HPO4)
log_k -3.260 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.26E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 2.000H+ + 2.000H2(PO4)- = Mn(HPO4)2-2
log_k -9.120 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9.12E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000IO3- = Mn(IO3)+
log_k 0.840 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.4E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 2.000IO3- = Mn(IO3)2
log_k 0.130 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000NH3 = Mn(NH3)+2
log_k 0.700 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 2.000NH3 = Mn(NH3)2+2
log_k 1.200 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000NO3- = Mn(NO3)+
log_k 0.160 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 2.000NO3- = Mn(NO3)2
log_k 0.500 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 1.000H+ + 1.000H2O = Mn(OH)+
log_k -10.590 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.059E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 2.000H+ + 2.000H2O = Mn(OH)2
log_k -22.200 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.22E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 3.000H+ + 3.000H2O = Mn(OH)3-
log_k -34.800 #95CHI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.48E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 4.000H+ + 4.000H2O = Mn(OH)4-2
log_k -48.300 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/91PEA/BER 11891 EN ; Nagra TR 91-18 (mai 1992, Hatches 3.0) (provient de la base 0391 MINEQL- PSY)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.83E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000Pyrophos-4 = Mn(Pyrophos)-2
log_k 6.000 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000S2O3-2 = Mn(S2O3)
log_k 1.900 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000SO4-2 = Mn(SO4)
log_k 2.250 #95CHI
delta_h 14.100 #kJ/mol
# Enthalpy of formation: -1115.99 #kJ/mol
-analytic 4.72021E+0 0E+0 -7.36493E+2 0E+0 0E+0
1.000Mn+2 + 1.000Scn- = Mn(Scn)+
log_k 1.400 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000SeO4-2 = Mn(SeO4)
log_k 2.430 #05OLI/NOL
delta_h -1.282 #kJ/mol
# Enthalpy of formation: -825.582 #kJ/mol
-analytic 2.2054E+0 0E+0 6.69634E+1 0E+0 0E+0
1.000Mn+2 - 0.500H2O + 1.000H+ + 0.250O2 = Mn+3
log_k -4.015 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.015E+0 0E+0 0E+0 0E+0 0E+0
2.000Mn+2 - 1.000H+ + 1.000H2O = Mn2(OH)+3
log_k -10.100 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.01E+1 0E+0 0E+0 0E+0 0E+0
2.000Mn+2 - 3.000H+ + 3.000H2O = Mn2(OH)3+
log_k -24.900 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.49E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000Br- = MnBr+
log_k 0.130 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000Cl- = MnCl+
log_k 0.300
delta_h 18.466 #kJ/mol
# Enthalpy of formation: -369.364 #kJ/mol
-analytic 3.5351E+0 0E+0 -9.64545E+2 0E+0 0E+0
1.000Mn+2 + 2.000Cl- = MnCl2
log_k 0.250 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de la base 0391 MINEQL- PSY)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.5E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 3.000Cl- = MnCl3-
log_k -0.310 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de la base 0391 MINEQL- PSY)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.1E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000F- = MnF+
log_k 0.850 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.5E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 2.000F- = MnF2
log_k 9.040 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.04E+0 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 3.000F- = MnF3-
log_k 11.640 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.164E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 4.000F- = MnF4-2
log_k 13.400 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.34E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 5.000F- = MnF5-3
log_k 14.700 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.47E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 6.000F- = MnF6-4
log_k 15.500 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.55E+1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 + 1.000I- = MnI+
log_k 0.230 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.3E-1 0E+0 0E+0 0E+0 0E+0
1.000Mn+2 - 3.000H+ + 1.500H2O + 1.250O2 = MnO4-
log_k -20.305 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92
delta_h 123.253 #kJ/mol
# Enthalpy of formation: -541.41 #kJ/mol
-analytic 1.28788E+0 0E+0 -6.43792E+3 0E+0 0E+0
1.000Mn+2 - 4.000H+ + 2.000H2O + 1.000O2 = MnO4-2
log_k -32.420 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92
delta_h 151.840 #kJ/mol
# Enthalpy of formation: -652.704 #kJ/mol
-analytic -5.81881E+0 0E+0 -7.93114E+3 0E+0 0E+0
1.000Mn+2 - 5.000H+ + 2.500H2O + 0.750O2 = MnO4-3
log_k -48.515 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.8515E+1 0E+0 0E+0 0E+0 0E+0
5.000H+ + 1.000MoO4-2 - 2.500H2O - 0.750O2 = Mo+3
log_k -42.725 #68SAS/SIL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.2725E+1 0E+0 0E+0 0E+0 0E+0
34.000H+ + 19.000MoO4-2 - 17.000H2O = Mo19O59-4
log_k 196.300 #68SAS/SIL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.963E+2 0E+0 0E+0 0E+0 0E+0
5.000H+ + 2.000MoO4-2 - 2.000H2O = Mo2O5(OH)+
log_k 19.000 #68SAS/SIL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.9E+1 0E+0 0E+0 0E+0 0E+0
11.000H+ + 7.000MoO4-2 - 4.000H2O = Mo7O21(OH)3-3
log_k 66.480 #68SAS/SIL, 64AVE/ANA
delta_h -222.589 #kJ/mol #68ARN/SZI in 76BAE/MES
# Enthalpy of formation: -6058.269 #kJ/mol
-analytic 2.74841E+1 0E+0 1.16266E+4 0E+0 0E+0
10.000H+ + 7.000MoO4-2 - 4.000H2O = Mo7O22(OH)2-4
log_k 62.710 #68SAS/SIL, 64AVE/ANA
delta_h -220.079 #kJ/mol #68ARN/SZI in 76BAE/MES
# Enthalpy of formation: -6055.759 #kJ/mol
-analytic 2.41539E+1 0E+0 1.14955E+4 0E+0 0E+0
9.000H+ + 7.000MoO4-2 - 4.000H2O = Mo7O23(OH)-5
log_k 57.210 #68SAS/SIL, 64AVE/ANA
delta_h -223.426 #kJ/mol #68ARN/SZI in 76BAE/MES
# Enthalpy of formation: -6059.106 #kJ/mol
-analytic 1.80675E+1 0E+0 1.16703E+4 0E+0 0E+0
8.000H+ + 7.000MoO4-2 - 4.000H2O = Mo7O24-6
log_k 50.350 #68SAS/SIL, 64AVE/ANA
delta_h -234.304 #kJ/mol #68ARN/SZI in 76BAE/MES
# Enthalpy of formation: -6069.984 #kJ/mol
-analytic 9.30176E+0 0E+0 1.22385E+4 0E+0 0E+0
1.000H+ + 1.000NH3 = NH4+
log_k 9.230 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -133.26 #kJ/mol #92GRE/FUG
-analytic 9.23E+0 0E+0 0E+0 0E+0 0E+0
1.000Na+ + 1.000CO3-2 = Na(CO3)-
log_k 1.270 #90NOR/PLU
delta_h 37.279 #kJ/mol #90NOR/PLU
# Enthalpy of formation: -878.291 #kJ/mol
-analytic 7.80099E+0 0E+0 -1.94721E+3 0E+0 0E+0
1.000Na+ + 1.000Edta-4 = Na(Edta)-3
log_k 2.800 #05HUM/AND
delta_h -4.000 #kJ/mol
# Enthalpy of formation: -1949.14 #kJ/mol
-analytic 2.09923E+0 0E+0 2.08934E+2 0E+0 0E+0
1.000Na+ + 1.000H+ + 1.000CO3-2 = Na(HCO3)
log_k 10.080 #90NOR/PLU
delta_h -26.127 #kJ/mol
# Enthalpy of formation: -941.697 #kJ/mol
-analytic 5.50275E+0 0E+0 1.36471E+3 0E+0 0E+0
1.000Na+ + 1.000H+ + 1.000Nta-3 = Na(HNta)-
log_k 10.320 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.032E+1 0E+0 0E+0 0E+0 0E+0
1.000Na+ - 1.000H+ + 1.000H2(PO4)- = Na(HPO4)-
log_k -6.340 #97MAR/SMI
delta_h 34.936 #kJ/mol #97MAR/SMI
# Enthalpy of formation: -1508.004 #kJ/mol
-analytic -2.19485E-1 0E+0 -1.82483E+3 0E+0 0E+0
1.000Na+ + 1.000IO3- = Na(IO3)
log_k 0.060 #estimation NEA87 08/2/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6E-2 0E+0 0E+0 0E+0 0E+0
1.000Na+ + 1.000Nta-3 = Na(Nta)-2
log_k 1.880 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.88E+0 0E+0 0E+0 0E+0 0E+0
1.000Na+ + 1.000S2O3-2 = Na(S2O3)-
log_k 0.610
delta_h 4.656 #kJ/mol
# Enthalpy of formation: -887.97 #kJ/mol #82WAG/EVA
-analytic 1.42569E+0 0E+0 -2.43199E+2 0E+0 0E+0
2.000Na+ + 1.000Pyrophos-4 = Na2(Pyrophos)-2
log_k 2.290 #76SMI/MAR
delta_h 5.858 #kJ/mol #76SMI/MAR
# Enthalpy of formation: -2761.716 #kJ/mol
-analytic 3.31628E+0 0E+0 -3.05984E+2 0E+0 0E+0
1.000Na+ + 1.000Al+3 - 4.000H+ + 4.000H2O = NaAl(OH)4
log_k -23.630
delta_h 190.348 #kJ/mol
# Enthalpy of formation: -1731.712 #kJ/mol #95POK/HEL
-analytic 9.71749E+0 0E+0 -9.94255E+3 0E+0 0E+0
1.000Na+ + 1.000B(OH)4- = NaB(OH)4
log_k -0.100
delta_h 1.226 #kJ/mol
# Enthalpy of formation: -1584.23 #kJ/mol
-analytic 1.14786E-1 0E+0 -6.40383E+1 0E+0 0E+0
1.000Na+ + 1.000F- = NaF
log_k -0.450 #ANDRA, CRP OHEM 95.002, X. BOURBON, janvier1996; Sélection de données thermodynamiques afférentes aux corrections de Température sur les principaux équilibres chimiques en milieu naturel
delta_h -12.552 #kJ/mol
# Enthalpy of formation: -588.242 #kJ/mol
-analytic -2.64901E+0 0E+0 6.55636E+2 0E+0 0E+0
1.000Na+ + 1.000H2(PO4)- = NaH2PO4
log_k 0.410 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.1E-1 0E+0 0E+0 0E+0 0E+0
1.000Na+ + 1.000I- = NaI
log_k -1.520 #estimation NEA87 08/2/95
delta_h 7.252 #kJ/mol
# Enthalpy of formation: -289.868 #kJ/mol
-analytic -2.49506E-1 0E+0 -3.78798E+2 0E+0 0E+0
1.000Na+ - 2.000H+ + 1.000H2(PO4)- = NaPO4-2
log_k -18.070 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.807E+1 0E+0 0E+0 0E+0 0E+0
3.000H+ + 1.000Nb(OH)6- - 3.000H2O = Nb(OH)3+2
log_k 7.500 #97PEI/NGU
delta_h -10.230 #kJ/mol #97PEI/NGU
# Enthalpy of formation: -1078.405 #kJ/mol
-analytic 5.70778E+0 0E+0 5.34349E+2 0E+0 0E+0
2.000H+ + 1.000Nb(OH)6- - 2.000H2O = Nb(OH)4+
log_k 6.640 #97PEI/NGU
delta_h -35.350 #kJ/mol #97PEI/NGU
# Enthalpy of formation: -1389.355 #kJ/mol
-analytic 4.46955E-1 0E+0 1.84646E+3 0E+0 0E+0
1.000H+ + 1.000Nb(OH)6- - 1.000H2O = Nb(OH)5
log_k 5.080 #97PEI/NGU
delta_h -13.390 #kJ/mol #97PEI/NGU
# Enthalpy of formation: -1653.225 #kJ/mol
-analytic 2.73418E+0 0E+0 6.99407E+2 0E+0 0E+0
- 1.000H+ + 1.000Nb(OH)6- + 1.000H2O = Nb(OH)7-2
log_k -8.880 #97PEI/NGU
delta_h 10.170 #kJ/mol #97PEI/NGU
# Enthalpy of formation: -2201.325 #kJ/mol
-analytic -7.0983E+0 0E+0 -5.31215E+2 0E+0 0E+0
5.000H+ + 1.000Nb(OH)6- + 1.000Cit-3 - 4.000H2O = NbO2(H3Cit)+
log_k 25.640 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.564E+1 0E+0 0E+0 0E+0 0E+0
3.000H+ + 1.000Nb(OH)6- + 1.000Ox-2 - 4.000H2O = NbO2(HOx)
log_k 13.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.37E+1 0E+0 0E+0 0E+0 0E+0
4.000H+ + 1.000Nb(OH)6- + 2.000Ox-2 - 4.000H2O = NbO2(HOx)2-
log_k 20.960 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.096E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 1.000Nb(OH)6- + 1.000Ox-2 - 4.000H2O = NbO2(Ox)-
log_k 10.940 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.094E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000Acetate- = Ni(Acetate)+
log_k 1.340 #11RIC/GRI
delta_h -28.257 #kJ/mol
# Enthalpy of formation: -569.279 #kJ/mol
-analytic -3.61041E+0 0E+0 1.47596E+3 0E+0 0E+0
1.000Ni+2 + 1.000CO3-2 = Ni(CO3)
log_k 4.200 #03BAE/BRA in 05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000CO3-2 = Ni(CO3)2-2
log_k 6.200 #03BAE/BRA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000Cit-3 = Ni(Cit)-
log_k 6.760 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.76E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000Cit-3 = Ni(Cit)2-4
log_k 8.500 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 4.000Cn- = Ni(Cn)4-2
log_k 30.200
delta_h -180.700 #kJ/mol #05GAM/BUG
# Enthalpy of formation: 353.688 #kJ/mol
-analytic -1.45723E+0 0E+0 9.4386E+3 0E+0 0E+0
1.000Ni+2 + 5.000Cn- = Ni(Cn)5-3
log_k 28.500
delta_h -191.100 #kJ/mol #05GAM/BUG
# Enthalpy of formation: 490.638 #kJ/mol
-analytic -4.97923E+0 0E+0 9.98183E+3 0E+0 0E+0
1.000Ni+2 + 1.000Edta-4 = Ni(Edta)-2
log_k 20.540 #05HUM/AND
delta_h -26.100 #kJ/mol
# Enthalpy of formation: -1785.912 #kJ/mol
-analytic 1.59675E+1 0E+0 1.3633E+3 0E+0 0E+0
1.000Ni+2 + 2.000H+ + 1.000Cit-3 = Ni(H2Cit)+
log_k 13.190 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.319E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000H+ + 1.000CO3-2 = Ni(HCO3)+
log_k 11.730 #03BAE/BRA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.173E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000H+ + 1.000Cit-3 = Ni(HCit)
log_k 10.520 #05HUM/BER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.052E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000H+ + 1.000Edta-4 = Ni(HEdta)-
log_k 24.200 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.42E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000HIsa- = Ni(HIsa)+
log_k 2.800 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 - 1.000H+ + 1.000H2(PO4)- = Ni(HPO4)
log_k -4.160 #05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.16E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000HS- = Ni(HS)2
log_k 11.100 #02HUM/BER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.11E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000Malonate-2 = Ni(Malonate)
log_k 4.390 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.39E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000Malonate-2 = Ni(Malonate)2-2
log_k 8.150 #98KHA/RAD
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.15E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000NH3 = Ni(NH3)+2
log_k 2.610 #70LET
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.61E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000NH3 = Ni(NH3)2+2
log_k 4.760 #70LET
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.76E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 3.000NH3 = Ni(NH3)3+2
log_k 6.790 #70LET
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.79E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 4.000NH3 = Ni(NH3)4+2
log_k 8.340 #70LET
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.34E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000NO3- = Ni(NO3)+
log_k 0.500 #05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5E-1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000NO3- = Ni(NO3)2
log_k -0.600 #76SMI/MAR in 89BAE/McK
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6E-1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000Nta-3 = Ni(Nta)-
log_k 12.750 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.275E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000Nta-3 = Ni(Nta)2-4
log_k 16.950 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.695E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 - 1.000H+ + 1.000Nta-3 + 1.000H2O = Ni(OH)(Nta)-2
log_k 1.470 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.47E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 - 1.000H+ + 1.000H2O = Ni(OH)+
log_k -9.540 #05GAM/BUG
delta_h 53.800 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -287.042 #kJ/mol
-analytic -1.14658E-1 0E+0 -2.81017E+3 0E+0 0E+0
1.000Ni+2 - 2.000H+ + 2.000H2O = Ni(OH)2
log_k -18.000 #49GAY/GAR reevaluated in 05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.8E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 - 3.000H+ + 1.000H2(PO4)- + 2.000H2O = Ni(OH)2(HPO4)-2
log_k -23.240 #95LEM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.324E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000HIsa- + 3.000H2O - 3.000H+ = Ni(OH)3(HIsa)-2
log_k -26.500 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.65E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 - 3.000H+ + 3.000H2O = Ni(OH)3-
log_k -29.380 #49GAY/GAR reevaluated in 05GAM/BUG
delta_h 121.200 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -791.302 #kJ/mol
-analytic -8.1467E+0 0E+0 -6.33071E+3 0E+0 0E+0
1.000Ni+2 + 1.000Ox-2 = Ni(Ox)
log_k 5.190 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -885.672 #kJ/mol
-analytic 5.19E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000Ox-2 = Ni(Ox)2-2
log_k 7.640 #05HUM/AND
delta_h -7.800 #kJ/mol
# Enthalpy of formation: -1724.132 #kJ/mol
-analytic 6.2735E+0 0E+0 4.07422E+2 0E+0 0E+0
1.000Ni+2 + 1.000Phthalat-2 = Ni(Phthalat)
log_k 3.000 #11GRI/COL3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000Pyrophos-4 = Ni(Pyrophos)-2
log_k 8.730 #05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.73E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000S2O3-2 = Ni(S2O3)
log_k 2.060 #51DEU/HEI in 64SIL/MAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.06E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000SO4-2 = Ni(SO4)
log_k 2.350 #05GAM/BUG
delta_h 5.660 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -958.692 #kJ/mol
-analytic 3.34159E+0 0E+0 -2.95642E+2 0E+0 0E+0
1.000Ni+2 + 2.000SO4-2 = Ni(SO4)2-2
log_k 3.010 #89BAE/McK
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.01E+0 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000Scn- = Ni(Scn)+
log_k 1.810
delta_h -11.800 #kJ/mol #05GAM/BUG
# Enthalpy of formation: 9.588 #kJ/mol
-analytic -2.57268E-1 0E+0 6.16356E+2 0E+0 0E+0
1.000Ni+2 + 2.000Scn- = Ni(Scn)2
log_k 2.690
delta_h -21.000 #kJ/mol #05GAM/BUG
# Enthalpy of formation: 76.788 #kJ/mol
-analytic -9.89037E-1 0E+0 1.0969E+3 0E+0 0E+0
1.000Ni+2 + 3.000Scn- = Ni(Scn)3-
log_k 3.020
delta_h -29.000 #kJ/mol #05GAM/BUG
# Enthalpy of formation: 145.188 #kJ/mol
-analytic -2.06057E+0 0E+0 1.51477E+3 0E+0 0E+0
1.000Ni+2 + 1.000H+ + 1.000Cn- + 1.000HSe- - 1.000H2O + 0.500O2 = Ni(SeCn)+
log_k 57.790
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.779E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 2.000H+ + 2.000Cn- + 2.000HSe- - 2.000H2O + 1.000O2 = Ni(SeCn)2
log_k 114.270
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1427E+2 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000SeO4-2 = Ni(SeO4)
log_k 2.670 #05OLI/NOL
delta_h -0.675 #kJ/mol
# Enthalpy of formation: -659.187 #kJ/mol
-analytic 2.55175E+0 0E+0 3.52577E+1 0E+0 0E+0
2.000Ni+2 - 1.000H+ + 1.000H2O = Ni2(OH)+3
log_k -10.600 #05GAM/BUG
delta_h 45.900 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -349.954 #kJ/mol
-analytic -2.55868E+0 0E+0 -2.39752E+3 0E+0 0E+0
4.000Ni+2 - 4.000H+ + 4.000H2O = Ni4(OH)4+4
log_k -27.520 #05GAM/BUG
delta_h 190.000 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -1173.368 #kJ/mol
-analytic 5.76652E+0 0E+0 -9.92438E+3 0E+0 0E+0
1.000Ni+2 + 1.000Cl- = NiCl+
log_k 0.080 #05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8E-2 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000F- = NiF+
log_k 1.430 #05GAM/BUG
delta_h 9.500 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -380.862 #kJ/mol
-analytic 3.09433E+0 0E+0 -4.96219E+2 0E+0 0E+0
1.000Ni+2 + 1.000H+ + 1.000AsO4-3 = NiHAsO4
log_k 14.500
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.45E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000H+ + 1.000Pyrophos-4 = NiHPyrophos-
log_k 14.540 #05GAM/BUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.454E+1 0E+0 0E+0 0E+0 0E+0
1.000Ni+2 + 1.000HS- = NiHS+
log_k 5.500 #02HUM/BER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000Acetate- = Np(Acetate)+3
log_k 5.830 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.83E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 2.000Acetate- = Np(Acetate)2+2
log_k 10.000 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 3.000H+ + 1.000CO3-2 + 3.000H2O = Np(CO3)(OH)3-
log_k 3.820 #93ERI/NDA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.82E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+3 + 1.000CO3-2 = Np(CO3)+
log_k 7.670 #Estimated by correlation with An(III) in function of ionic radii
delta_h 156.370 #kJ/mol
# Enthalpy of formation: -1046.044 #kJ/mol
-analytic 3.50648E+1 0E+0 -8.16776E+3 0E+0 0E+0
1.000Np+3 + 2.000CO3-2 = Np(CO3)2-
log_k 12.600 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.26E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 + 3.000CO3-2 = Np(CO3)3-3
log_k 15.660 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.566E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 4.000CO3-2 = Np(CO3)4-4
log_k 36.680 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.668E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 5.000CO3-2 = Np(CO3)5-6
log_k 35.610 #01LEM/FUG
delta_h -1.612 #kJ/mol
# Enthalpy of formation: -3933.784 #kJ/mol
-analytic 3.53276E+1 0E+0 8.42005E+1 0E+0 0E+0
1.000Np+4 + 1.000Edta-4 = Np(Edta)
log_k 31.200 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.12E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 + 1.000Edta-4 = Np(Edta)-
log_k 19.900
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.99E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 - 2.000H+ + 2.000H2(PO4)- = Np(HPO4)2-
log_k -5.380 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.38E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000NO3- = Np(NO3)+3
log_k 1.900 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+3 + 1.000Nta-3 = Np(Nta)
log_k 13.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000Nta-3 = Np(Nta)+
log_k 20.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.07E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 2.000Nta-3 = Np(Nta)2-2
log_k 36.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.63E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 - 1.000H+ + 1.000H2O = Np(OH)+2
log_k -6.800 #01LEM/FUG
delta_h 77.089 #kJ/mol
# Enthalpy of formation: -735.925 #kJ/mol
-analytic 6.70539E+0 0E+0 -4.02663E+3 0E+0 0E+0
1.000Np+4 - 1.000H+ + 1.000H2O = Np(OH)+3
log_k 0.550 #03GUI/FAN
delta_h 38.192 #kJ/mol
# Enthalpy of formation: -803.66 #kJ/mol
-analytic 7.24094E+0 0E+0 -1.9949E+3 0E+0 0E+0
1.000Np+4 - 2.000H+ + 2.000CO3-2 + 2.000H2O = Np(OH)2(CO3)2-2
log_k 15.170 #99RAI/HES2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.517E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 - 2.000H+ + 2.000H2O = Np(OH)2+
log_k -17.000 #80ALL/KIP
delta_h 155.529 #kJ/mol
# Enthalpy of formation: -943.315 #kJ/mol
-analytic 1.02475E+1 0E+0 -8.12383E+3 0E+0 0E+0
1.000Np+4 - 2.000H+ + 2.000H2O = Np(OH)2+2
log_k 0.350 #03GUI/FAN
delta_h 54.530 #kJ/mol
# Enthalpy of formation: -1073.152 #kJ/mol
-analytic 9.90323E+0 0E+0 -2.8483E+3 0E+0 0E+0
1.000Np+3 - 3.000H+ + 3.000H2O = Np(OH)3
log_k -27.000 #80ALL/KIP
delta_h 235.824 #kJ/mol
# Enthalpy of formation: -1148.85 #kJ/mol
-analytic 1.43145E+1 0E+0 -1.23179E+4 0E+0 0E+0
1.000Np+4 - 3.000H+ + 1.000HGlu- + 3.000H2O = Np(OH)3(HGlu)
log_k 3.270 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.27E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 3.000H+ + 1.000HIsa- + 3.000H2O = Np(OH)3(HIsa)
log_k 3.270 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.27E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 3.000H+ + 2.000HIsa- + 3.000H2O = Np(OH)3(HIsa)2-
log_k 5.380 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.38E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 3.000H+ + 3.000H2O = Np(OH)3+
log_k -2.800 #01NEC/KIM, 99NEC
delta_h 74.932 #kJ/mol
# Enthalpy of formation: -1338.58 #kJ/mol
-analytic 1.03275E+1 0E+0 -3.91397E+3 0E+0 0E+0
1.000Np+4 - 4.000H+ + 4.000H2O = Np(OH)4
log_k -8.300 #03GUI/FAN
delta_h 101.442 #kJ/mol
# Enthalpy of formation: -1597.9 #kJ/mol
-analytic 9.47185E+0 0E+0 -5.29868E+3 0E+0 0E+0
1.000Np+4 - 4.000H+ + 1.000CO3-2 + 4.000H2O = Np(OH)4(CO3)-2
log_k -6.830 #93ERI/NDA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.83E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 4.000H+ + 1.000HGlu- + 4.000H2O = Np(OH)4(HGlu)-
log_k -3.700 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 4.000H+ + 1.000HIsa- + 4.000H2O = Np(OH)4(HIsa)-
log_k -4.060 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.06E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 - 4.000H+ + 2.000HIsa- + 4.000H2O = Np(OH)4(HIsa)2-2
log_k -2.200 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000Ox-2 = Np(Ox)+2
log_k 11.160 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.116E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 2.000Ox-2 = Np(Ox)2
log_k 19.940 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.994E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 3.000Ox-2 = Np(Ox)3-2
log_k 25.190 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.519E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 - 4.000H+ + 2.000H2(PO4)- = Np(PO4)2-3
log_k -19.570 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.957E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 + 1.000SO4-2 = Np(SO4)+
log_k 3.860 #Estimated by correlation with An(III) in function of ionic radii
delta_h 17.889 #kJ/mol
# Enthalpy of formation: -1418.638 #kJ/mol
-analytic 6.99401E+0 0E+0 -9.34406E+2 0E+0 0E+0
1.000Np+4 + 1.000SO4-2 = Np(SO4)+2
log_k 6.850 #01LEM/FUG
delta_h 29.840 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1435.522 #kJ/mol #01LEM/FUG
-analytic 1.20777E+1 0E+0 -1.55865E+3 0E+0 0E+0
1.000Np+4 + 2.000SO4-2 = Np(SO4)2
log_k 11.050 #01LEM/FUG
delta_h 55.380 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -2319.322 #kJ/mol
-analytic 2.07521E+1 0E+0 -2.89269E+3 0E+0 0E+0
1.000Np+3 + 2.000SO4-2 = Np(SO4)2-
log_k 5.560 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.56E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000Br- = NpBr+3
log_k 1.550 #Estimated by correlation with An(IV) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.55E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000Cl- = NpCl+3
log_k 1.500 #01LEM/FUG
delta_h 24.173 #kJ/mol
# Enthalpy of formation: -698.929 #kJ/mol
-analytic 5.73492E+0 0E+0 -1.26264E+3 0E+0 0E+0
1.000Np+4 + 1.000F- = NpF+3
log_k 8.960 #01LEM/FUG
delta_h 1.500 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -889.872 #kJ/mol
-analytic 9.22279E+0 0E+0 -7.83503E+1 0E+0 0E+0
1.000Np+4 + 2.000F- = NpF2+2
log_k 15.700 #01LEM/FUG
delta_h 15.930 #kJ/mol
# Enthalpy of formation: -1210.792 #kJ/mol
-analytic 1.84908E+1 0E+0 -8.32081E+2 0E+0 0E+0
1.000Np+4 + 3.000F- = NpF3+
log_k 20.050 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.005E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 4.000F- = NpF4
log_k 25.950 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.595E+1 0E+0 0E+0 0E+0 0E+0
1.000Np+3 - 1.000H+ + 1.000H2(PO4)- = NpHPO4+
log_k -1.780 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.78E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+4 + 1.000I- = NpI+3
log_k 1.500 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.5E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 1.000Acetate- = NpO2(Acetate)
log_k 1.320 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.32E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 2.000Acetate- = NpO2(Acetate)2-
log_k 3.420 #09TAK/TAK
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.42E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 3.000Acetate- = NpO2(Acetate)3-2
log_k 3.570 #09TAK/TAK
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.57E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 + 1.000CO3-2 = NpO2(CO3)
log_k 9.320 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.32E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 - 2.000H+ + 1.000CO3-2 + 2.000H2O = NpO2(CO3)(OH)2-2
log_k -7.690 #99CHO/BRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.69E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 1.000CO3-2 = NpO2(CO3)-
log_k 4.960 #01LEM/FUG
delta_h 59.904 #kJ/mol
# Enthalpy of formation: -1593.507 #kJ/mol
-analytic 1.54547E+1 0E+0 -3.129E+3 0E+0 0E+0
1.000NpO2+2 + 2.000CO3-2 = NpO2(CO3)2-2
log_k 16.520 #01LEM/FUG
delta_h 13.776 #kJ/mol
# Enthalpy of formation: -2197.417 #kJ/mol
-analytic 1.89334E+1 0E+0 -7.1957E+2 0E+0 0E+0
1.000NpO2+ + 2.000CO3-2 = NpO2(CO3)2-3
log_k 6.530 #01LEM/FUG
delta_h 39.027 #kJ/mol
# Enthalpy of formation: -2289.614 #kJ/mol
-analytic 1.33672E+1 0E+0 -2.03852E+3 0E+0 0E+0
1.000NpO2+ - 1.000H+ + 2.000CO3-2 + 1.000H2O = NpO2(CO3)2OH-4
log_k -5.310 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.31E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 + 3.000CO3-2 = NpO2(CO3)3-4
log_k 19.370
delta_h -41.900 #kJ/mol
# Enthalpy of formation: -2928.323 #kJ/mol #01LEM/FUG
-analytic 1.20294E+1 0E+0 2.18859E+3 0E+0 0E+0
1.000NpO2+ + 3.000CO3-2 = NpO2(CO3)3-5
log_k 5.500
delta_h -13.249 #kJ/mol
# Enthalpy of formation: -3017.12 #kJ/mol #01LEM/FUG
-analytic 3.17888E+0 0E+0 6.92042E+2 0E+0 0E+0
1.000NpO2+ + 1.000Cit-3 = NpO2(Cit)-2
log_k 3.680 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.68E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 1.000Edta-4 = NpO2(Edta)-3
log_k 9.230 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.23E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 2.000H+ + 1.000Edta-4 = NpO2(H2Edta)-
log_k 22.510 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.251E+1 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 1.000H+ + 1.000Edta-4 = NpO2(HEdta)-2
log_k 17.060 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.706E+1 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 1.000H+ + 1.000Nta-3 = NpO2(HNta)-
log_k 11.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.17E+1 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 - 1.000H+ + 1.000H2(PO4)- = NpO2(HPO4)
log_k -1.010 #01LEM/FUG
delta_h 92.209 #kJ/mol
# Enthalpy of formation: -2071.124 #kJ/mol
-analytic 1.51443E+1 0E+0 -4.8164E+3 0E+0 0E+0
1.000NpO2+2 - 2.000H+ + 2.000H2(PO4)- = NpO2(HPO4)2-2
log_k -4.920 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.92E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 + 1.000NO3- = NpO2(NO3)+
log_k 0.100 #12GRI/GAR2 in analogy to UO2(NO3)+
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1E-1 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 + 1.000Nta-3 = NpO2(Nta)-
log_k 11.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1E+1 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 1.000Nta-3 = NpO2(Nta)-2
log_k 7.460 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.46E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ - 1.000H+ + 1.000H2O = NpO2(OH)
log_k -11.300 #01LEM/FUG
delta_h 64.785 #kJ/mol
# Enthalpy of formation: -1199.226 #kJ/mol
-analytic 4.98281E-2 0E+0 -3.38395E+3 0E+0 0E+0
1.000NpO2+ - 1.000H+ + 1.000Nta-3 + 1.000H2O = NpO2(OH)(Nta)-3
log_k -4.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.7E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 - 1.000H+ + 1.000H2O = NpO2(OH)+
log_k -5.100 #01LEM/FUG
delta_h 42.957 #kJ/mol
# Enthalpy of formation: -1103.606 #kJ/mol
-analytic 2.42573E+0 0E+0 -2.2438E+3 0E+0 0E+0
1.000NpO2+2 - 2.000H+ + 2.000H2O = NpO2(OH)2
log_k -12.210 #Estimated by correlation with An(VI) in funciton of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.221E+1 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ - 2.000H+ + 2.000H2O = NpO2(OH)2-
log_k -23.600 #01LEM/FUG
delta_h 118.610 #kJ/mol
# Enthalpy of formation: -1431.23 #kJ/mol
-analytic -2.82045E+0 0E+0 -6.19542E+3 0E+0 0E+0
1.000NpO2+ + 1.000Ox-2 = NpO2(Ox)-
log_k 3.900 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.9E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ + 2.000Ox-2 = NpO2(Ox)2-3
log_k 5.800 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.8E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+2 + 1.000SO4-2 = NpO2(SO4)
log_k 3.280 #01LEM/FUG
delta_h 16.700 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1753.373 #kJ/mol
-analytic 6.20571E+0 0E+0 -8.723E+2 0E+0 0E+0
1.000NpO2+ + 1.000SO4-2 = NpO2(SO4)-
log_k 0.440 #01LEM/FUG
delta_h 23.200 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1864.321 #kJ/mol
-analytic 4.50446E+0 0E+0 -1.21182E+3 0E+0 0E+0
1.000NpO2+2 + 2.000SO4-2 = NpO2(SO4)2-2
log_k 4.700 #01LEM/FUG
delta_h 26.000 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -2653.413 #kJ/mol
-analytic 9.255E+0 0E+0 -1.35807E+3 0E+0 0E+0
1.000NpO2+ + 1.000Cl- = NpO2Cl
log_k -0.930 #94NEC/KIM
delta_h 25.972 #kJ/mol
# Enthalpy of formation: -1119.289 #kJ/mol
-analytic 3.62009E+0 0E+0 -1.35661E+3 0E+0 0E+0
1.000NpO2+2 + 1.000Cl- = NpO2Cl+
log_k 0.400 #01LEM/FUG
delta_h 8.387 #kJ/mol
# Enthalpy of formation: -1019.426 #kJ/mol
-analytic 1.86934E+0 0E+0 -4.38083E+2 0E+0 0E+0
1.000NpO2+ + 1.000F- = NpO2F
log_k 1.200 #01LEM/FUG
delta_h 40.768 #kJ/mol
# Enthalpy of formation: -1272.763 #kJ/mol
-analytic 8.34224E+0 0E+0 -2.12946E+3 0E+0 0E+0
1.000NpO2+2 + 1.000F- = NpO2F+
log_k 4.570 #01LEM/FUG
delta_h 1.400 #kJ/mol
# Enthalpy of formation: -1194.683 #kJ/mol
-analytic 4.81527E+0 0E+0 -7.3127E+1 0E+0 0E+0
1.000NpO2+2 + 2.000F- = NpO2F2
log_k 7.600 #01LEM/FUG
delta_h 4.321 #kJ/mol
# Enthalpy of formation: -1527.112 #kJ/mol
-analytic 8.35701E+0 0E+0 -2.25701E+2 0E+0 0E+0
1.000NpO2+2 + 1.000H2(PO4)- = NpO2H2PO4+
log_k 3.320 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.32E+0 0E+0 0E+0 0E+0 0E+0
1.000NpO2+ - 1.000H+ + 1.000H2(PO4)- = NpO2HPO4-
log_k -4.260 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.26E+0 0E+0 0E+0 0E+0 0E+0
1.000Np+3 - 2.000H+ + 1.000H2(PO4)- = NpPO4
log_k -7.830 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.83E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000H2O = OH-
log_k -14.000
delta_h 55.815 #kJ/mol
# Enthalpy of formation: -230.015 #kJ/mol #89COX/WAG
-analytic -4.22165E+0 0E+0 -2.91542E+3 0E+0 0E+0
- 2.000H+ + 1.000H2(PO4)- = PO4-3
log_k -19.560 #89COX/WAG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1284.4 #kJ/mol #89COX/WAG
-analytic -1.956E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Pa+4 + 1.000H2O = Pa(OH)+3
log_k 0.840 #76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.4E-1 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000Pa+4 + 2.000H2O = Pa(OH)2+2
log_k -0.020 #76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2E-2 0E+0 0E+0 0E+0 0E+0
- 3.000H+ + 1.000Pa+4 + 3.000H2O = Pa(OH)3+
log_k -1.500 #76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.5E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000PaO2+ = PaO(OH)+2
log_k 1.250 #Original data 03TRU/LEN and 04FOU/PER
delta_h -5.700 #kJ/mol #03TRU/LEN
# Enthalpy of formation: #kJ/mol
-analytic 2.51404E-1 0E+0 2.97731E+2 0E+0 0E+0
2.000H+ + 1.000SO4-2 + 1.000PaO2+ - 1.000H2O = PaO(SO4)+
log_k 5.130 #07GIA/TRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.13E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 2.000SO4-2 + 1.000PaO2+ - 1.000H2O = PaO(SO4)2-
log_k 8.240 #07GIA/TRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.24E+0 0E+0 0E+0 0E+0 0E+0
2.000H+ + 3.000SO4-2 + 1.000PaO2+ - 1.000H2O = PaO(SO4)3-3
log_k 9.830 #07GIA/TRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.83E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000PaO2+ + 1.000H2O = PaO2(OH)
log_k -7.000 #Original data 03TRU/LEN and 04FOU/PER
delta_h 61.000 #kJ/mol #03TRU/LEN
# Enthalpy of formation: #kJ/mol
-analytic 3.68673E+0 0E+0 -3.18625E+3 0E+0 0E+0
- 2.000H+ + 1.000PaO2+ + 2.000H2O = PaO2(OH)2-
log_k -16.400 #04FOU/PER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.64E+1 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 1.000B(OH)4- = Pb(B(OH)4)+
log_k 5.200 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 3.000B(OH)4- = Pb(B(OH)4)3-
log_k 11.180 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.118E+1 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 1.000CO3-2 = Pb(CO3)
log_k 7.000 #06BLA/PIA
delta_h -3.015 #kJ/mol
# Enthalpy of formation: -677.325 #kJ/mol
-analytic 6.4718E+0 0E+0 1.57484E+2 0E+0 0E+0
1.000Pb+2 + 2.000CO3-2 = Pb(CO3)2-2
log_k 10.130 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.013E+1 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 1.000H2(PO4)- = Pb(H2PO4)+
log_k 1.500 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 2.000HS- = Pb(HS)2
log_k 15.010 #06BLA/PIA
delta_h -65.579 #kJ/mol
# Enthalpy of formation: -97.259 #kJ/mol
-analytic 3.52107E+0 0E+0 3.42542E+3 0E+0 0E+0
1.000Pb+2 + 3.000HS- = Pb(HS)3-
log_k 16.260 #06BLA/PIA
delta_h -73.328 #kJ/mol
# Enthalpy of formation: -121.308 #kJ/mol
-analytic 3.4135E+0 0E+0 3.83018E+3 0E+0 0E+0
1.000Pb+2 + 1.000NO3- = Pb(NO3)+
log_k 1.060 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.06E+0 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 2.000NO3- = Pb(NO3)2
log_k 1.480 #99LOT/OCH
delta_h -11.012 #kJ/mol
# Enthalpy of formation: 401.768 #kJ/mol
-analytic -4.49217E-1 0E+0 5.75196E+2 0E+0 0E+0
1.000Pb+2 - 1.000H+ + 1.000H2O = Pb(OH)+
log_k -7.510 #99LOT/OCH
delta_h 53.920 #kJ/mol
# Enthalpy of formation: -230.99 #kJ/mol
-analytic 1.93636E+0 0E+0 -2.81643E+3 0E+0 0E+0
1.000Pb+2 - 2.000H+ + 2.000H2O = Pb(OH)2
log_k -16.950 #99LOT/OCH
delta_h 97.824 #kJ/mol
# Enthalpy of formation: -472.916 #kJ/mol
-analytic 1.88004E-1 0E+0 -5.1097E+3 0E+0 0E+0
1.000Pb+2 - 3.000H+ + 3.000H2O = Pb(OH)3-
log_k -27.200 #01PER/HEF
delta_h 130.485 #kJ/mol
# Enthalpy of formation: -726.085 #kJ/mol
-analytic -4.34004E+0 0E+0 -6.8157E+3 0E+0 0E+0
1.000Pb+2 - 4.000H+ + 4.000H2O = Pb(OH)4-2
log_k -38.900 #01PER/HEF
delta_h 197.474 #kJ/mol
# Enthalpy of formation: -944.926 #kJ/mol
-analytic -4.30409E+0 0E+0 -1.03148E+4 0E+0 0E+0
1.000Pb+2 + 1.000SO4-2 = Pb(SO4)
log_k 2.820 #99LOT/OCH
delta_h 6.861 #kJ/mol
# Enthalpy of formation: -901.559 #kJ/mol
-analytic 4.02199E+0 0E+0 -3.58374E+2 0E+0 0E+0
1.000Pb+2 + 2.000SO4-2 = Pb(SO4)2-2
log_k 3.470 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.47E+0 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 1.000SeO3-2 = Pb(SeO3)
log_k 5.730 #01SEB/POT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.73E+0 0E+0 0E+0 0E+0 0E+0
2.000Pb+2 - 1.000H+ + 1.000H2O = Pb2(OH)+3
log_k -7.180 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.18E+0 0E+0 0E+0 0E+0 0E+0
4.000Pb+2 - 4.000H+ + 4.000H2O = Pb4(OH)4+4
log_k -20.630 #99LOT/OCH
delta_h 82.038 #kJ/mol
# Enthalpy of formation: -1057.602 #kJ/mol
-analytic -6.25758E+0 0E+0 -4.28514E+3 0E+0 0E+0
6.000Pb+2 - 8.000H+ + 8.000H2O = Pb6(OH)8+4
log_k -42.680 #99LOT/OCH
delta_h 192.157 #kJ/mol
# Enthalpy of formation: -2088.963 #kJ/mol
-analytic -9.01559E+0 0E+0 -1.0037E+4 0E+0 0E+0
1.000Pb+2 + 1.000Br- = PbBr+
log_k 1.700 #82HÖG
delta_h 4.228 #kJ/mol
# Enthalpy of formation: -116.262 #kJ/mol
-analytic 2.44071E+0 0E+0 -2.20843E+2 0E+0 0E+0
1.000Pb+2 + 2.000Br- = PbBr2
log_k 1.900 #82HÖG
delta_h 10.991 #kJ/mol
# Enthalpy of formation: -230.909 #kJ/mol
-analytic 3.82554E+0 0E+0 -5.74099E+2 0E+0 0E+0
1.000Pb+2 + 3.000Br- = PbBr3-
log_k 2.900 #82HÖG
delta_h 10.653 #kJ/mol
# Enthalpy of formation: -352.657 #kJ/mol
-analytic 4.76632E+0 0E+0 -5.56444E+2 0E+0 0E+0
1.000Pb+2 + 1.000Cl- = PbCl+
log_k 1.440 #97SVE/SHO
delta_h 4.318 #kJ/mol
# Enthalpy of formation: -161.842 #kJ/mol
-analytic 2.19648E+0 0E+0 -2.25545E+2 0E+0 0E+0
1.000Pb+2 + 2.000Cl- = PbCl2
log_k 2.000 #97SVE/SHO
delta_h 7.949 #kJ/mol
# Enthalpy of formation: -325.291 #kJ/mol
-analytic 3.3926E+0 0E+0 -4.15205E+2 0E+0 0E+0
1.000Pb+2 + 3.000Cl- = PbCl3-
log_k 1.690 #97SVE/SHO
delta_h 7.813 #kJ/mol
# Enthalpy of formation: -492.507 #kJ/mol
-analytic 3.05878E+0 0E+0 -4.08101E+2 0E+0 0E+0
1.000Pb+2 + 4.000Cl- = PbCl4-2
log_k 1.400 #97SVE/SHO
delta_h 1.323 #kJ/mol
# Enthalpy of formation: -666.077 #kJ/mol
-analytic 1.63178E+0 0E+0 -6.9105E+1 0E+0 0E+0
1.000Pb+2 + 1.000F- = PbF+
log_k 2.270 #99LOT/OCH
delta_h -4.054 #kJ/mol
# Enthalpy of formation: -338.484 #kJ/mol
-analytic 1.55977E+0 0E+0 2.11755E+2 0E+0 0E+0
1.000Pb+2 + 2.000F- = PbF2
log_k 3.010 #99LOT/OCH
delta_h -8.881 #kJ/mol
# Enthalpy of formation: -678.661 #kJ/mol
-analytic 1.45412E+0 0E+0 4.63886E+2 0E+0 0E+0
1.000Pb+2 - 1.000H+ + 1.000H2(PO4)- = PbHPO4
log_k -4.110 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.11E+0 0E+0 0E+0 0E+0 0E+0
1.000Pb+2 + 1.000I- = PbI+
log_k 1.980 #82HÖG
delta_h 3.874 #kJ/mol
# Enthalpy of formation: -51.986 #kJ/mol
-analytic 2.65869E+0 0E+0 -2.02353E+2 0E+0 0E+0
1.000Pb+2 + 2.000I- = PbI2
log_k 3.150 #82HÖG
delta_h 7.106 #kJ/mol
# Enthalpy of formation: -105.534 #kJ/mol
-analytic 4.39492E+0 0E+0 -3.71172E+2 0E+0 0E+0
1.000Pb+2 + 3.000I- = PbI3-
log_k 3.810 #82HÖG
delta_h 3.163 #kJ/mol
# Enthalpy of formation: -166.257 #kJ/mol
-analytic 4.36413E+0 0E+0 -1.65215E+2 0E+0 0E+0
1.000Pb+2 + 4.000I- = PbI4-2
log_k 3.750 #82HÖG
delta_h -15.561 #kJ/mol
# Enthalpy of formation: -241.761 #kJ/mol
-analytic 1.02383E+0 0E+0 8.12806E+2 0E+0 0E+0
1.000Pb+2 + 1.000Pyrophos-4 = PbPyrophos-2
log_k 8.330
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.33E+0 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 1.000CO3-2 = Pd(CO3)
log_k 6.830 #87BRO/WAN
delta_h -8.829 #kJ/mol
# Enthalpy of formation: -494.175 #kJ/mol
-analytic 5.28323E+0 0E+0 4.6117E+2 0E+0 0E+0
1.000Pd+2 + 2.000CO3-2 = Pd(CO3)2-2
log_k 12.530 #87BRO/WAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.253E+1 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 1.000NH3 = Pd(NH3)+2
log_k 9.600 #68RAS/JOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 2.000NH3 = Pd(NH3)2+2
log_k 18.500 #68RAS/JOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.85E+1 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 3.000NH3 = Pd(NH3)3+2
log_k 26.000 #68RAS/JOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.6E+1 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 4.000NH3 = Pd(NH3)4+2
log_k 32.800 #68RAS/JOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.28E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Pd+2 + 1.000H2O = Pd(OH)+
log_k -1.860 #70NAB/KAL
delta_h 11.900 #kJ/mol
# Enthalpy of formation: -84.047 #kJ/mol
-analytic 2.24787E-1 0E+0 -6.21579E+2 0E+0 0E+0
- 2.000H+ + 1.000Pd+2 + 2.000H2O = Pd(OH)2
log_k -3.790 #70NAB/KAL
delta_h 15.293 #kJ/mol
# Enthalpy of formation: -366.483 #kJ/mol
-analytic -1.11079E+0 0E+0 -7.98808E+2 0E+0 0E+0
- 3.000H+ + 1.000Pd+2 + 3.000H2O = Pd(OH)3-
log_k -15.930 #70NAB/KAL
delta_h 54.863 #kJ/mol
# Enthalpy of formation: -612.744 #kJ/mol
-analytic -6.31843E+0 0E+0 -2.86569E+3 0E+0 0E+0
- 4.000H+ + 1.000Pd+2 + 4.000H2O = Pd(OH)4-2
log_k -29.360 #70NAB/KAL
delta_h 118.563 #kJ/mol
# Enthalpy of formation: -834.874 #kJ/mol
-analytic -8.58868E+0 0E+0 -6.19297E+3 0E+0 0E+0
1.000Pd+2 + 1.000SO4-2 = Pd(SO4)
log_k 2.910 #87BRO/WAN
delta_h 4.596 #kJ/mol
# Enthalpy of formation: -714.86 #kJ/mol
-analytic 3.71518E+0 0E+0 -2.40065E+2 0E+0 0E+0
1.000Pd+2 + 2.000SO4-2 = Pd(SO4)2-2
log_k 4.170 #82HOG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.17E+0 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 1.000Br- = PdBr+
log_k 5.770 #72ELD
delta_h -30.140 #kJ/mol
# Enthalpy of formation: 38.344 #kJ/mol
-analytic 4.89706E-1 0E+0 1.57432E+3 0E+0 0E+0
1.000Pd+2 + 2.000Br- = PdBr2
log_k 10.060 #72ELD
delta_h -57.708 #kJ/mol
# Enthalpy of formation: -110.645 #kJ/mol
-analytic -4.99928E-2 0E+0 3.01429E+3 0E+0 0E+0
1.000Pd+2 + 3.000Br- = PdBr3-
log_k 13.750 #72ELD
delta_h -92.385 #kJ/mol
# Enthalpy of formation: -266.731 #kJ/mol
-analytic -2.43513E+0 0E+0 4.8256E+3 0E+0 0E+0
1.000Pd+2 + 4.000Br- = PdBr4-2
log_k 15.110 #72ELD
delta_h -126.683 #kJ/mol
# Enthalpy of formation: -422.439 #kJ/mol
-analytic -7.08388E+0 0E+0 6.6171E+3 0E+0 0E+0
1.000Pd+2 + 1.000Cl- = PdCl+
log_k 5.100 #99LOT/OCH
delta_h -24.542 #kJ/mol
# Enthalpy of formation: -1.739 #kJ/mol
-analytic 8.00432E-1 0E+0 1.28192E+3 0E+0 0E+0
1.000Pd+2 + 2.000Cl- = PdCl2
log_k 8.300 #99LOT/OCH
delta_h -47.297 #kJ/mol
# Enthalpy of formation: -191.573 #kJ/mol
-analytic 1.39334E-2 0E+0 2.47049E+3 0E+0 0E+0
- 1.000H+ + 1.000Pd+2 + 3.000Cl- + 1.000H2O = PdCl3(OH)-2
log_k 2.310 #00BYR/YAO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.31E+0 0E+0 0E+0 0E+0 0E+0
1.000Pd+2 + 3.000Cl- = PdCl3-
log_k 10.900 #99LOT/OCH
delta_h -77.344 #kJ/mol
# Enthalpy of formation: -388.7 #kJ/mol
-analytic -2.65007E+0 0E+0 4.03995E+3 0E+0 0E+0
1.000Pd+2 + 4.000Cl- = PdCl4-2
log_k 11.700 #99LOT/OCH
delta_h -112.469 #kJ/mol
# Enthalpy of formation: -590.906 #kJ/mol
-analytic -8.00369E+0 0E+0 5.87466E+3 0E+0 0E+0
1.000Pd+2 + 1.000I- = PdI+
log_k 10.400 #89BAE/McK
delta_h -58.201 #kJ/mol
# Enthalpy of formation: 74.902 #kJ/mol
-analytic 2.03637E-1 0E+0 3.04005E+3 0E+0 0E+0
1.000Pd+2 + 2.000I- = PdI2
log_k 14.500 #97BOU
delta_h -83.420 #kJ/mol
# Enthalpy of formation: -7.096 #kJ/mol
-analytic -1.14535E-1 0E+0 4.35732E+3 0E+0 0E+0
1.000Pd+2 + 3.000I- = PdI3-
log_k 18.600 #97BOU
delta_h -121.750 #kJ/mol
# Enthalpy of formation: -102.207 #kJ/mol
-analytic -2.72965E+0 0E+0 6.35944E+3 0E+0 0E+0
1.000Pd+2 + 4.000I- = PdI4-2
log_k 24.640
delta_h -190.052 #kJ/mol
# Enthalpy of formation: -227.288 #kJ/mol
-analytic -8.65563E+0 0E+0 9.92709E+3 0E+0 0E+0
1.000Pu+3 + 1.000Acetate- = Pu(Acetate)+2
log_k 2.850 #69MOS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.85E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000Acetate- = Pu(Acetate)+3
log_k 5.930 #62SCH/NEB
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.93E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 2.000Acetate- = Pu(Acetate)2+
log_k 5.060 #69MOS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.06E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 2.000Acetate- = Pu(Acetate)2+2
log_k 10.090 #62SCH/NEB
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.009E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 3.000Acetate- = Pu(Acetate)3
log_k 6.570 #69MOS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.57E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000CO3-2 = Pu(CO3)+
log_k 7.640 #Estimated by correlation with An(III) in function of ionic radii
delta_h 152.754 #kJ/mol
# Enthalpy of formation: -1114.266 #kJ/mol
-analytic 3.44013E+1 0E+0 -7.97889E+3 0E+0 0E+0
1.000Pu+4 - 2.000H+ + 2.000CO3-2 + 2.000H2O = Pu(CO3)2(OH)2-2
log_k 16.760 #99RAI/HES1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.676E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 2.000CO3-2 = Pu(CO3)2-
log_k 12.540 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.254E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 3.000CO3-2 = Pu(CO3)3-3
log_k 16.400 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.64E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 4.000CO3-2 = Pu(CO3)4-4
log_k 37.000 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.7E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 5.000CO3-2 = Pu(CO3)5-6
log_k 35.650 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.565E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000Edta-4 = Pu(Edta)
log_k 31.800
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.18E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000Edta-4 = Pu(Edta)-
log_k 20.180 #05HUM/AND
delta_h -8.700 #kJ/mol
# Enthalpy of formation: -2305.29 #kJ/mol
-analytic 1.86558E+1 0E+0 4.54432E+2 0E+0 0E+0
1.000Pu+3 + 1.000H2(PO4)- = Pu(H2PO4)+2
log_k 2.200 #10RAI/MOO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.2E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000H+ + 1.000Edta-4 = Pu(HEdta)
log_k 22.020 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.202E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 - 1.000H+ + 1.000H2(PO4)- = Pu(HPO4)+
log_k -1.820 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.82E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 - 2.000H+ + 2.000H2(PO4)- = Pu(HPO4)2-
log_k -5.460 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.46E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000NO3- = Pu(NO3)+2
log_k 1.330 #95SIL/BID, LogK selected in analogy to Am (NEA recommendation 95SIL/BID)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.33E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000NO3- = Pu(NO3)+3
log_k 1.950 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.95E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000Nta-3 = Pu(Nta)
log_k 13.100 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.31E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000Nta-3 = Pu(Nta)+
log_k 21.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.1E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 - 1.000H+ + 1.000H2O = Pu(OH)+2
log_k -6.900 #01LEM/FUG
delta_h 78.274 #kJ/mol
# Enthalpy of formation: -799.346 #kJ/mol
-analytic 6.813E+0 0E+0 -4.08853E+3 0E+0 0E+0
1.000Pu+4 - 1.000H+ + 1.000H2O = Pu(OH)+3
log_k 0.600 #99NEC, 01NEC/KIM, 03GUI/FAN
delta_h 36.000 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -789.725 #kJ/mol
-analytic 6.90692E+0 0E+0 -1.88041E+3 0E+0 0E+0
1.000Pu+3 - 2.000H+ + 2.000H2O = Pu(OH)2+
log_k -15.900 #80ALL/KIP
delta_h 150.342 #kJ/mol
# Enthalpy of formation: -1013.108 #kJ/mol
-analytic 1.04387E+1 0E+0 -7.8529E+3 0E+0 0E+0
1.000Pu+4 - 2.000H+ + 2.000H2O = Pu(OH)2+2
log_k 0.600 #99NEC, 01NEC/KIM, 03GUI/FAN
delta_h 49.569 #kJ/mol
# Enthalpy of formation: -1061.986 #kJ/mol
-analytic 9.2841E+0 0E+0 -2.58917E+3 0E+0 0E+0
1.000Pu+3 - 3.000H+ + 3.000H2O = Pu(OH)3
log_k -25.300 #80ALL/KIP
delta_h 227.540 #kJ/mol
# Enthalpy of formation: -1221.74 #kJ/mol
-analytic 1.45632E+1 0E+0 -1.18852E+4 0E+0 0E+0
1.000Pu+4 - 3.000H+ + 1.000HGlu- + 3.000H2O = Pu(OH)3(HGlu)
log_k 4.750 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.75E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 - 3.000H+ + 1.000HIsa- + 3.000H2O = Pu(OH)3(HIsa)
log_k 4.750 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.75E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 - 3.000H+ + 2.000HIsa- + 3.000H2O = Pu(OH)3(HIsa)2-
log_k 6.860 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.86E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 - 3.000H+ + 3.000H2O = Pu(OH)3+
log_k -2.300 #99NEC, 01NEC/KIM, 03GUI/FAN
delta_h 68.543 #kJ/mol
# Enthalpy of formation: -1328.842 #kJ/mol
-analytic 9.7082E+0 0E+0 -3.58024E+3 0E+0 0E+0
1.000Pu+4 - 4.000H+ + 4.000H2O = Pu(OH)4
log_k -8.500 #03GUI/FAN
delta_h 99.049 #kJ/mol
# Enthalpy of formation: -1584.166 #kJ/mol
-analytic 8.85261E+0 0E+0 -5.17368E+3 0E+0 0E+0
1.000Pu+4 - 4.000H+ + 1.000HGlu- + 4.000H2O = Pu(OH)4(HGlu)-
log_k -2.700 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 - 4.000H+ + 1.000HIsa- + 4.000H2O = Pu(OH)4(HIsa)-
log_k -3.600 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 - 4.000H+ + 2.000HIsa- + 4.000H2O = Pu(OH)4(HIsa)2-2
log_k 0.700 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7E-1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000Ox-2 = Pu(Ox)+2
log_k 11.400 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.14E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 2.000Ox-2 = Pu(Ox)2
log_k 20.600 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.06E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 2.000Ox-2 = Pu(Ox)2-
log_k 10.620 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.062E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 3.000Ox-2 = Pu(Ox)3-2
log_k 25.690 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.569E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 3.000Ox-2 = Pu(Ox)3-3
log_k 13.220 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.322E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 - 4.000H+ + 2.000H2(PO4)- = Pu(PO4)2-3
log_k -19.730 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.973E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000SO4-2 = Pu(SO4)+
log_k 3.910 #01LEM/FUG
delta_h 17.240 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1483.89 #kJ/mol
-analytic 6.93031E+0 0E+0 -9.00507E+2 0E+0 0E+0
1.000Pu+4 + 1.000SO4-2 = Pu(SO4)+2
log_k 6.890 #01LEM/FUG
delta_h 13.753 #kJ/mol
# Enthalpy of formation: -1435.482 #kJ/mol
-analytic 9.29942E+0 0E+0 -7.18368E+2 0E+0 0E+0
1.000Pu+4 + 2.000SO4-2 = Pu(SO4)2
log_k 11.140 #01LEM/FUG
delta_h 43.906 #kJ/mol
# Enthalpy of formation: -2314.669 #kJ/mol
-analytic 1.8832E+1 0E+0 -2.29337E+3 0E+0 0E+0
1.000Pu+3 + 2.000SO4-2 = Pu(SO4)2-
log_k 5.700 #01LEM/FUG
delta_h 11.880 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -2398.59 #kJ/mol
-analytic 7.78128E+0 0E+0 -6.20535E+2 0E+0 0E+0
1.000Pu+4 + 1.000Br- = PuBr+3
log_k 1.600 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000Cl- = PuCl+3
log_k 1.800 #01LEM/FUG
delta_h 19.820 #kJ/mol
# Enthalpy of formation: -687.155 #kJ/mol
-analytic 5.27231E+0 0E+0 -1.03527E+3 0E+0 0E+0
1.000Pu+4 + 1.000F- = PuF+3
log_k 8.840 #01LEM/FUG
delta_h 9.100 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -866.145 #kJ/mol
-analytic 1.04342E+1 0E+0 -4.75325E+2 0E+0 0E+0
1.000Pu+4 + 2.000F- = PuF2+2
log_k 15.700 #01LEM/FUG
delta_h 11.000 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1199.595 #kJ/mol
-analytic 1.76271E+1 0E+0 -5.74569E+2 0E+0 0E+0
1.000Pu+4 + 3.000F- = PuF3+
log_k 20.110 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.011E+1 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000H+ + 1.000H2(PO4)- = PuH3PO4+4
log_k 4.540 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.54E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 + 1.000I- = PuI+2
log_k 1.100 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+4 + 1.000I- = PuI+3
log_k 1.620
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.62E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000Acetate- = PuO2(Acetate)+
log_k 2.870 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.87E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 2.000Acetate- = PuO2(Acetate)2
log_k 4.770 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.77E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 3.000Acetate- = PuO2(Acetate)3-
log_k 6.190 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.19E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000CO3-2 = PuO2(CO3)
log_k 9.500 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.5E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 2.000CO3-2 = PuO2(CO3)2-2
log_k 14.700 #03GUI/FAN
delta_h -27.000 #kJ/mol #03GUI/FAN
# Enthalpy of formation: -2199.496 #kJ/mol
-analytic 9.96981E+0 0E+0 1.41031E+3 0E+0 0E+0
1.000PuO2+2 + 3.000CO3-2 = PuO2(CO3)3-4
log_k 18.000 #03GUI/FAN
delta_h -38.600 #kJ/mol #03GUI/FAN
# Enthalpy of formation: -2886.326 #kJ/mol
-analytic 1.12376E+1 0E+0 2.01622E+3 0E+0 0E+0
1.000PuO2+ + 3.000CO3-2 = PuO2(CO3)3-5
log_k 5.030
delta_h -19.110 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -2954.927 #kJ/mol
-analytic 1.68208E+0 0E+0 9.98183E+2 0E+0 0E+0
2.000UO2+2 + 1.000PuO2+2 + 6.000CO3-2 = PuO2(CO3)6(UO2)2-6
log_k 53.480 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.348E+1 0E+0 0E+0 0E+0 0E+0
1.000PuO2+ - 1.000H+ + 1.000H2(PO4)- = PuO2(HPO4)-
log_k -4.860 #NEA Guidelines in 01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.86E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000Nta-3 = PuO2(Nta)-
log_k 11.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1E+1 0E+0 0E+0 0E+0 0E+0
1.000PuO2+ + 1.000Nta-3 = PuO2(Nta)-2
log_k 7.500 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.5E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 - 1.000H+ + 1.000H2O = PuO2(OH)+
log_k -5.500 #01LEM/FUG
delta_h 28.000 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1079.866 #kJ/mol
-analytic -5.94618E-1 0E+0 -1.46254E+3 0E+0 0E+0
1.000PuO2+2 - 2.000H+ + 2.000H2O = PuO2(OH)2
log_k -13.200 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.32E+1 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 - 1.000H+ + 1.000H4(SiO4) = PuO2(OSi(OH)3)+
log_k -3.640 #03YUS/FED
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.64E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000Ox-2 = PuO2(Ox)
log_k 7.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 2.000Ox-2 = PuO2(Ox)2-2
log_k 10.500 #73POR/DEP in 95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.05E+1 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000Phthalat-2 = PuO2(Phthalat)
log_k 5.760 #11GRI/COL3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.76E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000SO4-2 = PuO2(SO4)
log_k 3.380 #01LEM/FUG
delta_h 16.100 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -1715.276 #kJ/mol
-analytic 6.20059E+0 0E+0 -8.4096E+2 0E+0 0E+0
1.000PuO2+ + 1.000SO4-2 = PuO2(SO4)-
log_k 0.440 #Duro et al. (2006), In analogy to NpO2(SO4)-
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.4E-1 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 2.000SO4-2 = PuO2(SO4)2-2
log_k 4.400 #01LEM/FUG
delta_h 43.000 #kJ/mol #01LEM/FUG
# Enthalpy of formation: -2597.716 #kJ/mol
-analytic 1.19333E+1 0E+0 -2.24604E+3 0E+0 0E+0
1.000PuO2+ + 1.000CO3-2 = PuO2CO3-
log_k 5.120 #01LEM/FUG
delta_h 44.874 #kJ/mol
# Enthalpy of formation: -1540.483 #kJ/mol
-analytic 1.29816E+1 0E+0 -2.34393E+3 0E+0 0E+0
1.000PuO2+2 + 1.000Cl- = PuO2Cl+
log_k 0.230 #03GUI/FAN
delta_h 4.187 #kJ/mol
# Enthalpy of formation: -984.929 #kJ/mol
-analytic 9.6353E-1 0E+0 -2.18702E+2 0E+0 0E+0
1.000PuO2+2 + 2.000Cl- = PuO2Cl2
log_k -1.150 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.15E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+ + 1.000F- = PuO2F
log_k 1.200 #In analogy to NpO2)F
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.2E+0 0E+0 0E+0 0E+0 0E+0
1.000PuO2+2 + 1.000F- = PuO2F+
log_k 4.560 #01LEM/FUG
delta_h -3.653 #kJ/mol
# Enthalpy of formation: -1161.039 #kJ/mol
-analytic 3.92002E+0 0E+0 1.90809E+2 0E+0 0E+0
1.000PuO2+2 + 2.000F- = PuO2F2
log_k 7.250 #01LEM/FUG
delta_h 1.208 #kJ/mol
# Enthalpy of formation: -1491.528 #kJ/mol
-analytic 7.46163E+0 0E+0 -6.30981E+1 0E+0 0E+0
1.000PuO2+2 + 3.000F- = PuO2F3-
log_k 9.590 #85SAW/CHA
delta_h 2.401 #kJ/mol
# Enthalpy of formation: -1825.685 #kJ/mol
-analytic 1.00106E+1 0E+0 -1.25413E+2 0E+0 0E+0
1.000PuO2+2 + 1.000NO3- = PuO2NO3+
log_k 0.100 #12GRI/GAR1 (LogK selected in analogy to U (NEA recommendation), logK(UO2NO3 +))
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1E-1 0E+0 0E+0 0E+0 0E+0
1.000PuO2+ - 1.000H+ + 1.000H2O = PuO2OH
log_k -11.300 #01LEM/FUG
delta_h 71.826 #kJ/mol
# Enthalpy of formation: -1124.131 #kJ/mol
-analytic 1.28336E+0 0E+0 -3.75173E+3 0E+0 0E+0
1.000Pu+3 + 1.000Ox-2 = PuOx+
log_k 6.490 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.49E+0 0E+0 0E+0 0E+0 0E+0
1.000Pu+3 - 2.000H+ + 1.000H2(PO4)- = PuPO4
log_k -7.920 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.92E+0 0E+0 0E+0 0E+0 0E+0
1.000Ra+2 + 1.000CO3-2 = Ra(CO3)
log_k 2.500 #99SCH
delta_h 4.496 #kJ/mol
# Enthalpy of formation: -1198.76 #kJ/mol
-analytic 3.28766E+0 0E+0 -2.34842E+2 0E+0 0E+0
1.000H+ + 1.000Ra+2 + 1.000CO3-2 = Ra(HCO3)+
log_k 10.920 #02ILE/TWE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.092E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Ra+2 + 1.000H2O = Ra(OH)+
log_k -13.490
delta_h 60.417 #kJ/mol #85LAN/RIE
# Enthalpy of formation: -753.438 #kJ/mol
-analytic -2.90541E+0 0E+0 -3.1558E+3 0E+0 0E+0
- 2.000H+ + 1.000Ra+2 + 2.000H2O = Ra(OH)2
log_k -28.070
delta_h 112.197 #kJ/mol
# Enthalpy of formation: -987.488 #kJ/mol
-analytic -8.41396E+0 0E+0 -5.86045E+3 0E+0 0E+0
1.000Ra+2 + 1.000SO4-2 = Ra(SO4)
log_k 2.760
delta_h 5.481 #kJ/mol
# Enthalpy of formation: -1431.884 #kJ/mol
-analytic 3.72023E+0 0E+0 -2.86292E+2 0E+0 0E+0
1.000Ra+2 + 1.000Cl- = RaCl+
log_k -0.100 #85LAN/RIE
delta_h 2.479 #kJ/mol
# Enthalpy of formation: -692.626 #kJ/mol
-analytic 3.34302E-1 0E+0 -1.29487E+2 0E+0 0E+0
1.000Ra+2 + 2.000Cl- = RaCl2
log_k -0.100
delta_h 0.496 #kJ/mol
# Enthalpy of formation: -861.689 #kJ/mol
-analytic -1.31047E-2 0E+0 -2.59078E+1 0E+0 0E+0
1.000Ra+2 + 1.000F- = RaF+
log_k 0.480 #87BRO/WAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.8E-1 0E+0 0E+0 0E+0 0E+0
1.000Br- + 1.000Rb+ = RbBr
log_k -1.240
delta_h 13.836 #kJ/mol
# Enthalpy of formation: -358.694 #kJ/mol #97SVE/SHO
-analytic 1.18396E+0 0E+0 -7.22704E+2 0E+0 0E+0
1.000Cl- + 1.000Rb+ = RbCl
log_k -1.010
delta_h 13.189 #kJ/mol
# Enthalpy of formation: -405.011 #kJ/mol #97SVE/SHO
-analytic 1.30061E+0 0E+0 -6.88908E+2 0E+0 0E+0
1.000F- + 1.000Rb+ = RbF
log_k 0.940
delta_h 1.923 #kJ/mol
# Enthalpy of formation: -584.547 #kJ/mol #97SVE/SHO
-analytic 1.27689E+0 0E+0 -1.00445E+2 0E+0 0E+0
1.000I- + 1.000Rb+ = RbI
log_k -0.840
delta_h 6.987 #kJ/mol
# Enthalpy of formation: -300.913 #kJ/mol #97SVE/SHO
-analytic 3.84068E-1 0E+0 -3.64956E+2 0E+0 0E+0
- 1.000H+ + 1.000Rb+ + 1.000H2O = RbOH
log_k -14.260
delta_h 64.158 #kJ/mol
# Enthalpy of formation: -472.792 #kJ/mol #97SHO/SAS2
-analytic -3.02002E+0 0E+0 -3.3512E+3 0E+0 0E+0
- 1.000H+ + 1.000HS- = S-2
log_k -17.100 #04CHI
delta_h 73.278 #kJ/mol
# Enthalpy of formation: 56.978 #kJ/mol
-analytic -4.26226E+0 0E+0 -3.82757E+3 0E+0 0E+0
2.000HS- - 1.000H2O + 0.500O2 = S2-2
log_k 32.450
delta_h -212.123 #kJ/mol
# Enthalpy of formation: 35.04 #kJ/mol #04CHI
-analytic -4.7123E+0 0E+0 1.10799E+4 0E+0 0E+0
-mass_balance S(-2)2
2.000H+ + 2.000SO3-2 - 1.000H2O = S2O5-2
log_k 12.850 #85GOL/PAR
delta_h 2.606 #kJ/mol
# Enthalpy of formation: -973.684 #kJ/mol
-analytic 1.33066E+1 0E+0 -1.36121E+2 0E+0 0E+0
2.000SO4-2 - 1.000H2O + 2.000H+ + 0.500O2 = S2O8-2
log_k -22.390
delta_h 194.217 #kJ/mol
# Enthalpy of formation: -1344.7 #kJ/mol #82WAG/EVA
-analytic 1.16353E+1 0E+0 -1.01446E+4 0E+0 0E+0
1.000H+ + 3.000HS- - 2.000H2O + 1.000O2 = S3-2
log_k 79.470
delta_h -484.686 #kJ/mol
# Enthalpy of formation: 25.94 #kJ/mol #74NAU/RYZ
-analytic -5.44322E+0 0E+0 2.53169E+4 0E+0 0E+0
-mass_balance S(-2)3
4.000H+ + 3.000SO3-2 - 2.000H2O - 0.500O2 = S3O6-2
log_k -6.170
delta_h 148.117 #kJ/mol
# Enthalpy of formation: -1167.336 #kJ/mol #04CHI
-analytic 1.97789E+1 0E+0 -7.73668E+3 0E+0 0E+0
2.000H+ + 4.000HS- - 3.000H2O + 1.500O2 = S4-2
log_k 125.390
delta_h -751.079 #kJ/mol
# Enthalpy of formation: 23.01 #kJ/mol #74NAU/RYZ
-analytic -6.1932E+0 0E+0 3.92315E+4 0E+0 0E+0
-mass_balance S(-2)4
6.000H+ + 4.000SO3-2 - 3.000H2O - 1.500O2 = S4O6-2
log_k -38.170
delta_h 424.311 #kJ/mol
# Enthalpy of formation: -1224.238 #kJ/mol #04CHI
-analytic 3.6166E+1 0E+0 -2.21633E+4 0E+0 0E+0
3.000H+ + 5.000HS- - 4.000H2O + 2.000O2 = S5-2
log_k 171.090
delta_h -1016.212 #kJ/mol
# Enthalpy of formation: 21.34 #kJ/mol #74NAU/RYZ
-analytic -6.94244E+0 0E+0 5.30804E+4 0E+0 0E+0
-mass_balance S(-2)5
8.000H+ + 5.000SO3-2 - 4.000H2O - 2.500O2 = S5O6-2
log_k -99.570
delta_h 805.941 #kJ/mol
# Enthalpy of formation: -1175.704 #kJ/mol #04CHI
-analytic 4.16246E+1 0E+0 -4.20972E+4 0E+0 0E+0
-mass_balance S(2)5
2.000H+ + 1.000SO3-2 - 1.000H2O = SO2
log_k 9.030
delta_h 21.450 #kJ/mol
# Enthalpy of formation: -323.78 #kJ/mol #85GOL/PAR
-analytic 1.27879E+1 0E+0 -1.12041E+3 0E+0 0E+0
2.000H+ + 1.000Sb(OH)3 - 2.000H2O = Sb(OH)+2
log_k 0.740 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.4E-1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Sb(OH)3 - 1.000H2O = Sb(OH)2+
log_k 1.330 #77ANT/NEV and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.33E+0 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Sb(OH)5 - 1.000H2O = Sb(OH)4+
log_k -3.260 #57PIT/POU in 99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.26E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Sb(OH)3 + 1.000H2O = Sb(OH)4-
log_k -11.820 #52GAY/GAR recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.182E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Sb(OH)5 + 1.000H2O = Sb(OH)6-
log_k -2.720 #63LEF/MAR in 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.72E+0 0E+0 0E+0 0E+0 0E+0
3.000H+ + 1.000Sb(OH)3 - 3.000H2O = Sb+3
log_k -0.730 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.3E-1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 12.000Sb(OH)5 + 4.000H2O = Sb12(OH)64-4
log_k 20.340 #63LEF/MAR in 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.034E+1 0E+0 0E+0 0E+0 0E+0
- 5.000H+ + 12.000Sb(OH)5 + 5.000H2O = Sb12(OH)65-5
log_k 16.720 #63LEF/MAR in 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.672E+1 0E+0 0E+0 0E+0 0E+0
- 6.000H+ + 12.000Sb(OH)5 + 6.000H2O = Sb12(OH)66-6
log_k 11.890 #63LEF/MAR in 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.189E+1 0E+0 0E+0 0E+0 0E+0
- 7.000H+ + 12.000Sb(OH)5 + 7.000H2O = Sb12(OH)67-7
log_k 6.070 #63LEF/MAR in 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.07E+0 0E+0 0E+0 0E+0 0E+0
4.000H+ + 4.000HS- + 2.000Sb(OH)3 - 6.000H2O = Sb2H2S4
log_k 57.810 #88KRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.781E+1 0E+0 0E+0 0E+0 0E+0
3.000H+ + 4.000HS- + 2.000Sb(OH)3 - 6.000H2O = Sb2HS4-
log_k 52.900 #88KRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.29E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 4.000HS- + 2.000Sb(OH)3 - 6.000H2O = Sb2S4-2
log_k 43.380 #88KRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.338E+1 0E+0 0E+0 0E+0 0E+0
3.000H+ + 1.000Cl- + 1.000Sb(OH)3 - 3.000H2O = SbCl+2
log_k 2.800 #70BON/WAU and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.8E+0 0E+0 0E+0 0E+0 0E+0
3.000H+ + 2.000Cl- + 1.000Sb(OH)3 - 3.000H2O = SbCl2+
log_k 3.270 #70BON/WAU and others recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.27E+0 0E+0 0E+0 0E+0 0E+0
3.000H+ + 1.000F- + 1.000Sb(OH)3 - 3.000H2O = SbF+2
log_k 6.370 #70BON recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.37E+0 0E+0 0E+0 0E+0 0E+0
3.000H+ + 2.000F- + 1.000Sb(OH)3 - 3.000H2O = SbF2+
log_k 12.420 #70BON recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.242E+1 0E+0 0E+0 0E+0 0E+0
3.000H+ + 3.000F- + 1.000Sb(OH)3 - 3.000H2O = SbF3
log_k 18.200 #70BON recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.82E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000HSe- = Se-2
log_k -14.910
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.491E+1 0E+0 0E+0 0E+0 0E+0
2.000HSe- - 1.000H2O + 0.500O2 = Se2-2
log_k 38.490 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.849E+1 0E+0 0E+0 0E+0 0E+0
1.000H+ + 3.000HSe- - 2.000H2O + 1.000O2 = Se3-2
log_k 91.220 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.122E+1 0E+0 0E+0 0E+0 0E+0
2.000H+ + 4.000HSe- - 3.000H2O + 1.500O2 = Se4-2
log_k 142.350 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.4235E+2 0E+0 0E+0 0E+0 0E+0
1.000H+ + 1.000Cn- + 1.000HSe- - 1.000H2O + 0.500O2 = SeCn-
log_k 56.020
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.602E+1 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 2.000H4(SiO4) - 1.000H2O = Si2O2(OH)5-
log_k -8.500 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.5E+0 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 2.000H4(SiO4) - 1.000H2O = Si2O3(OH)4-2
log_k -19.400 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.94E+1 0E+0 0E+0 0E+0 0E+0
- 3.000H+ + 3.000H4(SiO4) - 2.000H2O = Si3O5(OH)5-3
log_k -29.400 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.94E+1 0E+0 0E+0 0E+0 0E+0
- 3.000H+ + 3.000H4(SiO4) - 3.000H2O = Si3O6(OH)3-3
log_k -29.300 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.93E+1 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 4.000H4(SiO4) - 4.000H2O = Si4O6(OH)6-2
log_k -15.600 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.56E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 4.000H4(SiO4) - 3.000H2O = Si4O7(OH)6-4
log_k -39.100 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.91E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 4.000H4(SiO4) - 4.000H2O = Si4O8(OH)4-4
log_k -39.200 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.92E+1 0E+0 0E+0 0E+0 0E+0
- 6.000H+ + 6.000H4(SiO4) - 9.000H2O = Si6O15-6
log_k -61.800 #01FEL/CHO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.18E+1 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 + 1.000CO3-2 = Sm(CO3)+
log_k 7.800 #95SPA/BRU
delta_h 163.392 #kJ/mol
# Enthalpy of formation: -1203.037 #kJ/mol
-analytic 3.6425E+1 0E+0 -8.53455E+3 0E+0 0E+0
1.000Sm+3 + 2.000CO3-2 = Sm(CO3)2-
log_k 12.800 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.28E+1 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 + 3.000CO3-2 = Sm(CO3)3-3
log_k 14.800 #05VER/VIT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.48E+1 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 + 1.000H2(PO4)- = Sm(H2PO4)+2
log_k 2.350 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.35E+0 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 + 1.000H+ + 1.000CO3-2 = Sm(HCO3)+2
log_k 12.430 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.243E+1 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 - 1.000H+ + 1.000H2(PO4)- = Sm(HPO4)+
log_k -1.610 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.61E+0 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 - 2.000H+ + 2.000H2(PO4)- = Sm(HPO4)2-
log_k -5.020 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.02E+0 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 + 1.000NO3- = Sm(NO3)+2
log_k 0.900 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9E-1 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 - 1.000H+ + 1.000H2O = Sm(OH)+2
log_k -7.900 #95SPA/BRU
delta_h 81.304 #kJ/mol
# Enthalpy of formation: -895.725 #kJ/mol
-analytic 6.34383E+0 0E+0 -4.2468E+3 0E+0 0E+0
1.000Sm+3 - 2.000H+ + 2.000H2O = Sm(OH)2+
log_k -15.700 #07NEC/ALT2
delta_h 145.698 #kJ/mol
# Enthalpy of formation: -1117.161 #kJ/mol
-analytic 9.82516E+0 0E+0 -7.61033E+3 0E+0 0E+0
1.000Sm+3 - 3.000H+ + 3.000H2O = Sm(OH)3
log_k -26.200 #07NEC/ALT2
delta_h 228.395 #kJ/mol
# Enthalpy of formation: -1320.294 #kJ/mol
-analytic 1.3813E+1 0E+0 -1.19299E+4 0E+0 0E+0
1.000Sm+3 - 4.000H+ + 4.000H2O = Sm(OH)4-
log_k -40.700 #07NEC/ALT2
delta_h 298.594 #kJ/mol
# Enthalpy of formation: -1535.925 #kJ/mol
-analytic 1.16113E+1 0E+0 -1.55966E+4 0E+0 0E+0
1.000Sm+3 - 2.000H+ + 1.000H2(PO4)- = Sm(PO4)
log_k -7.460 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.46E+0 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 - 4.000H+ + 2.000H2(PO4)- = Sm(PO4)2-3
log_k -18.720 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.872E+1 0E+0 0E+0 0E+0 0E+0
1.000Sm+3 + 1.000SO4-2 = Sm(SO4)+
log_k 3.500 #95SPA/BRU
delta_h 16.575 #kJ/mol
# Enthalpy of formation: -1583.964 #kJ/mol
-analytic 6.40381E+0 0E+0 -8.65771E+2 0E+0 0E+0
1.000Sm+3 + 2.000SO4-2 = Sm(SO4)2-
log_k 5.200 #95SPA/BRU
delta_h 24.910 #kJ/mol
# Enthalpy of formation: -2484.969 #kJ/mol
-analytic 9.56404E+0 0E+0 -1.30114E+3 0E+0 0E+0
1.000Sm+3 + 1.000Br- = SmBr+2
log_k 0.230 #96FAL/REA
delta_h 17.023 #kJ/mol
# Enthalpy of formation: -795.586 #kJ/mol
-analytic 3.2123E+0 0E+0 -8.89172E+2 0E+0 0E+0
1.000Sm+3 + 1.000Cl- = SmCl+2
log_k 0.720 #Original data 01LUO/BYR and 07LUO/BYR
delta_h 22.277 #kJ/mol
# Enthalpy of formation: -836.002 #kJ/mol
-analytic 4.62276E+0 0E+0 -1.16361E+3 0E+0 0E+0
1.000Sm+3 + 1.000F- = SmF+2
log_k 4.210 #07LUO/BYR
delta_h 24.180 #kJ/mol
# Enthalpy of formation: -1002.369 #kJ/mol
-analytic 8.44615E+0 0E+0 -1.26301E+3 0E+0 0E+0
1.000Sm+3 + 2.000F- = SmF2+
log_k 6.430 #Original data 99SCH/BYR and 04LUO/BYR
delta_h 18.850 #kJ/mol
# Enthalpy of formation: -1343.049 #kJ/mol
-analytic 9.73237E+0 0E+0 -9.84603E+2 0E+0 0E+0
1.000Sm+3 - 1.000H+ + 1.000H4(SiO4) = SmSiO(OH)3+2
log_k -2.620 #Orginal data 07THA/SIN and 96JEN/CHO1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.62E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000Cit-3 = Sn(Cit)-
log_k 8.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 2.000Cit-3 = Sn(Cit)2-4
log_k 11.900 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.19E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000Edta-4 = Sn(Edta)-2
log_k 24.600 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.46E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 2.000H+ + 1.000Edta-4 = Sn(H2Edta)
log_k 24.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.43E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000H+ + 1.000Edta-4 = Sn(HEdta)-
log_k 23.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.34E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000Nta-3 = Sn(Nta)-
log_k 13.400 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.34E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 - 1.000H+ + 1.000H2O = Sn(OH)+
log_k -3.530 #12GAM/GAJ
delta_h 18.612 #kJ/mol
# Enthalpy of formation: -276.835 #kJ/mol
-analytic -2.69322E-1 0E+0 -9.72171E+2 0E+0 0E+0
1.000Sn+2 - 2.000H+ + 2.000H2O = Sn(OH)2
log_k -7.680 #12GAM/GAJ
delta_h 40.762 #kJ/mol
# Enthalpy of formation: -540.515 #kJ/mol
-analytic -5.38815E-1 0E+0 -2.12914E+3 0E+0 0E+0
1.000Sn+2 - 3.000H+ + 3.000H2O = Sn(OH)3-
log_k -61.190 #13COL/GRI
delta_h 344.633 #kJ/mol
# Enthalpy of formation: -522.474 #kJ/mol
-analytic -8.12979E-1 0E+0 -1.80014E+4 0E+0 0E+0
1.000Sn+4 - 4.000H+ + 4.000H2O = Sn(OH)4
log_k 7.540
delta_h -49.215 #kJ/mol
# Enthalpy of formation: -1224.035 #kJ/mol
-analytic -1.08209E+0 0E+0 2.57067E+3 0E+0 0E+0
1.000Sn+4 - 5.000H+ + 5.000H2O = Sn(OH)5-
log_k -1.060
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.06E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+4 - 6.000H+ + 6.000H2O = Sn(OH)6-2
log_k -11.130
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.113E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 - 1.000H+ + 1.000Cl- + 1.000H2O = Sn(OH)Cl
log_k -3.100 #52VAN/RHO recalculated in 02HUM/BER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.1E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000Ox-2 = Sn(Ox)
log_k 6.500 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 2.000Ox-2 = Sn(Ox)2-2
log_k 12.900 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.29E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 3.000Ox-2 = Sn(Ox)3-4
log_k 17.100 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.71E+1 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000SO4-2 = Sn(SO4)
log_k 3.430 #12GAM/GAJ
delta_h 16.900 #kJ/mol #Suggested but not selected in 12GAM/GAJ
# Enthalpy of formation: -902.057 #kJ/mol
-analytic 6.39075E+0 0E+0 -8.82747E+2 0E+0 0E+0
3.000Sn+2 - 4.000H+ + 4.000H2O = Sn3(OH)4+2
log_k -5.600 #12GAM/GAJ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.6E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000Br- = SnBr+
log_k 1.330 #12GAM/GAJ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.33E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 2.000Br- = SnBr2
log_k 1.970 #12GAM/GAJ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.97E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 3.000Br- = SnBr3-
log_k 1.930 #12GAM/GAJ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.93E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000Cl- = SnCl+
log_k 1.520 #12GAM/GAJ
delta_h 12.700 #kJ/mol #12GAM/GAJ
# Enthalpy of formation: -163.997 #kJ/mol
-analytic 3.74494E+0 0E+0 -6.63366E+2 0E+0 0E+0
1.000Sn+2 + 2.000Cl- = SnCl2
log_k 2.170 #12GAM/GAJ
delta_h 19.700 #kJ/mol #12GAM/GAJ
# Enthalpy of formation: -324.077 #kJ/mol
-analytic 5.62129E+0 0E+0 -1.029E+3 0E+0 0E+0
1.000Sn+2 + 3.000Cl- = SnCl3-
log_k 2.130 #12GAM/GAJ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.13E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 4.000Cl- = SnCl4-2
log_k 2.030 #12GAM/GAJ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.03E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000F- = SnF+
log_k 5.250 #12GAM/GAJ
delta_h -9.579 #kJ/mol
# Enthalpy of formation: -354.546 #kJ/mol
-analytic 3.57183E+0 0E+0 5.00345E+2 0E+0 0E+0
1.000Sn+2 + 2.000F- = SnF2
log_k 8.890 #12GAM/GAJ
delta_h -9.968 #kJ/mol
# Enthalpy of formation: -690.285 #kJ/mol
-analytic 7.14368E+0 0E+0 5.20664E+2 0E+0 0E+0
1.000Sn+2 + 3.000F- = SnF3-
log_k 11.500 #12GAM/GAJ
delta_h -4.478 #kJ/mol
# Enthalpy of formation: -1020.145 #kJ/mol
-analytic 1.07155E+1 0E+0 2.33902E+2 0E+0 0E+0
1.000Sn+2 - 1.000H+ + 1.000H2(PO4)- = SnHPO4
log_k 2.290 #00CIA/IUL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.29E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 1.000I- = SnI+
log_k 1.740 #68HAI/JOH1 recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.74E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 + 2.000I- = SnI2
log_k 2.690 #68HAI/JOH1 recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.69E+0 0E+0 0E+0 0E+0 0E+0
1.000Sn+2 - 2.000H+ + 1.000H2(PO4)- = SnPO4-
log_k -1.560 #00CIA/IUL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.56E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000CO3-2 = Sr(CO3)
log_k 2.810 #84BUS/PLU
delta_h 21.824 #kJ/mol
# Enthalpy of formation: -1204.306 #kJ/mol
-analytic 6.6334E+0 0E+0 -1.13995E+3 0E+0 0E+0
1.000Sr+2 + 1.000Cit-3 = Sr(Cit)-
log_k 4.240 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.24E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 - 1.000H+ + 2.000Cit-3 + 1.000H2O = Sr(Cit)2(OH)-5
log_k -1.780 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.78E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000Cit-3 = Sr(Cit)2-4
log_k 4.840 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.84E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000Cn- = Sr(Cn)+
log_k 0.710 #estimation NEA87 08/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.1E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000Cn- = Sr(Cn)2
log_k 0.200 #estimation NEA87 08/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000Edta-4 = Sr(Edta)-2
log_k 10.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.03E+1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000H+ + 1.000Cit-3 = Sr(H2Cit)+
log_k 12.460 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.246E+1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000H2(PO4)- = Sr(H2PO4)+
log_k 0.830 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.3E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000H+ + 1.000CO3-2 = Sr(HCO3)+
log_k 11.510 #84BUS/PLUS
delta_h 10.598 #kJ/mol
# Enthalpy of formation: -1215.533 #kJ/mol
-analytic 1.33667E+1 0E+0 -5.53571E+2 0E+0 0E+0
1.000Sr+2 + 1.000H+ + 1.000Cit-3 = Sr(HCit)
log_k 9.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000H+ + 1.000Edta-4 = Sr(HEdta)-
log_k 14.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.47E+1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000H+ + 1.000Ox-2 = Sr(HOx)+
log_k 5.800 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000H+ + 2.000Ox-2 = Sr(HOx)2
log_k 10.800 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.08E+1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 - 1.000H+ + 1.000H2(PO4)- = Sr(HPO4)
log_k -4.700 #97MAR/SMI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000IO3- = Sr(IO3)+
log_k 0.330 #estimation NEA87 01/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.3E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000IO3- = Sr(IO3)2
log_k -0.550 #estimation NEA87 01/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.5E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000NH3 = Sr(NH3)+2
log_k -0.550 #estimation NEA87 08/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.5E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000NO3- = Sr(NO3)+
log_k 0.600 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000NO3- = Sr(NO3)2
log_k 0.310 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.1E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000Nta-3 = Sr(Nta)-
log_k 6.250 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.25E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 - 1.000H+ + 1.000H2O = Sr(OH)+
log_k -13.290 #76BAE/MES
delta_h 82.609 #kJ/mol
# Enthalpy of formation: -754.12 #kJ/mol
-analytic 1.18245E+0 0E+0 -4.31496E+3 0E+0 0E+0
1.000Sr+2 + 1.000Ox-2 = Sr(Ox)
log_k 2.540 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.54E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000Ox-2 = Sr(Ox)2-2
log_k 3.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 - 2.000H+ + 1.000H2(PO4)- = Sr(PO4)-
log_k -13.560 #96BOU1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.356E+1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000Pyrophos-4 = Sr(Pyrophos)-2
log_k 5.400 #76SMI/MAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.4E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000S2O3-2 = Sr(S2O3)
log_k 2.040 #76SMI/MAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.04E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000SO4-2 = Sr(SO4)
log_k 2.300 #06BLA/IGN
delta_h 7.029 #kJ/mol #06BLA/IGN
# Enthalpy of formation: -1453.211 #kJ/mol
-analytic 3.53143E+0 0E+0 -3.6715E+2 0E+0 0E+0
2.000Sr+2 - 1.000H+ + 1.000Cit-3 + 1.000H2O = Sr2(Cit)(OH)
log_k 0.380 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.8E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000B(OH)4- = SrB(OH)4+
log_k 1.550 #80BAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.55E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000Cl- = SrCl+
log_k 0.230 #96BOU1
delta_h 4.924 #kJ/mol
# Enthalpy of formation: -713.054 #kJ/mol
-analytic 1.09265E+0 0E+0 -2.57198E+2 0E+0 0E+0
1.000Sr+2 + 1.000F- = SrF+
log_k 0.300
delta_h 16.740 #kJ/mol
# Enthalpy of formation: -869.51 #kJ/mol
-analytic 3.23272E+0 0E+0 -8.7439E+2 0E+0 0E+0
1.000Sr+2 + 2.000F- = SrF2
log_k 2.020 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.02E+0 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 1.000I- = SrI+
log_k 0.140 #estimation NEA87 01/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.4E-1 0E+0 0E+0 0E+0 0E+0
1.000Sr+2 + 2.000I- = SrI2
log_k -0.040 #estimation NEA87 01/02/95
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4E-2 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 2.000H+ + 1.000CO3-2 - 1.000H2O = Tc(OH)2CO3
log_k 19.260 #99RAR/RAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.926E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 1.000H+ + 1.000CO3-2 = Tc(OH)3CO3-
log_k 10.960 #99RAR/RAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.096E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 1.000H+ - 1.000H2O + 1.000Acetate- = TcO(OH)(Acetate)
log_k 5.550 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.55E+0 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 1.000H+ + 1.000Edta-4 - 1.000H2O = TcO(OH)(Edta)-3
log_k 19.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.9E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 1.000H+ + 1.000Nta-3 - 1.000H2O = TcO(OH)(Nta)-2
log_k 13.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.33E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 1.000H+ + 2.000Nta-3 - 1.000H2O = TcO(OH)(Nta)2-5
log_k 11.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.17E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 1.000H+ - 1.000H2O = TcO(OH)+
log_k 2.790
delta_h 4.020 #kJ/mol #97NGU/LAN
# Enthalpy of formation: -459.47 #kJ/mol
-analytic 3.49427E+0 0E+0 -2.09979E+2 0E+0 0E+0
1.000TcO(OH)2 + 2.000H+ + 1.000Ox-2 - 2.000H2O = TcO(Ox)
log_k 9.800 #06XIA/HES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.8E+0 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 2.000H+ + 2.000Ox-2 - 2.000H2O = TcO(Ox)2-2
log_k 13.660 #06XIA/HES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.366E+1 0E+0 0E+0 0E+0 0E+0
1.000TcO(OH)2 + 2.000H+ - 2.000H2O = TcO+2
log_k 2.580 #97NGU/LAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.58E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Acetate- = Th(Acetate)+3
log_k 5.240 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.24E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000Acetate- = Th(Acetate)2+2
log_k 9.440 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.44E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 3.000Acetate- = Th(Acetate)3+
log_k 12.560 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.256E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 4.000Acetate- = Th(Acetate)4
log_k 14.380 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.438E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 5.000Acetate- = Th(Acetate)5-
log_k 15.370 #11RIC/GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.537E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 5.000CO3-2 = Th(CO3)5-6
log_k 31.000 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.1E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Cit-3 = Th(Cit)+
log_k 16.800 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.68E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000Cit-3 = Th(Cit)2-2
log_k 25.800 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.58E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Edta-4 = Th(Edta)
log_k 26.950 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.695E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000H2(PO4)- = Th(H2PO4)+3
log_k 5.590 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.59E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000H2(PO4)- = Th(H2PO4)2+2
log_k 10.480 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.048E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000H+ + 2.000H2(PO4)- = Th(H3PO4)(H2PO4)+3
log_k 9.700 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000H+ + 1.000H2(PO4)- = Th(H3PO4)+4
log_k 4.030 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.03E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000H+ + 1.000Edta-4 = Th(HEdta)+
log_k 28.700 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.87E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000H+ + 1.000Ox-2 = Th(HOx)+3
log_k 11.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000H+ + 2.000Ox-2 = Th(HOx)2+2
log_k 18.130 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.813E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 4.000H+ + 4.000Ox-2 = Th(HOx)4
log_k 24.300 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.43E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Malonate-2 = Th(Malonate)+2
log_k 9.320 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.32E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000Malonate-2 = Th(Malonate)2
log_k 16.070 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.607E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 3.000Malonate-2 = Th(Malonate)3-2
log_k 19.630 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.963E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000NO3- = Th(NO3)+3
log_k 1.300 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000NO3- = Th(NO3)2+2
log_k 2.300 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.3E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Nta-3 = Th(Nta)+
log_k 17.150 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.715E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 1.000H+ + 4.000CO3-2 + 1.000H2O = Th(OH)(CO3)4-5
log_k 21.600 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.16E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 1.000H+ + 1.000Edta-4 + 1.000H2O = Th(OH)(Edta)-
log_k 19.500 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.95E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 1.000H+ + 1.000Nta-3 + 1.000H2O = Th(OH)(Nta)
log_k 25.200 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.52E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 1.000H+ + 1.000H2O = Th(OH)+3
log_k -2.500 #09RAN/FUG
delta_h 44.200 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -1010.33 #kJ/mol
-analytic 5.2435E+0 0E+0 -2.30872E+3 0E+0 0E+0
1.000Th+4 - 2.000H+ + 1.000CO3-2 + 2.000H2O = Th(OH)2(CO3)
log_k 2.500 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.5E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 2.000H+ + 2.000CO3-2 + 2.000H2O = Th(OH)2(CO3)2-2
log_k 8.800 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.8E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 2.000H+ + 1.000Nta-3 + 2.000H2O = Th(OH)2(Nta)-
log_k 35.200 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.52E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 2.000H+ + 2.000H2O = Th(OH)2+2
log_k -6.200 #09RAN/FUG
delta_h 85.700 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -1254.66 #kJ/mol
-analytic 8.81397E+0 0E+0 -4.47642E+3 0E+0 0E+0
1.000Th+4 - 3.000H+ + 1.000CO3-2 + 3.000H2O = Th(OH)3(CO3)-
log_k -3.700 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 3.000H+ + 1.000HGlu- + 3.000H2O = Th(OH)3(HGlu)
log_k -6.700 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 3.000H+ + 1.000HIsa- + 3.000H2O = Th(OH)3(HIsa)
log_k -5.650 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.65E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 3.000H+ + 2.000HIsa- + 3.000H2O = Th(OH)3(HIsa)2-
log_k -4.900 #09RAI/YUI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 3.000H+ + 3.000H2O = Th(OH)3+
log_k -11.000 #10GRI/RIB
delta_h 125.623 #kJ/mol
# Enthalpy of formation: -1500.554 #kJ/mol
-analytic 1.10082E+1 0E+0 -6.56174E+3 0E+0 0E+0
1.000Th+4 - 4.000H+ + 4.000H2O = Th(OH)4
log_k -17.400 #09RAN/FUG
delta_h 152.688 #kJ/mol
# Enthalpy of formation: -1759.319 #kJ/mol
-analytic 9.34975E+0 0E+0 -7.97544E+3 0E+0 0E+0
1.000Th+4 - 4.000H+ + 1.000CO3-2 + 4.000H2O = Th(OH)4(CO3)-2
log_k -15.600 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.56E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 4.000H+ + 1.000HGlu- + 4.000H2O = Th(OH)4(HGlu)-
log_k -11.800 #13COL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.18E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000HGlu- + 4.000H2O - 4.000H+ = Th(OH)4(HGlu)2-2
log_k -9.900 #13COL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9.9E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 4.000H+ + 1.000HIsa- + 4.000H2O = Th(OH)4(HIsa)-
log_k -13.200 #13COL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.32E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 - 4.000H+ + 2.000HIsa- + 4.000H2O = Th(OH)4(HIsa)2-2
log_k -10.400 #13COL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.04E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Ox-2 = Th(Ox)+2
log_k 9.700 #08SAS/TAK; 09KOB/SAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000Ox-2 = Th(Ox)2
log_k 16.000 #08SAS/TAK; 09KOB/SAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 3.000Ox-2 = Th(Ox)3-2
log_k 22.200 #08SAS/TAK; 09KOB/SAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.22E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000SO4-2 = Th(SO4)+2
log_k 6.170 #09RAN/FUG
delta_h 20.920 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -1657.12 #kJ/mol
-analytic 9.83502E+0 0E+0 -1.09273E+3 0E+0 0E+0
1.000Th+4 + 2.000SO4-2 = Th(SO4)2
log_k 9.690 #09RAN/FUG
delta_h 40.380 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -2547 #kJ/mol
-analytic 1.67643E+1 0E+0 -2.10919E+3 0E+0 0E+0
1.000Th+4 + 3.000SO4-2 = Th(SO4)3-2
log_k 10.750 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.075E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000Succinat-2 = Th(Succinat)+2
log_k 8.490 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.49E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 2.000Succinat-2 = Th(Succinat)2
log_k 12.920 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.292E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 3.000Succinat-2 = Th(Succinat)3-2
log_k 16.620 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.662E+1 0E+0 0E+0 0E+0 0E+0
2.000Th+4 - 2.000H+ + 2.000H2O = Th2(OH)2+6
log_k -5.900 #09RAN/FUG
delta_h 58.300 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -2050.76 #kJ/mol
-analytic 4.31371E+0 0E+0 -3.04522E+3 0E+0 0E+0
2.000Th+4 - 3.000H+ + 3.000H2O = Th2(OH)3+5
log_k -6.800 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.8E+0 0E+0 0E+0 0E+0 0E+0
2.000Th+4 - 1.000H+ + 1.000Ox-2 + 1.000H2O = Th2(Ox)(OH)+5
log_k 26.240 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.624E+1 0E+0 0E+0 0E+0 0E+0
4.000Th+4 - 12.000H+ + 12.000H2O = Th4(OH)12+4
log_k -26.600 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.66E+1 0E+0 0E+0 0E+0 0E+0
4.000Th+4 - 8.000H+ + 8.000H2O = Th4(OH)8+8
log_k -20.400 #09RAN/FUG
delta_h 243.000 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -5118.44 #kJ/mol
-analytic 2.21717E+1 0E+0 -1.26928E+4 0E+0 0E+0
6.000Th+4 - 14.000H+ + 14.000H2O = Th6(OH)14+10
log_k -36.800 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.68E+1 0E+0 0E+0 0E+0 0E+0
6.000Th+4 - 15.000H+ + 15.000H2O = Th6(OH)15+9
log_k -36.800 #09RAN/FUG
delta_h 472.800 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -8426.85 #kJ/mol
-analytic 4.60309E+1 0E+0 -2.4696E+4 0E+0 0E+0
1.000Th+4 + 1.000Cl- = ThCl+3
log_k 1.700 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.7E+0 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 1.000F- = ThF+3
log_k 8.870 #09RAN/FUG
delta_h -0.400 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -1104.45 #kJ/mol
-analytic 8.79992E+0 0E+0 2.08934E+1 0E+0 0E+0
1.000Th+4 + 2.000F- = ThF2+2
log_k 15.630 #09RAN/FUG
delta_h -3.300 #kJ/mol #09RAN/FUG
# Enthalpy of formation: -1442.7 #kJ/mol
-analytic 1.50519E+1 0E+0 1.72371E+2 0E+0 0E+0
1.000Th+4 + 3.000F- = ThF3+
log_k 20.670 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.067E+1 0E+0 0E+0 0E+0 0E+0
1.000Th+4 + 4.000F- = ThF4
log_k 25.580 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.558E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000Acetate- = U(Acetate)+3
log_k 5.640 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.64E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 2.000Acetate- = U(Acetate)2+2
log_k 9.810 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.81E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 4.000CO3-2 = U(CO3)4-4
log_k 35.120 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.512E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 5.000CO3-2 = U(CO3)5-6
log_k 34.000 #03GUI/FAN
delta_h -20.000 #kJ/mol #03GUI/FAN
# Enthalpy of formation: -3987.35 #kJ/mol
-analytic 3.04962E+1 0E+0 1.04467E+3 0E+0 0E+0
1.000U+4 + 1.000Edta-4 = U(Edta)
log_k 29.500 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.95E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000NO3- = U(NO3)+3
log_k 1.470 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.47E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 2.000NO3- = U(NO3)2+2
log_k 2.300 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.3E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000Nta-3 = U(Nta)+
log_k 20.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 1.000H+ + 1.000Edta-4 + 1.000H2O = U(OH)(Edta)-
log_k 24.600 #63ERM/KRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.46E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 1.000H+ + 1.000H2O = U(OH)+3
log_k -0.540 #92GRE/FUG
delta_h 46.910 #kJ/mol
# Enthalpy of formation: -830.12 #kJ/mol
-analytic 7.67827E+0 0E+0 -2.45028E+3 0E+0 0E+0
1.000U+4 - 2.000H+ + 1.000Edta-4 + 2.000H2O = U(OH)2(Edta)-2
log_k 16.500 #63ERM/KRO
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.65E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 2.000H+ + 2.000H2O = U(OH)2+2
log_k -1.100 #01NEC/KIM
delta_h 59.974 #kJ/mol
# Enthalpy of formation: -1102.886 #kJ/mol
-analytic 9.40698E+0 0E+0 -3.13266E+3 0E+0 0E+0
1.000U+4 - 3.000H+ + 1.000HGlu- + 3.000H2O = U(OH)3(HGlu)
log_k 0.290 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.9E-1 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 3.000H+ + 1.000HIsa- + 3.000H2O = U(OH)3(HIsa)
log_k 0.290 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.9E-1 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 3.000H+ + 2.000HIsa- + 3.000H2O = U(OH)3(HIsa)2-
log_k 2.400 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.4E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 3.000H+ + 3.000H2O = U(OH)3+
log_k -4.700 #01NEC/KIM
delta_h 82.944 #kJ/mol
# Enthalpy of formation: -1365.746 #kJ/mol
-analytic 9.83114E+0 0E+0 -4.33246E+3 0E+0 0E+0
1.000U+4 - 4.000H+ + 4.000H2O = U(OH)4
log_k -10.000 #03GUI/FAN
delta_h 109.881 #kJ/mol
# Enthalpy of formation: -1624.639 #kJ/mol
-analytic 9.2503E+0 0E+0 -5.73948E+3 0E+0 0E+0
1.000U+4 - 4.000H+ + 1.000HGlu- + 4.000H2O = U(OH)4(HGlu)-
log_k -5.940 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.94E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 4.000H+ + 1.000HIsa- + 4.000H2O = U(OH)4(HIsa)-
log_k -6.700 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.7E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 - 4.000H+ + 2.000HIsa- + 4.000H2O = U(OH)4(HIsa)2-2
log_k -5.100 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.1E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 2.000Ox-2 = U(Ox)2
log_k 18.630 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.863E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 3.000Ox-2 = U(Ox)3-2
log_k 24.190 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.419E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000SO4-2 = U(SO4)+2
log_k 6.580 #92GRE/FUG
delta_h 8.000 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1492.54 #kJ/mol
-analytic 7.98154E+0 0E+0 -4.17868E+2 0E+0 0E+0
1.000U+4 + 2.000SO4-2 = U(SO4)2
log_k 10.510 #92GRE/FUG
delta_h 32.700 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -2377.18 #kJ/mol
-analytic 1.62388E+1 0E+0 -1.70804E+3 0E+0 0E+0
1.000U+4 + 1.000Br- = UBr+3
log_k 1.460 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.46E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000Cl- = UCl+3
log_k 1.720 #92GRE/FUG
delta_h -19.000 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -777.28 #kJ/mol
-analytic -1.60865E+0 0E+0 9.92438E+2 0E+0 0E+0
1.000U+4 + 1.000F- = UF+3
log_k 9.420 #03GUI/FAN
delta_h -5.600 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -932.15 #kJ/mol
-analytic 8.43892E+0 0E+0 2.92508E+2 0E+0 0E+0
1.000U+4 + 2.000F- = UF2+2
log_k 16.560 #03GUI/FAN
delta_h -3.500 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1265.4 #kJ/mol
-analytic 1.59468E+1 0E+0 1.82817E+2 0E+0 0E+0
1.000U+4 + 3.000F- = UF3+
log_k 21.890 #03GUI/FAN
delta_h 0.500 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1596.75 #kJ/mol
-analytic 2.19776E+1 0E+0 -2.61168E+1 0E+0 0E+0
1.000U+4 + 4.000F- = UF4
log_k 26.340 #03GUI/FAN
delta_h -8.429 #kJ/mol
# Enthalpy of formation: -1941.029 #kJ/mol
-analytic 2.48633E+1 0E+0 4.40277E+2 0E+0 0E+0
1.000U+4 + 5.000F- = UF5-
log_k 27.730 #03GUI/FAN
delta_h -11.624 #kJ/mol
# Enthalpy of formation: -2279.574 #kJ/mol
-analytic 2.56936E+1 0E+0 6.07163E+2 0E+0 0E+0
1.000U+4 + 6.000F- = UF6-2
log_k 29.800 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.98E+1 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000I- = UI+3
log_k 1.250 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.25E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Acetate- = UO2(Acetate)+
log_k 3.020 #11RIC/GRI
delta_h -35.366 #kJ/mol
# Enthalpy of formation: -1540.376 #kJ/mol
-analytic -3.17585E+0 0E+0 1.84729E+3 0E+0 0E+0
1.000UO2+2 + 2.000Acetate- = UO2(Acetate)2
log_k 5.200 #11RIC/GRI
delta_h -34.958 #kJ/mol
# Enthalpy of formation: -2025.978 #kJ/mol
-analytic -9.2437E-1 0E+0 1.82598E+3 0E+0 0E+0
1.000UO2+2 + 3.000Acetate- = UO2(Acetate)3-
log_k 7.030 #11RIC/GRI
delta_h -45.947 #kJ/mol
# Enthalpy of formation: -2522.977 #kJ/mol
-analytic -1.01956E+0 0E+0 2.39998E+3 0E+0 0E+0
1.000UO2+2 + 1.000CO3-2 = UO2(CO3)
log_k 9.940 #03GUI/FAN
delta_h 5.000 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1689.23 #kJ/mol
-analytic 1.0816E+1 0E+0 -2.61168E+2 0E+0 0E+0
1.000UO2+2 + 2.000CO3-2 = UO2(CO3)2-2
log_k 16.610 #03GUI/FAN
delta_h 18.500 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -2350.96 #kJ/mol
-analytic 1.98511E+1 0E+0 -9.66321E+2 0E+0 0E+0
1.000UO2+2 + 3.000CO3-2 = UO2(CO3)3-4
log_k 21.840 #03GUI/FAN
delta_h -39.200 #kJ/mol
# Enthalpy of formation: -3083.89 #kJ/mol
-analytic 1.49725E+1 0E+0 2.04756E+3 0E+0 0E+0
1.000UO2+ + 3.000CO3-2 = UO2(CO3)3-5
log_k 6.950 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.95E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Cit-3 = UO2(Cit)-
log_k 8.960 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.96E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Edta-4 = UO2(Edta)-2
log_k 13.700 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.37E+1 0E+0 0E+0 0E+0 0E+0
1.000AsO4-3 + 1.000UO2+2 + 2.000H+ = UO2(H2AsO4)+
log_k 21.960 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.196E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 4.000H+ + 2.000AsO4-3 = UO2(H2AsO4)2
log_k 41.530 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.153E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000H+ + 2.000H2(PO4)- = UO2(H2PO4)(H3PO4)+
log_k 5.930 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.93E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000H2(PO4)- = UO2(H2PO4)+
log_k 3.260 #92GRE/FUG
delta_h -15.340 #kJ/mol
# Enthalpy of formation: -2336.94 #kJ/mol
-analytic 5.72551E-1 0E+0 8.01263E+2 0E+0 0E+0
1.000UO2+2 + 2.000H2(PO4)- = UO2(H2PO4)2
log_k 4.920 #92GRE/FUG
delta_h -51.871 #kJ/mol
# Enthalpy of formation: -6902.925 #kJ/mol
-analytic -4.1674E+0 0E+0 2.70941E+3 0E+0 0E+0
1.000UO2+2 + 1.000H+ + 1.000H2(PO4)- = UO2(H3PO4)+2
log_k 2.900 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.9E+0 0E+0 0E+0 0E+0 0E+0
1.000AsO4-3 + 1.000UO2+2 + 1.000H+ = UO2(HAsO4)
log_k 18.760 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.876E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000H+ + 1.000Cit-3 = UO2(HCit)
log_k 11.360 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.136E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000H+ + 1.000Edta-4 = UO2(HEdta)-
log_k 19.610 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.961E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000HIsa- = UO2(HIsa)+
log_k 3.700 #04RAO/GAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.7E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 2.000HIsa- = UO2(HIsa)2
log_k 6.600 #04RAO/GAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.6E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 3.000HIsa- = UO2(HIsa)3-
log_k 8.500 #04RAO/GAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.5E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000H+ + 1.000Nta-3 = UO2(HNta)
log_k 9.000 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 - 1.000H+ + 1.000H2(PO4)- = UO2(HPO4)
log_k 0.030 #92GRE/FUG
delta_h 2.795 #kJ/mol
# Enthalpy of formation: -4408.507 #kJ/mol
-analytic 5.19662E-1 0E+0 -1.45993E+2 0E+0 0E+0
1.000UO2+2 + 2.000I- + 3.000O2 = UO2(IO3)2
log_k 38.400 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.84E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000NO3- = UO2(NO3)+
log_k 0.100 #08RAO/TIA
delta_h 3.900 #kJ/mol #08RAO/TIA
# Enthalpy of formation: -1221.95 #kJ/mol
-analytic 7.8325E-1 0E+0 -2.03711E+2 0E+0 0E+0
1.000UO2+2 + 1.000Nta-3 = UO2(Nta)-
log_k 10.800 #95AKR/BOU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.08E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 - 1.000H+ + 1.000Ox-2 + 1.000H2O = UO2(OH)(Ox)-
log_k 0.630 #56GRI/PTI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.3E-1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 - 1.000H+ + 1.000H2O = UO2(OH)+
log_k -5.250 #03GUI/FAN
delta_h 43.458 #kJ/mol
# Enthalpy of formation: -1261.372 #kJ/mol
-analytic 2.3635E+0 0E+0 -2.26997E+3 0E+0 0E+0
1.000UO2+2 - 2.000H+ + 2.000H2O = UO2(OH)2
log_k -12.150 #03GUI/FAN
delta_h 111.160 #kJ/mol
# Enthalpy of formation: -1479.5 #kJ/mol #82WAG/EVA
-analytic 7.32437E+0 0E+0 -5.80628E+3 0E+0 0E+0
1.000UO2+2 - 3.000H+ + 3.000H2O = UO2(OH)3-
log_k -20.250 #03GUI/FAN
delta_h 148.060 #kJ/mol #Estimated by linear correlations
# Enthalpy of formation: -1728.43 #kJ/mol
-analytic 5.68896E+0 0E+0 -7.7337E+3 0E+0 0E+0
1.000UO2+2 - 4.000H+ + 1.000HIsa- + 4.000H2O = UO2(OH)4(HIsa)-3
log_k -28.100 #06GAO/MON
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.81E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 - 4.000H+ + 4.000H2O = UO2(OH)4-2
log_k -32.400 #03GUI/FAN
delta_h 156.138 #kJ/mol
# Enthalpy of formation: -2006.182 #kJ/mol
-analytic -5.04584E+0 0E+0 -8.15564E+3 0E+0 0E+0
1.000UO2+2 + 1.000Ox-2 = UO2(Ox)
log_k 7.130 #05HUM/AND
delta_h 25.360 #kJ/mol
# Enthalpy of formation: -1824.3 #kJ/mol #05HUM/AND
-analytic 1.15729E+1 0E+0 -1.32464E+3 0E+0 0E+0
1.000UO2+2 + 2.000Ox-2 = UO2(Ox)2-2
log_k 11.650 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.165E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 3.000Ox-2 = UO2(Ox)3-4
log_k 13.800 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.38E+1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 - 2.000H+ + 1.000H2(PO4)- = UO2(PO4)-
log_k -6.330 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.33E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Phthalat-2 = UO2(Phthalat)
log_k 5.560 #11GRI/COL3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.56E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000S2O3-2 = UO2(S2O3)
log_k 2.800 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.8E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000SO3-2 = UO2(SO3)
log_k 6.600 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.6E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000SO4-2 = UO2(SO4)
log_k 3.150 #03GUI/FAN
delta_h 19.500 #kJ/mol #03GUI/FAN
# Enthalpy of formation: -1908.84 #kJ/mol
-analytic 6.56625E+0 0E+0 -1.01855E+3 0E+0 0E+0
1.000UO2+2 + 2.000SO4-2 = UO2(SO4)2-2
log_k 4.140 #03GUI/FAN
delta_h 35.100 #kJ/mol #03GUI/FAN
# Enthalpy of formation: -2802.58 #kJ/mol
-analytic 1.02892E+1 0E+0 -1.8334E+3 0E+0 0E+0
1.000UO2+2 + 3.000SO4-2 = UO2(SO4)3-4
log_k 3.020 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.02E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000SeO4-2 = UO2(SeO4)
log_k 2.740 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.74E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 2.000SeO4-2 = UO2(SeO4)2-2
log_k 3.100 #99DJO/PIZ recalculated in 05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.1E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Succinat-2 = UO2(Succinat)
log_k 5.280 #13GRI/CAM
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.28E+0 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Br- = UO2Br+
log_k 0.220 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.2E-1 0E+0 0E+0 0E+0 0E+0
1.000UO2+2 + 1.000Br- + 1.500O2 = UO2BrO3+
log_k -16.570 #92GRE/FUG
delta_h 73.011 #kJ/mol
# Enthalpy of formation: -1085.6 #kJ/mol
-analytic -3.77904E+0 0E+0 -3.81362E+3 0E+0 0E+0
1.000UO2+2 + 1.000Cl- = UO2Cl+
log_k 0.170 #92GRE/FUG
delta_h 8.000 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1178.08 #kJ/mol
-analytic 1.57154E+0 0E+0 -4.17868E+2 0E+0 0E+0
1.000UO2+2 + 2.000Cl- = UO2Cl2
log_k -1.100 #92GRE/FUG
delta_h 15.000 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1338.16 #kJ/mol
-analytic 1.52788E+0 0E+0 -7.83503E+2 0E+0 0E+0
1.000UO2+2 + 1.000Cl- + 1.500O2 = UO2ClO3+
log_k -16.770 #92GRE/FUG
delta_h 77.381 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1126.9 #kJ/mol
-analytic -3.21345E+0 0E+0 -4.04189E+3 0E+0 0E+0
1.000UO2+2 + 1.000F- = UO2F+
log_k 5.160 #03GUI/FAN
delta_h 1.700 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1352.65 #kJ/mol
-analytic 5.45783E+0 0E+0 -8.87971E+1 0E+0 0E+0
1.000UO2+2 + 2.000F- = UO2F2
log_k 8.830 #03GUI/FAN
delta_h 2.100 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -1687.6 #kJ/mol
-analytic 9.1979E+0 0E+0 -1.0969E+2 0E+0 0E+0
1.000UO2+2 + 3.000F- = UO2F3-
log_k 10.900 #03GUI/FAN
delta_h 2.350 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -2022.7 #kJ/mol
-analytic 1.13117E+1 0E+0 -1.22749E+2 0E+0 0E+0
1.000UO2+2 + 4.000F- = UO2F4-2
log_k 11.840 #03GUI/FAN
delta_h 0.290 #kJ/mol #92GRE/FUG
# Enthalpy of formation: -2360.11 #kJ/mol
-analytic 1.18908E+1 0E+0 -1.51477E+1 0E+0 0E+0
1.000UO2+2 + 1.000I- + 1.500O2 = UO2IO3+
log_k 19.410 #92GRE/FUG
delta_h -134.919 #kJ/mol
# Enthalpy of formation: -1228.9 #kJ/mol
-analytic -4.22676E+0 0E+0 7.0473E+3 0E+0 0E+0
1.000UO2+2 - 1.000H+ + 1.000H4(SiO4) = UO2SiO(OH)3+
log_k -1.840 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.84E+0 0E+0 0E+0 0E+0 0E+0
1.000U+4 + 1.000Ox-2 = UOx+2
log_k 10.670 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.067E+1 0E+0 0E+0 0E+0 0E+0
1.000Zn+2 + 1.000H+ + 1.000Cn- + 1.000HSe- - 1.000H2O + 0.500O2 = Zn(SeCn)+
log_k 57.230
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.723E+1 0E+0 0E+0 0E+0 0E+0
1.000Zn+2 + 2.000H+ + 2.000Cn- + 2.000HSe- - 2.000H2O + 1.000O2 = Zn(SeCn)2
log_k 113.710
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.1371E+2 0E+0 0E+0 0E+0 0E+0
1.000Zn+2 + 1.000SeO4-2 = Zn(SeO4)
log_k 2.160 #05OLI/NOL
delta_h 4.600 #kJ/mol #05OLI/NOL
# Enthalpy of formation: -752.29 #kJ/mol
-analytic 2.96588E+0 0E+0 -2.40274E+2 0E+0 0E+0
4.000CO3-2 + 1.000Zr+4 = Zr(CO3)4-4
log_k 42.900 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.29E+1 0E+0 0E+0 0E+0 0E+0
2.000NO3- + 1.000Zr+4 = Zr(NO3)2+2
log_k 2.640 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.64E+0 0E+0 0E+0 0E+0 0E+0
- 1.000H+ + 1.000Zr+4 + 1.000H2O = Zr(OH)+3
log_k 0.320 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.2E-1 0E+0 0E+0 0E+0 0E+0
- 2.000H+ + 1.000Zr+4 + 2.000H2O = Zr(OH)2+2
log_k 0.980 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.8E-1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 1.000Zr+4 + 4.000H2O = Zr(OH)4
log_k -2.190 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.19E+0 0E+0 0E+0 0E+0 0E+0
- 6.000H+ + 1.000Zr+4 + 6.000H2O = Zr(OH)6-2
log_k -29.000 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.9E+1 0E+0 0E+0 0E+0 0E+0
2.000SO4-2 + 1.000Zr+4 = Zr(SO4)2
log_k 11.540 #05BRO/CUR
delta_h 67.380 #kJ/mol
# Enthalpy of formation: -2359.8 #kJ/mol #05BRO/CUR
-analytic 2.33445E+1 0E+0 -3.5195E+3 0E+0 0E+0
3.000SO4-2 + 1.000Zr+4 = Zr(SO4)3-2
log_k 14.300 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.43E+1 0E+0 0E+0 0E+0 0E+0
- 4.000H+ + 3.000Zr+4 + 4.000H2O = Zr3(OH)4+8
log_k 0.400 #05BRO/CUR
delta_h -1.980 #kJ/mol
# Enthalpy of formation: -2970.8 #kJ/mol #05BRO/CUR
-analytic 5.31194E-2 0E+0 1.03422E+2 0E+0 0E+0
- 15.000H+ + 4.000Zr+4 + 15.000H2O = Zr4(OH)15+
log_k 12.580 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.258E+1 0E+0 0E+0 0E+0 0E+0
- 16.000H+ + 4.000Zr+4 + 16.000H2O = Zr4(OH)16
log_k 8.390 #05BRO/CUR
delta_h 301.120 #kJ/mol
# Enthalpy of formation: -6706.16 #kJ/mol #05BRO/CUR
-analytic 6.11439E+1 0E+0 -1.57286E+4 0E+0 0E+0
1.000Cl- + 1.000Zr+4 = ZrCl+3
log_k 1.590 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.59E+0 0E+0 0E+0 0E+0 0E+0
2.000Cl- + 1.000Zr+4 = ZrCl2+2
log_k 2.170 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.17E+0 0E+0 0E+0 0E+0 0E+0
1.000F- + 1.000Zr+4 = ZrF+3
log_k 10.120 #05BRO/CUR
delta_h -17.500 #kJ/mol #05BRO/CUR
# Enthalpy of formation: -961.35 #kJ/mol
-analytic 7.05414E+0 0E+0 9.14087E+2 0E+0 0E+0
2.000F- + 1.000Zr+4 = ZrF2+2
log_k 18.550 #05BRO/CUR
delta_h -16.800 #kJ/mol #05BRO/CUR
# Enthalpy of formation: -1296 #kJ/mol
-analytic 1.56068E+1 0E+0 8.77524E+2 0E+0 0E+0
3.000F- + 1.000Zr+4 = ZrF3+
log_k 24.720 #05BRO/CUR
delta_h -11.200 #kJ/mol #05BRO/CUR
# Enthalpy of formation: -1625.75 #kJ/mol
-analytic 2.27578E+1 0E+0 5.85016E+2 0E+0 0E+0
4.000F- + 1.000Zr+4 = ZrF4
log_k 30.110 #05BRO/CUR
delta_h -22.000 #kJ/mol #05BRO/CUR
# Enthalpy of formation: -1971.9 #kJ/mol
-analytic 2.62558E+1 0E+0 1.14914E+3 0E+0 0E+0
5.000F- + 1.000Zr+4 = ZrF5-
log_k 34.600 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.46E+1 0E+0 0E+0 0E+0 0E+0
6.000F- + 1.000Zr+4 = ZrF6-2
log_k 38.110 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.811E+1 0E+0 0E+0 0E+0 0E+0
1.000NO3- + 1.000Zr+4 = ZrNO3+3
log_k 1.590 #05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.59E+0 0E+0 0E+0 0E+0 0E+0
1.000SO4-2 + 1.000Zr+4 = ZrSO4+2
log_k 7.040 #05BRO/CUR
delta_h 36.940 #kJ/mol
# Enthalpy of formation: -1480.9 #kJ/mol #05BRO/CUR
-analytic 1.35116E+1 0E+0 -1.92951E+3 0E+0 0E+0
PHASES
(UO2)2(As2O7)(cr)
(UO2)2(As2O7) = 2.000UO2+2 + 2.000H+ + 2.000AsO4-3 - 1.000H2O
log_k -29.010
delta_h -102.450 #kJ/mol
# Enthalpy of formation: -3426 #kJ/mol #92GRE/FUG
-analytic -4.69584E+1 0E+0 5.35133E+3 0E+0 0E+0
(UO2)3(AsO4)2(cr)
(UO2)3(AsO4)2 = 3.000UO2+2 + 2.000AsO4-3
log_k -27.400
delta_h -143.880 #kJ/mol
# Enthalpy of formation: -4689.4 #kJ/mol #92GRE/FUG
-analytic -5.26067E+1 0E+0 7.51536E+3 0E+0 0E+0
(UO2)3(PO4)2(cr)
(UO2)3(PO4)2 = 3.000UO2+2 - 4.000H+ + 2.000H2(PO4)-
log_k 2.800
delta_h -170.900 #kJ/mol
# Enthalpy of formation: -5491.3 #kJ/mol #92GRE/FUG
-analytic -2.71404E+1 0E+0 8.92672E+3 0E+0 0E+0
(UO2)3(PO4)2:4H2O(cr)
(UO2)3(PO4)2:4H2O = 3.000UO2+2 - 4.000H+ + 2.000H2(PO4)- + 4.000H2O
log_k -14.150 #92SAN/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.415E+1 0E+0 0E+0 0E+0 0E+0
(UO2)3(PO4)2:6H2O(s)
(UO2)3(PO4)2:6H2O = 3.000UO2+2 - 4.000H+ + 2.000H2(PO4)- + 6.000H2O
log_k -10.200
delta_h -48.780 #kJ/mol
# Enthalpy of formation: -7328.4 #kJ/mol #03GUI/FAN
-analytic -1.87459E+1 0E+0 2.54795E+3 0E+0 0E+0
Acanthite
Ag2S = 2.000Ag+ - 1.000H+ + 1.000HS-
log_k -36.070
delta_h 224.768 #kJ/mol
# Enthalpy of formation: -29.488 #kJ/mol
-analytic 3.30761E+0 0E+0 -1.17404E+4 0E+0 0E+0
Acmite
NaFeSi2O6 = 1.000Na+ + 1.000Fe+3 - 4.000H+ + 2.000H4(SiO4) - 2.000H2O
log_k 0.920
delta_h -55.568 #kJ/mol
# Enthalpy of formation: -2584.5 #kJ/mol #95ROB/HEM
-analytic -8.81508E+0 0E+0 2.90251E+3 0E+0 0E+0
Afwillite
Ca3Si2O4(OH)6 = 3.000Ca+2 - 6.000H+ + 2.000H4(SiO4) + 2.000H2O
log_k 49.420 #10BLA/BOU1
delta_h -269.228 #kJ/mol
# Enthalpy of formation: -4853.82 #kJ/mol #10BLA/BOU1
-analytic 2.25335E+0 0E+0 1.40627E+4 0E+0 0E+0
Ag(OH)(s)
Ag(OH) = 1.000Ag+ - 1.000H+ + 1.000H2O
log_k 6.300 #76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.3E+0 0E+0 0E+0 0E+0 0E+0
Ag(SeCn)(cr)
Ag(SeCn) = 1.000Ag+ + 1.000H+ + 1.000Cn- + 1.000HSe- - 1.000H2O + 0.500O2
log_k -70.020
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.002E+1 0E+0 0E+0 0E+0 0E+0
Ag(s)
Ag = 1.000Ag+ + 0.500H2O - 1.000H+ - 0.250O2
log_k 7.985
delta_h -34.092 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #95SIL/BID
-analytic 2.01243E+0 0E+0 1.78072E+3 0E+0 0E+0
Ag2(CO3)(s)
Ag2(CO3) = 2.000Ag+ + 1.000CO3-2
log_k -11.050
delta_h 42.073 #kJ/mol
# Enthalpy of formation: -505.723 #kJ/mol
-analytic -3.67914E+0 0E+0 -2.19762E+3 0E+0 0E+0
Ag2(MoO4)(s)
Ag2(MoO4) = 2.000Ag+ + 1.000MoO4-2
log_k -11.460
delta_h 55.354 #kJ/mol
# Enthalpy of formation: -840.774 #kJ/mol
-analytic -1.76241E+0 0E+0 -2.89134E+3 0E+0 0E+0
Ag2(SO4)(s)
Ag2(SO4) = 2.000Ag+ + 1.000SO4-2
log_k -5.010
delta_h 18.162 #kJ/mol
# Enthalpy of formation: -715.922 #kJ/mol
-analytic -1.82816E+0 0E+0 -9.48666E+2 0E+0 0E+0
Ag2(SeO3)(s)
Ag2(SeO3) = 2.000Ag+ + 1.000SeO3-2
log_k -15.800 #05OLI/NOL
delta_h 67.860 #kJ/mol
# Enthalpy of formation: -363.44 #kJ/mol #05OLI/NOL
-analytic -3.91146E+0 0E+0 -3.54457E+3 0E+0 0E+0
Ag2(SeO4)(s)
Ag2(SeO4) = 2.000Ag+ + 1.000SeO4-2
log_k -7.860 #05OLI/NOL
delta_h 30.590 #kJ/mol
# Enthalpy of formation: -422.51 #kJ/mol #05OLI/NOL
-analytic -2.50087E+0 0E+0 -1.59782E+3 0E+0 0E+0
Ag2Se(alfa)
Ag2Se = 2.000Ag+ - 1.000H+ + 1.000HSe-
log_k -42.850
delta_h 266.009 #kJ/mol
# Enthalpy of formation: -40.129 #kJ/mol
-analytic 3.75271E+0 0E+0 -1.38946E+4 0E+0 0E+0
Ag3(PO4)(s)
Ag3(PO4) = 3.000Ag+ - 2.000H+ + 1.000H2(PO4)-
log_k 2.010 #03BÖT in 76SMI/MAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.01E+0 0E+0 0E+0 0E+0 0E+0
AgBr(s)
AgBr = 1.000Ag+ + 1.000Br-
log_k -12.290
delta_h 84.725 #kJ/mol
# Enthalpy of formation: -100.345 #kJ/mol
-analytic 2.55316E+0 0E+0 -4.42549E+3 0E+0 0E+0
AgCl(cr)
AgCl = 1.000Ag+ + 1.000Cl-
log_k -9.750
delta_h 65.720 #kJ/mol
# Enthalpy of formation: -127.01 #kJ/mol #92GRE/FUG
-analytic 1.76363E+0 0E+0 -3.43279E+3 0E+0 0E+0
AgI(s)
AgI = 1.000Ag+ + 1.000I-
log_k -16.040
delta_h 110.764 #kJ/mol
# Enthalpy of formation: -61.754 #kJ/mol
-analytic 3.36499E+0 0E+0 -5.7856E+3 0E+0 0E+0
Al(PO4)(cr)
Al(PO4) = 1.000Al+3 - 2.000H+ + 1.000H2(PO4)-
log_k -2.940 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de la base 0391 MINEQL- PSY)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1822.8 #kJ/mol
-analytic -2.94E+0 0E+0 0E+0 0E+0 0E+0
Al(PO4):2H2O(s)
Al(PO4):2H2O = 1.000Al+3 - 2.000H+ + 1.000H2(PO4)- + 2.000H2O
log_k -2.510 #620BRG91.025 ANDRA 21.10.94
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.51E+0 0E+0 0E+0 0E+0 0E+0
Al(s)
Al = 1.000Al+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 149.915
delta_h -958.045 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #95POK/HEL
-analytic -1.79269E+1 0E+0 5.00421E+4 0E+0 0E+0
Al2(OH)(PO4)2(s)
Al2(OH)(PO4)2 = 2.000Al+3 - 4.000H+ + 2.000H2(PO4)- + 0.500H2O + 0.250O2
log_k -37.375 #620BRG91.025 ANDRA 21.10.94
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.7375E+1 0E+0 0E+0 0E+0 0E+0
Alabandite
MnS = 1.000Mn+2 - 1.000H+ + 1.000HS-
log_k 0.900 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9E-1 0E+0 0E+0 0E+0 0E+0
Alamosite
PbSiO3 = 1.000Pb+2 - 2.000H+ + 1.000H4(SiO4) - 1.000H2O
log_k 6.170
delta_h -29.451 #kJ/mol
# Enthalpy of formation: -1144.993 #kJ/mol #98CHA
-analytic 1.01041E+0 0E+0 1.53833E+3 0E+0 0E+0
Albite-high
NaAlSi3O8 = 1.000Na+ + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 4.000H2O
log_k 4.140
delta_h -95.623 #kJ/mol
# Enthalpy of formation: -3923.38 #kJ/mol #99ARN/STE
-analytic -1.26124E+1 0E+0 4.99473E+3 0E+0 0E+0
Albite-low
NaAlSi3O8 = 1.000Na+ + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 4.000H2O
log_k 2.740
delta_h -82.813 #kJ/mol
# Enthalpy of formation: -3936.19 #kJ/mol #99ARN/STE
-analytic -1.17682E+1 0E+0 4.32562E+3 0E+0 0E+0
Am(CO3)(OH)(am)
Am(CO3)(OH) = - 1.000H+ + 1.000Am+3 + 1.000CO3-2 + 1.000H2O
log_k -6.200 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.2E+0 0E+0 0E+0 0E+0 0E+0
Am(CO3)(OH)(cr)
Am(CO3)(OH) = - 1.000H+ + 1.000Am+3 + 1.000CO3-2 + 1.000H2O
log_k -11.510
delta_h -25.260 #kJ/mol
# Enthalpy of formation: -1552.5 #kJ/mol #05ROR/FUG
-analytic -1.59354E+1 0E+0 1.31942E+3 0E+0 0E+0
Am(CO3)(OH):0.5H2O(cr)
Am(CO3)(OH):0.5H2O = - 1.000H+ + 1.000Am+3 + 1.000CO3-2 + 1.500H2O
log_k -8.400 #03GUI/FAN
delta_h -37.775 #kJ/mol
# Enthalpy of formation: -1682.9 #kJ/mol #03GUI/FAN
-analytic -1.50179E+1 0E+0 1.97312E+3 0E+0 0E+0
Am(CO3)2Na:5H2O(s)
Am(CO3)2Na:5H2O = 1.000Na+ + 1.000Am+3 + 2.000CO3-2 + 5.000H2O
log_k -21.000 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.1E+1 0E+0 0E+0 0E+0 0E+0
Am(OH)3(am)
Am(OH)3 = - 3.000H+ + 1.000Am+3 + 3.000H2O
log_k 16.900 #03GUI/FAN, 83RAI/STR, 83EDE/BUC, 85NIT/EDE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.69E+1 0E+0 0E+0 0E+0 0E+0
Am(OH)3(cr)
Am(OH)3 = - 3.000H+ + 1.000Am+3 + 3.000H2O
log_k 15.600 #03GUI/FAN, 82SIL, 88STA/KIM1
delta_h -120.992 #kJ/mol
# Enthalpy of formation: -1353.2 #kJ/mol
-analytic -5.59686E+0 0E+0 6.31984E+3 0E+0 0E+0
Am(PO4):xH2O(am)
Am(PO4) = - 2.000H+ + 1.000Am+3 + 1.000H2(PO4)-
log_k -5.230 #95SIL/BID
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.23E+0 0E+0 0E+0 0E+0 0E+0
Am(cr)
Am = 1.000Am+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 169.375
delta_h -1036.345 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #95SIL/BID
-analytic -1.21845E+1 0E+0 5.4132E+4 0E+0 0E+0
Am2(CO3)3(cr)
Am2(CO3)3 = 2.000Am+3 + 3.000CO3-2
log_k -33.400 #95SIL/BID
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.34E+1 0E+0 0E+0 0E+0 0E+0
Am2O3(cr)
Am2O3 = - 6.000H+ + 2.000Am+3 + 3.000H2O
log_k 53.150
delta_h -400.490 #kJ/mol
# Enthalpy of formation: -1690.4 #kJ/mol #95SIL/BID
-analytic -1.70127E+1 0E+0 2.0919E+4 0E+0 0E+0
AmBr3(cr)
AmBr3 = 1.000Am+3 + 3.000Br-
log_k 23.930
delta_h -176.930 #kJ/mol
# Enthalpy of formation: -804 #kJ/mol #03GUI/FAN
-analytic -7.06676E+0 0E+0 9.24168E+3 0E+0 0E+0
AmCl3(cr)
AmCl3 = 1.000Am+3 + 3.000Cl-
log_k 15.280
delta_h -140.140 #kJ/mol
# Enthalpy of formation: -977.8 #kJ/mol #95SIL/BID
-analytic -9.27144E+0 0E+0 7.32001E+3 0E+0 0E+0
AmCl6Cs2Na(cr)
AmCl6Cs2Na = 1.000Na+ + 2.000Cs+ + 1.000Am+3 + 6.000Cl-
log_k 12.560
delta_h -59.720 #kJ/mol
# Enthalpy of formation: -2315.8 #kJ/mol #03GUI/FAN
-analytic 2.09752E+0 0E+0 3.11939E+3 0E+0 0E+0
AmF3(cr)
AmF3 = 1.000Am+3 + 3.000F-
log_k -13.400
delta_h -28.750 #kJ/mol
# Enthalpy of formation: -1594 #kJ/mol #03GUI/FAN
-analytic -1.84368E+1 0E+0 1.50171E+3 0E+0 0E+0
AmI3(cr)
AmI3 = 1.000Am+3 + 3.000I-
log_k 25.300
delta_h -172.040 #kJ/mol
# Enthalpy of formation: -615 #kJ/mol #03GUI/FAN
-analytic -4.84007E+0 0E+0 8.98626E+3 0E+0 0E+0
AmO2(cr)
AmO2 = - 3.000H+ + 1.000Am+3 + 1.500H2O + 0.250O2
log_k 12.715
delta_h -116.279 #kJ/mol
# Enthalpy of formation: -932.2 #kJ/mol #95SIL/BID
-analytic -7.65609E+0 0E+0 6.07364E+3 0E+0 0E+0
AmO2OH(am)
AmO2OH = - 1.000H+ + 1.000AmO2+ + 1.000H2O
log_k 5.300 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.3E+0 0E+0 0E+0 0E+0 0E+0
AmOBr(cr)
AmOBr = - 2.000H+ + 1.000Am+3 + 1.000Br- + 1.000H2O
log_k 15.980
delta_h -136.940 #kJ/mol
# Enthalpy of formation: -887 #kJ/mol #03GUI/FAN
-analytic -8.01082E+0 0E+0 7.15286E+3 0E+0 0E+0
AmOCl(cr)
AmOCl = - 2.000H+ + 1.000Am+3 + 1.000Cl- + 1.000H2O
log_k 12.260
delta_h -119.810 #kJ/mol
# Enthalpy of formation: -949.8 #kJ/mol #95SIL/BID
-analytic -8.72978E+0 0E+0 6.2581E+3 0E+0 0E+0
Amesite
Mg4Al4Si2O10(OH)8 = 4.000Mg+2 + 4.000Al+3 - 20.000H+ + 2.000H4(SiO4) + 10.000H2O
log_k 69.420
delta_h -766.388 #kJ/mol
# Enthalpy of formation: -9035.9 #kJ/mol #05VID/PAR
-analytic -6.48452E+1 0E+0 4.00312E+4 0E+0 0E+0
Amesite-Fe
Fe4Al4Si2O10(OH)8 = 4.000Fe+2 + 4.000Al+3 - 20.000H+ + 2.000H4(SiO4) + 10.000H2O
log_k 57.040
delta_h -686.828 #kJ/mol
# Enthalpy of formation: -7607.46 #kJ/mol #05VID/PAR
-analytic -6.32869E+1 0E+0 3.58755E+4 0E+0 0E+0
Analcime
Na0.99Al0.99Si2.01O6:H2O = 0.990Na+ + 0.990Al+3 - 3.960H+ + 2.010H4(SiO4) - 1.040H2O
log_k 6.650
delta_h -102.689 #kJ/mol
# Enthalpy of formation: -3308 #kJ/mol #04NEU/HOV
-analytic -1.13403E+1 0E+0 5.36381E+3 0E+0 0E+0
Anapaite
Ca2Fe(PO4)2:4H2O = 2.000Ca+2 + 1.000Fe+2 - 4.000H+ + 2.000H2(PO4)- + 4.000H2O
log_k 5.020 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.02E+0 0E+0 0E+0 0E+0 0E+0
Anglesite
Pb(SO4) = 1.000Pb+2 + 1.000SO4-2
log_k -7.850
delta_h 11.550 #kJ/mol
# Enthalpy of formation: -919.97 #kJ/mol #89COX/WAG
-analytic -5.82653E+0 0E+0 -6.03298E+2 0E+0 0E+0
Anhydrite
Ca(SO4) = 1.000Ca+2 + 1.000SO4-2
log_k -4.440
delta_h -17.940 #kJ/mol
# Enthalpy of formation: -1434.4 #kJ/mol #95ROB/HEM
-analytic -7.58295E+0 0E+0 9.3707E+2 0E+0 0E+0
Annite
KFe3Si3AlO10(OH)2 = 1.000K+ + 3.000Fe+2 + 1.000Al+3 - 10.000H+ + 3.000H4(SiO4)
log_k 32.770
delta_h -313.152 #kJ/mol
# Enthalpy of formation: -5130.97 #kJ/mol #95DAC/BEN
-analytic -2.20918E+1 0E+0 1.6357E+4 0E+0 0E+0
Anorthite
CaAl2Si2O8 = 1.000Ca+2 + 2.000Al+3 - 8.000H+ + 2.000H4(SiO4)
log_k 25.310
delta_h -314.358 #kJ/mol
# Enthalpy of formation: -4227.83 #kJ/mol #99ARN/STE
-analytic -2.97631E+1 0E+0 1.642E+4 0E+0 0E+0
Antarcticite
CaCl2:6H2O = 1.000Ca+2 + 2.000Cl- + 6.000H2O
log_k 3.940
delta_h 13.990 #kJ/mol
# Enthalpy of formation: -2606.13 #kJ/mol #87GAR/PAR
-analytic 6.39094E+0 0E+0 -7.30748E+2 0E+0 0E+0
Antigorite
Mg48Si34O85(OH)62 = 48.000Mg+2 - 96.000H+ + 34.000H4(SiO4) + 11.000H2O
log_k 500.160
delta_h -3822.746 #kJ/mol
# Enthalpy of formation: -71417.98 #kJ/mol #98HOL/POW
-analytic -1.69555E+2 0E+0 1.99676E+5 0E+0 0E+0
Aragonite
CaCO3 = 1.000Ca+2 + 1.000CO3-2
log_k -8.310
delta_h -10.454 #kJ/mol
# Enthalpy of formation: -1207.776 #kJ/mol #87GAR/PAR
-analytic -1.01415E+1 0E+0 5.4605E+2 0E+0 0E+0
Arcanite
K2SO4 = 2.000K+ + 1.000SO4-2
log_k -1.850
delta_h 24.080 #kJ/mol
# Enthalpy of formation: -1437.7 #kJ/mol #95ROB/HEM
-analytic 2.36863E+0 0E+0 -1.25778E+3 0E+0 0E+0
Artinite
Mg2(CO3)(OH)2:3H2O = 2.000Mg+2 - 2.000H+ + 1.000CO3-2 + 5.000H2O
log_k 9.810
delta_h -117.780 #kJ/mol
# Enthalpy of formation: -2920.6 #kJ/mol #73HEM/ROB
-analytic -1.08241E+1 0E+0 6.15207E+3 0E+0 0E+0
As(s)
As = 3.000H+ + 1.000AsO4-3 - 1.500H2O - 1.250O2
log_k 54.885
delta_h -444.228 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #09RAN/FUG
-analytic -2.29402E+1 0E+0 2.32036E+4 0E+0 0E+0
As2O5(s)
As2O5 = 6.000H+ + 2.000AsO4-3 - 3.000H2O
log_k -35.340
delta_h 10.640 #kJ/mol
# Enthalpy of formation: -929.43 #kJ/mol #65BEE/MOR
-analytic -3.3476E+1 0E+0 -5.55765E+2 0E+0 0E+0
B(OH)3(cr)
B(OH)3 = 1.000H+ + 1.000B(OH)4- - 1.000H2O
log_k -9.310
delta_h 35.514 #kJ/mol
# Enthalpy of formation: -1094.8 #kJ/mol #01LEM/FUG
-analytic -3.08822E+0 0E+0 -1.85502E+3 0E+0 0E+0
B(cr)
B = 1.000H+ + 1.000B(OH)4- - 2.500H2O - 0.750O2
log_k 100.415
delta_h -621.441 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG
-analytic -8.45654E+0 0E+0 3.24601E+4 0E+0 0E+0
B2O3(am)
B2O3 = 2.000H+ + 2.000B(OH)4- - 5.000H2O
log_k -10.630
delta_h -6.711 #kJ/mol
# Enthalpy of formation: -1254.371 #kJ/mol
-analytic -1.18057E+1 0E+0 3.50539E+2 0E+0 0E+0
B2O3(cr)
B2O3 = 2.000H+ + 2.000B(OH)4- - 5.000H2O
log_k -12.740
delta_h 12.418 #kJ/mol
# Enthalpy of formation: -1273.5 #kJ/mol #01LEM/FUG
-analytic -1.05645E+1 0E+0 -6.48636E+2 0E+0 0E+0
Ba(OH)2:8H2O(cr)
Ba(OH)2:8H2O = 1.000Ba+2 - 2.000H+ + 10.000H2O
log_k 23.870
delta_h -52.509 #kJ/mol
# Enthalpy of formation: -3340.591 #kJ/mol
-analytic 1.46708E+1 0E+0 2.74273E+3 0E+0 0E+0
Ba(SeO3)(s)
Ba(SeO3) = 1.000Ba+2 + 1.000SeO3-2
log_k -6.500 #05OLI/NOL
delta_h -5.260 #kJ/mol
# Enthalpy of formation: -1036.7 #kJ/mol #05OLI/NOL
-analytic -7.42151E+0 0E+0 2.74749E+2 0E+0 0E+0
Ba(SeO4)(cr)
Ba(SeO4) = 1.000Ba+2 + 1.000SeO4-2
log_k -7.560 #05OLI/NOL
delta_h 5.700 #kJ/mol
# Enthalpy of formation: -1144 #kJ/mol #05OLI/NOL
-analytic -6.5614E+0 0E+0 -2.97731E+2 0E+0 0E+0
Ba(cr)
Ba = 1.000Ba+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 140.690
delta_h -814.563 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG
-analytic -2.0151E+0 0E+0 4.25475E+4 0E+0 0E+0
BaCl2(cr)
BaCl2 = 1.000Ba+2 + 2.000Cl-
log_k 2.300
delta_h -13.760 #kJ/mol
# Enthalpy of formation: -855.2 #kJ/mol #95SIL/BID
-analytic -1.10645E-1 0E+0 7.18734E+2 0E+0 0E+0
BaCl2:2H2O(s)
BaCl2:2H2O = 1.000Ba+2 + 2.000Cl- + 2.000H2O
log_k -0.340
delta_h 19.418 #kJ/mol
# Enthalpy of formation: -1460.038 #kJ/mol
-analytic 3.06188E+0 0E+0 -1.01427E+3 0E+0 0E+0
BaCl2:H2O(s)
BaCl2:H2O = 1.000Ba+2 + 2.000Cl- + 1.000H2O
log_k 0.280
delta_h 5.746 #kJ/mol
# Enthalpy of formation: -1160.536 #kJ/mol
-analytic 1.28665E+0 0E+0 -3.00134E+2 0E+0 0E+0
BaF2(cr)
BaF2 = 1.000Ba+2 + 2.000F-
log_k -6.320
delta_h 1.631 #kJ/mol
# Enthalpy of formation: -1207.131 #kJ/mol
-analytic -6.03426E+0 0E+0 -8.51929E+1 0E+0 0E+0
BaHPO4(s)
BaHPO4 = 1.000Ba+2 - 1.000H+ + 1.000H2(PO4)-
log_k -0.190 #66SPI/MIK in 76SMI/MAR
delta_h -22.800 #kJ/mol
# Enthalpy of formation: -1814.6 #kJ/mol #82WAG/EVA
-analytic -4.18438E+0 0E+0 1.19093E+3 0E+0 0E+0
BaMoO4(s)
BaMoO4 = 1.000Ba+2 + 1.000MoO4-2
log_k -7.830
delta_h 13.822 #kJ/mol
# Enthalpy of formation: -1545.622 #kJ/mol
-analytic -5.40849E+0 0E+0 -7.21972E+2 0E+0 0E+0
BaO(cr)
BaO = 1.000Ba+2 - 2.000H+ + 1.000H2O
log_k 48.070
delta_h -272.530 #kJ/mol
# Enthalpy of formation: -548.1 #kJ/mol #95SIL/BID
-analytic 3.24864E-1 0E+0 1.42352E+4 0E+0 0E+0
BaS(s)
BaS = 1.000Ba+2 - 1.000H+ + 1.000HS-
log_k 15.660
delta_h -90.248 #kJ/mol
# Enthalpy of formation: -460.852 #kJ/mol
-analytic -1.50748E-1 0E+0 4.71397E+3 0E+0 0E+0
Barite
Ba(SO4) = 1.000Ba+2 + 1.000SO4-2
log_k -9.970 #85LAN/MEL in 90NOR/PLU
delta_h 26.460 #kJ/mol #85LAN/MEL in 90NOR/PLU
# Enthalpy of formation: -1470.6 #kJ/mol
-analytic -5.33441E+0 0E+0 -1.3821E+3 0E+0 0E+0
Bassanite
CaSO4:0.5H2O = 1.000Ca+2 + 1.000SO4-2 + 0.500H2O
log_k -3.920 #06BLA/PIA
delta_h -17.358 #kJ/mol
# Enthalpy of formation: -1577.897 #kJ/mol
-analytic -6.96099E+0 0E+0 9.0667E+2 0E+0 0E+0
Bassetite
Fe(UO2)2(PO4)2 = 1.000Fe+2 + 2.000UO2+2 - 4.000H+ + 2.000H2(PO4)-
log_k -1.070 #65MUT/HIR
delta_h -36.464 #kJ/mol
# Enthalpy of formation: -8996.928 #kJ/mol
-analytic -7.45821E+0 0E+0 1.90464E+3 0E+0 0E+0
Becquerelite(nat)
Ca(UO2)6O4(OH)6:8H2O = 1.000Ca+2 + 6.000UO2+2 - 14.000H+ + 18.000H2O
log_k 29.000 #97CAS/BRU
delta_h -378.310 #kJ/mol
# Enthalpy of formation: -11423.63 #kJ/mol #99CHE/EWI
-analytic -3.7277E+1 0E+0 1.97605E+4 0E+0 0E+0
Becquerelite(syn)
Ca(UO2)6O4(OH)6:8H2O = 1.000Ca+2 + 6.000UO2+2 - 14.000H+ + 18.000H2O
log_k 40.500 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.05E+1 0E+0 0E+0 0E+0 0E+0
Beidellite-Ca
Ca0.17Al2.34Si3.66O10(OH)2 = 0.170Ca+2 + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 5.770
delta_h -207.635 #kJ/mol
# Enthalpy of formation: -5737.91 #kJ/mol #15BLA/VIE
-analytic -3.0606E+1 0E+0 1.08455E+4 0E+0 0E+0
Beidellite-K
K0.34Al2.34Si3.66O10(OH)2 = 0.340K+ + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 4.600
delta_h -189.102 #kJ/mol
# Enthalpy of formation: -5749.86 #kJ/mol #15BLA/VIE
-analytic -2.85292E+1 0E+0 9.87747E+3 0E+0 0E+0
Beidellite-Mg
Mg0.17Al2.34Si3.66O10(OH)2 = 0.170Mg+2 + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 5.230
delta_h -208.815 #kJ/mol
# Enthalpy of formation: -5723.81 #kJ/mol #15BLA/VIE
-analytic -3.13528E+1 0E+0 1.09072E+4 0E+0 0E+0
Beidellite-Na
Na0.34Al2.34Si3.66O10(OH)2 = 0.340Na+ + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 5.100
delta_h -197.720 #kJ/mol
# Enthalpy of formation: -5737.23 #kJ/mol #15BLA/VIE
-analytic -2.9539E+1 0E+0 1.03276E+4 0E+0 0E+0
Beidellite_SBld-1
Ca0.185K0.104(Si3.574Al0.426)(Al1.812Mg0.090Fe0.112)O10(OH)2 = 0.185Ca+2 + 0.090Mg+2 + 0.104K+ + 0.112Fe+3 + 2.238Al+3 - 7.704H+ + 3.574H4(SiO4) - 2.296H2O
log_k 7.590
delta_h -224.486 #kJ/mol
# Enthalpy of formation: -5720.69 #kJ/mol #12GAI/BLA
-analytic -3.17382E+1 0E+0 1.17257E+4 0E+0 0E+0
Beidellite_SBld-1(4.576H2O)
Ca0.185K0.104Si3.574Al2.238Mg0.090Fe0.112O10(OH)2:4.576H2O = 0.185Ca+2 + 0.090Mg+2 + 0.104K+ + 0.112Fe+3 + 2.238Al+3 - 7.704H+ + 3.574H4(SiO4) + 2.280H2O
log_k 4.290
delta_h -193.685 #kJ/mol
# Enthalpy of formation: -7059.45 #kJ/mol #12GAI/BLA
-analytic -2.96421E+1 0E+0 1.01169E+4 0E+0 0E+0
Berlinite
Al(PO4) = 1.000Al+3 - 2.000H+ + 1.000H2(PO4)-
log_k -0.570 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.7E-1 0E+0 0E+0 0E+0 0E+0
Berndtite
SnS2 = 1.000Sn+4 - 2.000H+ + 2.000HS-
log_k -37.560
delta_h 87.401 #kJ/mol
# Enthalpy of formation: -151.5 #kJ/mol #12GAM/GAJ
-analytic -2.2248E+1 0E+0 -4.56527E+3 0E+0 0E+0
Berthierine(FeII)
(Fe2Al)(SiAl)O5(OH)4 = 2.000Al+3 + 1.000H4(SiO4) + 2.000Fe+2 + 5.000H2O - 10.000H+
log_k 34.560
delta_h -376.684 #kJ/mol
# Enthalpy of formation: -3770.46 #kJ/mol #15BLA/VIE
-analytic -3.14321E+1 0E+0 1.96755E+4 0E+0 0E+0
Berthierine(FeIII)
(Fe2.34Fe0.33Al0.33)(Si1.34Al0.66)O5(OH)4 = 0.330Fe+3 + 2.340Fe+2 + 0.990Al+3 - 8.640H+ + 1.340H4(SiO4) + 3.640H2O
log_k 28.800
delta_h -300.177 #kJ/mol
# Enthalpy of formation: -3458.03 #kJ/mol #15BLA/VIE
-analytic -2.37887E+1 0E+0 1.56793E+4 0E+0 0E+0
Berthierine_ISGS
(Si1.332Al0.668)(Al0.976Fe0.182Fe1.44Mg0.157)O5(OH)4 = 0.157Mg+2 + 0.182Fe+3 + 1.644Al+3 + 1.332H4(SiO4) + 1.440Fe+2 + 3.672H2O - 8.672H+
log_k 27.930
delta_h -318.385 #kJ/mol
# Enthalpy of formation: -3774.46 #kJ/mol #13BLA/GAI2
-analytic -2.78486E+1 0E+0 1.66304E+4 0E+0 0E+0
Berthierine_Lorraine
Fe0.608Fe0.936Mg0.37Al1.052Si1.52O5(OH)4 = 0.370Mg+2 + 0.936Fe+3 + 0.608Fe+2 + 1.052Al+3 - 7.920H+ + 1.520H4(SiO4) + 2.920H2O
log_k 1.030
delta_h -162.510 #kJ/mol
# Enthalpy of formation: -3732.9 #kJ/mol #08GAI
-analytic -2.74405E+1 0E+0 8.48848E+3 0E+0 0E+0
Bieberite
CoSO4:7H2O = 1.000Co+2 + 1.000SO4-2 + 7.000H2O
log_k -2.350
delta_h 11.840 #kJ/mol
# Enthalpy of formation: -2979.59 #kJ/mol #74NAU/RYZ
-analytic -2.75724E-1 0E+0 -6.18445E+2 0E+0 0E+0
Bischofite
MgCl2:6H2O = 1.000Mg+2 + 2.000Cl- + 6.000H2O
log_k 4.460 #84HAR/MOL
delta_h -8.710 #kJ/mol
# Enthalpy of formation: -2507.43 #kJ/mol
-analytic 2.93408E+0 0E+0 4.54954E+2 0E+0 0E+0
Bloedite
Na2Mg(SO4)2:4H2O = 1.000Mg+2 + 2.000Na+ + 2.000SO4-2 + 4.000H2O
log_k -2.350 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.35E+0 0E+0 0E+0 0E+0 0E+0
Boehmite
AlO(OH) = 1.000Al+3 - 3.000H+ + 2.000H2O
log_k 7.620
delta_h -113.660 #kJ/mol
# Enthalpy of formation: -996.4 #kJ/mol #95ROB/HEM
-analytic -1.22923E+1 0E+0 5.93687E+3 0E+0 0E+0
Brucite
Mg(OH)2 = 1.000Mg+2 - 2.000H+ + 2.000H2O
log_k 17.100 #03ALT/MET
delta_h -114.160 #kJ/mol
# Enthalpy of formation: -924.5 #kJ/mol #95ROB/HEM
-analytic -2.89994E+0 0E+0 5.96298E+3 0E+0 0E+0
Brushite
Ca(HPO4):2H2O = 1.000Ca+2 - 1.000H+ + 1.000H2(PO4)- + 2.000H2O
log_k 0.600 #84NAN
delta_h -7.375 #kJ/mol
# Enthalpy of formation: -2409.885 #kJ/mol
-analytic -6.92043E-1 0E+0 3.85223E+2 0E+0 0E+0
Bunsenite
NiO = 1.000Ni+2 - 2.000H+ + 1.000H2O
log_k 12.480
delta_h -101.142 #kJ/mol
# Enthalpy of formation: -239.7 #kJ/mol #05GAM/BUG
-analytic -5.23929E+0 0E+0 5.28301E+3 0E+0 0E+0
Burkeite
Na6(CO3)(SO4)2 = 6.000Na+ + 1.000CO3-2 + 2.000SO4-2
log_k -0.770 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.7E-1 0E+0 0E+0 0E+0 0E+0
C(cr)
C = 2.000H+ + 1.000CO3-2 - 1.000H2O - 1.000O2
log_k 53.830
delta_h -377.266 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -1.22641E+1 0E+0 1.97059E+4 0E+0 0E+0
C2SH(alpha)
Ca2(HSiO4)(OH) = 2.000Ca+2 - 4.000H+ + 1.000H4(SiO4) + 1.000H2O
log_k 35.540
delta_h -198.104 #kJ/mol
# Enthalpy of formation: -2634.92 #kJ/mol #10BLA/BOU1
-analytic 8.3372E-1 0E+0 1.03477E+4 0E+0 0E+0
C3AH6
Ca3Al2(OH)12 = 3.000Ca+2 + 2.000Al+3 - 12.000H+ + 12.000H2O
log_k 80.320 #10BLA/BOU2
delta_h -584.260 #kJ/mol
# Enthalpy of formation: -5551.5 #kJ/mol #99SCH/NAV
-analytic -2.20378E+1 0E+0 3.0518E+4 0E+0 0E+0
C3FH6
Ca3Fe2(OH)12 = 3.000Ca+2 + 2.000Fe+3 - 12.000H+ + 12.000H2O
log_k 72.390
delta_h -509.370 #kJ/mol
# Enthalpy of formation: -4647.59 #kJ/mol #10BLA/BOU2
-analytic -1.68477E+1 0E+0 2.66062E+4 0E+0 0E+0
C4AH13
Ca4Al2(OH)14:6H2O = 4.000Ca+2 + 2.000Al+3 - 14.000H+ + 20.000H2O
log_k 103.650 #10BLA/BOU2
delta_h -647.400 #kJ/mol
# Enthalpy of formation: -8318 #kJ/mol #76HOU/STE
-analytic -9.76944E+0 0E+0 3.3816E+4 0E+0 0E+0
C4FH13
Ca4Fe2(OH)14:6H2O = 4.000Ca+2 + 2.000Fe+3 - 14.000H+ + 20.000H2O
log_k 95.160
delta_h -569.200 #kJ/mol
# Enthalpy of formation: -7417.4 #kJ/mol #10BLA/BOU2
-analytic -4.55941E+0 0E+0 2.97313E+4 0E+0 0E+0
CSH0.8
Ca0.8SiO2.8:1.54H2O = 0.800Ca+2 - 1.600H+ + 1.000H4(SiO4) + 0.340H2O
log_k 11.050 #10BLA/BOU1
delta_h -47.646 #kJ/mol
# Enthalpy of formation: -1945.13 #kJ/mol #10BLA/BOU1
-analytic 2.70279E+0 0E+0 2.48872E+3 0E+0 0E+0
CSH1.2
Ca1.2SiO3.2:2.06H2O = 1.200Ca+2 - 2.400H+ + 1.000H4(SiO4) + 1.260H2O
log_k 19.300 #10BLA/BOU1
delta_h -88.600 #kJ/mol
# Enthalpy of formation: -2384.34 #kJ/mol #10BLA/BOU1
-analytic 3.77797E+0 0E+0 4.62789E+3 0E+0 0E+0
CSH1.6
Ca1.6SiO3.6:2.58H2O = 1.600Ca+2 - 3.200H+ + 1.000H4(SiO4) + 2.180H2O
log_k 28.000 #10BLA/BOU1
delta_h -133.313 #kJ/mol
# Enthalpy of formation: -2819.79 #kJ/mol #10BLA/BOU1
-analytic 4.6446E+0 0E+0 6.96341E+3 0E+0 0E+0
Ca(Adipate)(s)
Ca(Adipate) = 1.000Ca+2 + 1.000Adipate-2
log_k -3.300 #12GRI/GAR2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.3E+0 0E+0 0E+0 0E+0 0E+0
Ca(HGlu)2(s)
Ca(HGlu)2 = 1.000Ca+2 + 2.000HGlu-
log_k -4.190 #99VAN/GLA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.19E+0 0E+0 0E+0 0E+0 0E+0
Ca(HIsa)2(cr)
Ca(HIsa)2 = 1.000Ca+2 + 2.000HIsa-
log_k -6.400 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.4E+0 0E+0 0E+0 0E+0 0E+0
Ca(HPO4)(s)
Ca(HPO4) = 1.000Ca+2 - 1.000H+ + 1.000H2(PO4)-
log_k 0.300 #84NAN
delta_h -24.098 #kJ/mol
# Enthalpy of formation: -1821.502 #kJ/mol
-analytic -3.92178E+0 0E+0 1.25872E+3 0E+0 0E+0
Ca(NO3)2(s)
Ca(NO3)2 = 1.000Ca+2 + 2.000NO3-
log_k 5.890 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.89E+0 0E+0 0E+0 0E+0 0E+0
Ca(Ox):2H2O(s)
Ca(Ox):2H2O = 1.000Ca+2 + 1.000Ox-2 + 2.000H2O
log_k -8.300 #05HUM/AND
delta_h 25.200 #kJ/mol
# Enthalpy of formation: -1970.52 #kJ/mol
-analytic -3.88516E+0 0E+0 -1.31629E+3 0E+0 0E+0
Ca(Ox):3H2O(s)
Ca(Ox):3H2O = 1.000Ca+2 + 1.000Ox-2 + 3.000H2O
log_k -8.190 #05HUM/AND
delta_h 29.700 #kJ/mol
# Enthalpy of formation: -2260.85 #kJ/mol
-analytic -2.98679E+0 0E+0 -1.55134E+3 0E+0 0E+0
Ca(Ox):H2O(s)
Ca(Ox):H2O = 1.000Ca+2 + 1.000Ox-2 + 1.000H2O
log_k -8.730 #05HUM/AND
delta_h 21.500 #kJ/mol
# Enthalpy of formation: -1680.99 #kJ/mol
-analytic -4.96337E+0 0E+0 -1.12302E+3 0E+0 0E+0
Ca(SO3)(s)
Ca(SO3) = 1.000Ca+2 + 1.000SO3-2
log_k -6.500 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de la base 0391 MINEQL- PSY)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.5E+0 0E+0 0E+0 0E+0 0E+0
Ca(SeO3):H2O(s)
Ca(SeO3):H2O = 1.000Ca+2 + 1.000SeO3-2 + 1.000H2O
log_k -6.400 #05OLI/NOL
delta_h -11.190 #kJ/mol
# Enthalpy of formation: -1324.8 #kJ/mol #05OLI/NOL
-analytic -8.3604E+0 0E+0 5.84494E+2 0E+0 0E+0
Ca(SeO4):2H2O(s)
Ca(SeO4):2H2O = 1.000Ca+2 + 1.000SeO4-2 + 2.000H2O
log_k -2.680 #05OLI/NOL
delta_h -9.160 #kJ/mol
# Enthalpy of formation: -1709 #kJ/mol #05OLI/NOL
-analytic -4.28476E+0 0E+0 4.78459E+2 0E+0 0E+0
Ca(s)
Ca = 1.000Ca+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 139.840
delta_h -822.763 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -4.30168E+0 0E+0 4.29758E+4 0E+0 0E+0
Ca2(Pyrophos)(s)
Ca2(Pyrophos) = 2.000Ca+2 + 1.000Pyrophos-4
log_k -15.500 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.55E+1 0E+0 0E+0 0E+0 0E+0
Ca2Cl2(OH)2:H2O(s)
Ca2Cl2(OH)2:H2O = 2.000Ca+2 - 2.000H+ + 2.000Cl- + 3.000H2O
log_k 26.530 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.653E+1 0E+0 0E+0 0E+0 0E+0
Ca2Fe2O5(s)
Ca2Fe2O5 = 2.000Ca+2 + 2.000Fe+3 - 10.000H+ + 5.000H2O
log_k 56.760
delta_h -473.870 #kJ/mol
# Enthalpy of formation: -2138.3 #kJ/mol
-analytic -2.62583E+1 0E+0 2.47519E+4 0E+0 0E+0
Ca2ZrSi3O12(cr)
Ca2ZrSi3O12 = 2.000Ca+2 - 8.000H+ + 3.000H4(SiO4) + 1.000Zr+4 - 2.000H2O + 1.000O2
log_k -154.250
delta_h 764.444 #kJ/mol
# Enthalpy of formation: -6283 #kJ/mol #05BRO/CUR
-analytic -2.03254E+1 0E+0 -3.99296E+4 0E+0 0E+0
Ca3(AsO4)2:xH2O
Ca3(AsO4)2 = 3.000Ca+2 + 2.000AsO4-3
log_k -21.000 #11GRI/COL4
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.1E+1 0E+0 0E+0 0E+0 0E+0
Ca3(Cit)2:4H2O(s)
Ca3(Cit)2:4H2O = 3.000Ca+2 + 2.000Cit-3 + 4.000H2O
log_k -17.900 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.79E+1 0E+0 0E+0 0E+0 0E+0
Ca3(PO4)2(alfa)
Ca3(PO4)2 = 3.000Ca+2 - 4.000H+ + 2.000H2(PO4)-
log_k 10.220 #84NAN
delta_h -125.300 #kJ/mol
# Enthalpy of formation: -4108.9 #kJ/mol
-analytic -1.17316E+1 0E+0 6.54487E+3 0E+0 0E+0
Ca3B2O6(s)
Ca3B2O6 = 3.000Ca+2 - 4.000H+ + 2.000B(OH)4- - 2.000H2O
log_k 40.580
delta_h -318.306 #kJ/mol
# Enthalpy of formation: -3429.266 #kJ/mol
-analytic -1.51847E+1 0E+0 1.66263E+4 0E+0 0E+0
Ca3ZrSi2O9(cr)
Ca3ZrSi2O9 = 3.000Ca+2 - 10.000H+ + 2.000H4(SiO4) + 1.000Zr+4 + 1.000H2O
log_k 47.870
delta_h -416.718 #kJ/mol
# Enthalpy of formation: -5029 #kJ/mol #05BRO/CUR
-analytic -2.51358E+1 0E+0 2.17667E+4 0E+0 0E+0
Ca4Al2O6(CrO4):15H2O(s)
Ca4Al2O6(CrO4):15H2O = 4.000Ca+2 + 2.000Al+3 - 12.000H+ + 1.000CrO4-2 + 21.000H2O
log_k 71.360 #01PER/PAL
delta_h -545.980 #kJ/mol #01PER/PAL
# Enthalpy of formation: -9584.25 #kJ/mol
-analytic -2.42914E+1 0E+0 2.85185E+4 0E+0 0E+0
Ca4Cl2(OH)6:13H2O(s)
Ca4Cl2(OH)6:13H2O = 4.000Ca+2 - 6.000H+ + 2.000Cl- + 19.000H2O
log_k 68.730 #84HAR/MOL
delta_h -271.930 #kJ/mol
# Enthalpy of formation: -7665 #kJ/mol #82WAG/EVA
-analytic 2.109E+1 0E+0 1.42039E+4 0E+0 0E+0
Ca4H(PO4)3:2.5H2O(s)
Ca4H(PO4)3:2.5H2O = 4.000Ca+2 - 5.000H+ + 3.000H2(PO4)- + 2.500H2O
log_k 11.810 #84NAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.181E+1 0E+0 0E+0 0E+0 0E+0
Ca6(Al(OH)6)2(CrO4)3:26H2O(s)
Ca6(Al(OH)6)2(CrO4)3:26H2O = 6.000Ca+2 + 2.000Al+3 - 12.000H+ + 3.000CrO4-2 + 38.000H2O
log_k 60.280 #00PER/PAL
delta_h -509.590 #kJ/mol #00PER/PAL
# Enthalpy of formation: -17323.75 #kJ/mol
-analytic -2.89962E+1 0E+0 2.66177E+4 0E+0 0E+0
CaB2O4(s)
CaB2O4 = 1.000Ca+2 + 2.000B(OH)4- - 4.000H2O
log_k -2.180
delta_h -58.908 #kJ/mol
# Enthalpy of formation: -2031.004 #kJ/mol
-analytic -1.25002E+1 0E+0 3.07697E+3 0E+0 0E+0
CaB4O7(s)
CaB4O7 = 1.000Ca+2 + 2.000H+ + 4.000B(OH)4- - 9.000H2O
log_k -23.440
delta_h 9.373 #kJ/mol
# Enthalpy of formation: -3360.367 #kJ/mol
-analytic -2.17979E+1 0E+0 -4.89585E+2 0E+0 0E+0
CaCO3:H2O(s)
CaCO3:H2O = 1.000Ca+2 + 1.000CO3-2 + 1.000H2O
log_k -7.600 #73HUL/TUR
delta_h -5.770 #kJ/mol
# Enthalpy of formation: -1498.29 #kJ/mol #73HUL/TUR
-analytic -8.61086E+0 0E+0 3.01388E+2 0E+0 0E+0
CaCl2:2H2O(cr)
CaCl2:2H2O = 1.000Ca+2 + 2.000Cl- + 2.000H2O
log_k 7.950
delta_h -44.790 #kJ/mol
# Enthalpy of formation: -1404.03 #kJ/mol #87GAR/PAR
-analytic 1.0314E-1 0E+0 2.33954E+3 0E+0 0E+0
CaCl2:4H2O(cr)
CaCl2:4H2O = 1.000Ca+2 + 2.000Cl- + 4.000H2O
log_k 5.350
delta_h -11.310 #kJ/mol
# Enthalpy of formation: -2009.17 #kJ/mol #87GAR/PAR
-analytic 3.36858E+0 0E+0 5.90762E+2 0E+0 0E+0
CaCl2:H2O(s)
CaCl2:H2O = 1.000Ca+2 + 2.000Cl- + 1.000H2O
log_k 7.850
delta_h -52.160 #kJ/mol
# Enthalpy of formation: -1110.83 #kJ/mol #87GAR/PAR
-analytic -1.28803E+0 0E+0 2.7245E+3 0E+0 0E+0
CaCrO4(s)
CaCrO4 = 1.000Ca+2 + 1.000CrO4-2
log_k -3.150 #03DEA
delta_h -22.814 #kJ/mol
# Enthalpy of formation: -1399.186 #kJ/mol
-analytic -7.14684E+0 0E+0 1.19166E+3 0E+0 0E+0
CaF2:6H2O(s)
CaF2:6H2O = 1.000Ca+2 + 2.000F- + 6.000H2O
log_k -5.480 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.48E+0 0E+0 0E+0 0E+0 0E+0
CaFe2O4(s)
CaFe2O4 = 1.000Ca+2 + 2.000Fe+3 - 8.000H+ + 4.000H2O
log_k 21.240 #79ROB
delta_h -263.980 #kJ/mol
# Enthalpy of formation: -1520.34 #kJ/mol
-analytic -2.50072E+1 0E+0 1.37886E+4 0E+0 0E+0
CaI2(s)
CaI2 = 1.000Ca+2 + 2.000I-
log_k 22.500 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.25E+1 0E+0 0E+0 0E+0 0E+0
CaMg3(CO3)4(s)
CaMg3(CO3)4 = 1.000Ca+2 + 3.000Mg+2 + 4.000CO3-2
log_k -30.810 #
delta_h -112.340 #kJ/mol
# Enthalpy of formation: -4532.58 #kJ/mol #73HEM/ROB
-analytic -5.04911E+1 0E+0 5.86792E+3 0E+0 0E+0
CaMoO4(s)
CaMoO4 = 1.000Ca+2 + 1.000MoO4-2
log_k -7.900
delta_h 1.424 #kJ/mol
# Enthalpy of formation: -1541.424 #kJ/mol
-analytic -7.65053E+0 0E+0 -7.43806E+1 0E+0 0E+0
CaO(cr)
CaO = 1.000Ca+2 - 2.000H+ + 1.000H2O
log_k 32.700
delta_h -193.910 #kJ/mol
# Enthalpy of formation: -634.92 #kJ/mol #89COX/WAG
-analytic -1.27152E+0 0E+0 1.01286E+4 0E+0 0E+0
CaSn(OH)6(s)
CaSn(OH)6 = 1.000Ca+2 + 1.000Sn+4 - 6.000H+ + 6.000H2O
log_k -0.740 #Log K¿ estimated as the mean value of data in 00LOT/OCH2 (uncertainty to include both values) recalculated using values of Sn(OH)6-2 selected in this work
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.4E-1 0E+0 0E+0 0E+0 0E+0
CaU2O7:3H2O(cr)
CaU2O7:3H2O = 1.000Ca+2 + 2.000UO2+2 - 6.000H+ + 6.000H2O
log_k 23.400 #05ALT/NEC
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.34E+1 0E+0 0E+0 0E+0 0E+0
Cadmoselite
CdSe = 1.000Cd+2 - 1.000H+ + 1.000HSe-
log_k -18.680
delta_h 81.480 #kJ/mol
# Enthalpy of formation: -143.1 #kJ/mol #05OLI/NOL
-analytic -4.40534E+0 0E+0 -4.25599E+3 0E+0 0E+0
Calcite
CaCO3 = 1.000Ca+2 + 1.000CO3-2
log_k -8.480 #82PLUM/BUS
delta_h -10.620 #kJ/mol #82PLUM/BUS
# Enthalpy of formation: -1207.61 #kJ/mol
-analytic -1.03405E+1 0E+0 5.5472E+2 0E+0 0E+0
Carnallite
KMgCl3:6H2O = 1.000Mg+2 + 1.000K+ + 3.000Cl- + 6.000H2O
log_k 4.330 #84HAR/MOL
delta_h 9.339 #kJ/mol
# Enthalpy of formation: -2944.699 #kJ/mol #74NAU/RYZ
-analytic 5.96612E+0 0E+0 -4.87809E+2 0E+0 0E+0
Cassiterite
SnO2 = 1.000Sn+4 - 4.000H+ + 2.000H2O
log_k -15.600
delta_h -25.529 #kJ/mol
# Enthalpy of formation: -577.63 #kJ/mol #12GAM/GAJ
-analytic -2.00725E+1 0E+0 1.33347E+3 0E+0 0E+0
Cattierite
CoS2 = 1.000Co+2 + 2.000HS- - 1.000H2O + 0.500O2
log_k -62.970
delta_h 340.463 #kJ/mol
# Enthalpy of formation: -150.9 #kJ/mol #95ROB/HEM
-analytic -3.32353E+0 0E+0 -1.77836E+4 0E+0 0E+0
Cd(CO3)(s)
Cd(CO3) = 1.000Cd+2 + 1.000CO3-2
log_k -12.100 #91RAI/FEL1
delta_h 1.482 #kJ/mol
# Enthalpy of formation: -752.632 #kJ/mol
-analytic -1.18404E+1 0E+0 -7.74101E+1 0E+0 0E+0
Cd(OH)2(s)
Cd(OH)2 = 1.000Cd+2 - 2.000H+ + 2.000H2O
log_k 13.860 #91RAI/FEL1
delta_h -87.730 #kJ/mol
# Enthalpy of formation: -559.85 #kJ/mol
-analytic -1.50961E+0 0E+0 4.58245E+3 0E+0 0E+0
Cd(SO4)(cr)
Cd(SO4) = 1.000Cd+2 + 1.000SO4-2
log_k -0.160
delta_h -51.980 #kJ/mol
# Enthalpy of formation: -933.28 #kJ/mol #82WAG/EVA
-analytic -9.26649E+0 0E+0 2.7151E+3 0E+0 0E+0
Cd(SO4):2.67H2O(cr)
Cd(SO4):2.67H2O = 1.000Cd+2 + 1.000SO4-2 + 2.670H2O
log_k -1.550
delta_h -20.126 #kJ/mol
# Enthalpy of formation: -1728.3 #kJ/mol #89COX/WAG
-analytic -5.07592E+0 0E+0 1.05125E+3 0E+0 0E+0
Cd(SeCn)2(cr)
Cd(SeCn)2 = 1.000Cd+2 + 2.000H+ + 2.000Cn- + 2.000HSe- - 2.000H2O + 1.000O2
log_k -117.730
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.1773E+2 0E+0 0E+0 0E+0 0E+0
Cd(cr)
Cd = 1.000Cd+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 56.610
delta_h -355.683 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -5.7029E+0 0E+0 1.85786E+4 0E+0 0E+0
Cd3(AsO4)2(s)
Cd3(AsO4)2 = 3.000Cd+2 + 2.000AsO4-3
log_k -32.620
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.262E+1 0E+0 0E+0 0E+0 0E+0
Cd3(PO4)2(s)
Cd3(PO4)2 = 3.000Cd+2 - 4.000H+ + 2.000H2(PO4)-
log_k 8.970
delta_h -206.960 #kJ/mol
# Enthalpy of formation: -2626 #kJ/mol #01BEN/JEM
-analytic -2.72878E+1 0E+0 1.08103E+4 0E+0 0E+0
Cd5(PO4)3Cl(cr)
Cd5(PO4)3Cl = 5.000Cd+2 - 6.000H+ + 1.000Cl- + 3.000H2(PO4)-
log_k 12.670
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.267E+1 0E+0 0E+0 0E+0 0E+0
Cd5(PO4)3OH(cr)
Cd5(PO4)3OH = 5.000Cd+2 - 7.000H+ + 3.000H2(PO4)- + 1.000H2O
log_k 19.840
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.984E+1 0E+0 0E+0 0E+0 0E+0
CdB2O4(s)
CdB2O4 = 1.000Cd+2 + 2.000B(OH)4- - 4.000H2O
log_k -8.640 #91BAL/NOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.64E+0 0E+0 0E+0 0E+0 0E+0
CdCl2(s)
CdCl2 = 1.000Cd+2 + 2.000Cl-
log_k -0.660
delta_h -18.580 #kJ/mol
# Enthalpy of formation: -391.5 #kJ/mol #74NAU/RYZ
-analytic -3.91507E+0 0E+0 9.705E+2 0E+0 0E+0
CdCl2:2.5H2O(s)
CdCl2:2.5H2O = 1.000Cd+2 + 2.000Cl- + 2.500H2O
log_k -1.900
delta_h 7.285 #kJ/mol
# Enthalpy of formation: -1131.94 #kJ/mol #82WAG/EVA
-analytic -6.23725E-1 0E+0 -3.80521E+2 0E+0 0E+0
CdCl2:H2O(cr)
CdCl2:H2O = 1.000Cd+2 + 2.000Cl- + 1.000H2O
log_k -1.690
delta_h -7.470 #kJ/mol
# Enthalpy of formation: -688.44 #kJ/mol #82WAG/EVA
-analytic -2.99869E+0 0E+0 3.90185E+2 0E+0 0E+0
CdO(s)
CdO = 1.000Cd+2 - 2.000H+ + 1.000H2O
log_k 15.100
delta_h -103.400 #kJ/mol
# Enthalpy of formation: -258.35 #kJ/mol #89COX/WAG
-analytic -3.01488E+0 0E+0 5.40095E+3 0E+0 0E+0
CdS(s)
CdS = 1.000Cd+2 - 1.000H+ + 1.000HS-
log_k -14.820 #99WAN/TES
delta_h 56.570 #kJ/mol
# Enthalpy of formation: -148.79 #kJ/mol #06DEO/NAV
-analytic -4.90938E+0 0E+0 -2.95485E+3 0E+0 0E+0
CdSiO3(cr)
CdSiO3 = 1.000Cd+2 - 2.000H+ + 1.000H4(SiO4) - 1.000H2O
log_k 7.790
delta_h -62.194 #kJ/mol
# Enthalpy of formation: -1189.09 #kJ/mol #77BAR/KNA
-analytic -3.10591E+0 0E+0 3.24861E+3 0E+0 0E+0
Celadonite-Fe
KFeAlSi4O10(OH)2 = 1.000K+ + 1.000Fe+2 + 1.000Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 10.220
delta_h -103.866 #kJ/mol
# Enthalpy of formation: -5478.13 #kJ/mol #02
-analytic -7.97652E+0 0E+0 5.42529E+3 0E+0 0E+0
Celadonite-Mg
KMgAlSi4O10(OH)2 = 1.000Mg+2 + 1.000K+ + 1.000Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 10.220
delta_h -124.256 #kJ/mol
# Enthalpy of formation: -5834.74 #kJ/mol #02PAR/VID
-analytic -1.15487E+1 0E+0 6.49033E+3 0E+0 0E+0
Celestite
Sr(SO4) = 1.000Sr+2 + 1.000SO4-2
log_k -6.620 #06BLA/IGN
delta_h -2.451 #kJ/mol
# Enthalpy of formation: -1457.788 #kJ/mol
-analytic -7.0494E+0 0E+0 1.28024E+2 0E+0 0E+0
Cerussite
Pb(CO3) = 1.000Pb+2 + 1.000CO3-2
log_k -13.290
delta_h 27.414 #kJ/mol
# Enthalpy of formation: -701.723 #kJ/mol
-analytic -8.48728E+0 0E+0 -1.43193E+3 0E+0 0E+0
Chabazite
CaAl2Si4O12:6H2O = 1.000Ca+2 + 2.000Al+3 - 8.000H+ + 4.000H4(SiO4) + 2.000H2O
log_k 11.540
delta_h -209.796 #kJ/mol
# Enthalpy of formation: -7826.44 #kJ/mol #09BLA
-analytic -2.52146E+1 0E+0 1.09584E+4 0E+0 0E+0
Chamosite
Fe5Al2Si3O10(OH)8 = 5.000Fe+2 + 2.000Al+3 - 16.000H+ + 3.000H4(SiO4) + 6.000H2O
log_k 47.600
delta_h -504.512 #kJ/mol
# Enthalpy of formation: -7120.85 #kJ/mol #05VID/PAR
-analytic -4.07866E+1 0E+0 2.63525E+4 0E+0 0E+0
Chloroapatite
Ca5Cl(PO4)3 = 5.000Ca+2 - 6.000H+ + 1.000Cl- + 3.000H2(PO4)-
log_k 5.210 #68VAL/KOG
delta_h -132.541 #kJ/mol
# Enthalpy of formation: -6657.339 #kJ/mol
-analytic -1.80102E+1 0E+0 6.92309E+3 0E+0 0E+0
Chromite
FeCr2O4 = 1.000Fe+2 - 8.000H+ + 2.000Cr+3 + 4.000H2O
log_k 15.120
delta_h -268.820 #kJ/mol
# Enthalpy of formation: -1445.5 #kJ/mol #95ROB/HEM
-analytic -3.19752E+1 0E+0 1.40414E+4 0E+0 0E+0
Clarkeite
Na(UO2)O(OH) = 1.000Na+ + 1.000UO2+2 - 3.000H+ + 2.000H2O
log_k 9.400 #08GOR/FEI
delta_h -106.300 #kJ/mol
# Enthalpy of formation: -1724.7 #kJ/mol #06KUB/HEL
-analytic -9.22293E+0 0E+0 5.55243E+3 0E+0 0E+0
Claudetite
As2O3 = - 3.000H2O + 2.000H3(AsO3)
log_k -1.460
delta_h 28.240 #kJ/mol
# Enthalpy of formation: -655.15 #kJ/mol
-analytic 3.48743E+0 0E+0 -1.47508E+3 0E+0 0E+0
Clausthalite
PbSe = 1.000Pb+2 - 1.000H+ + 1.000HSe-
log_k -20.530
delta_h 113.720 #kJ/mol
# Enthalpy of formation: -98.5 #kJ/mol #05OLI/NOL
-analytic -6.0714E-1 0E+0 -5.94E+3 0E+0 0E+0
Clinochlore
Mg5Al2Si3O10(OH)8 = 5.000Mg+2 + 2.000Al+3 - 16.000H+ + 3.000H4(SiO4) + 6.000H2O
log_k 61.720
delta_h -600.772 #kJ/mol
# Enthalpy of formation: -8909.59 #kJ/mol #05VID/PAR
-analytic -4.35306E+1 0E+0 3.13805E+4 0E+0 0E+0
Clinoptilolite_Ca
Ca0.55(Si4.9Al1.1)O12:3.9H2O = 0.550Ca+2 + 1.100Al+3 - 4.400H+ + 4.900H4(SiO4) - 3.700H2O
log_k -2.350 #09BLA
delta_h -68.512 #kJ/mol
# Enthalpy of formation: -6924.658 #kJ/mol
-analytic -1.43528E+1 0E+0 3.57863E+3 0E+0 0E+0
Clinoptilolite_K
K1.1(Si4.9Al1.1)O12:2.7H2O = 1.100K+ + 1.100Al+3 - 4.400H+ + 4.900H4(SiO4) - 4.900H2O
log_k -1.230 #09BLA
delta_h -60.128 #kJ/mol
# Enthalpy of formation: -6568.749 #kJ/mol
-analytic -1.1764E+1 0E+0 3.1407E+3 0E+0 0E+0
Clinoptilolite_Na
Na1.1(Si4.9Al1.1)O12:3.5H2O = 1.100Na+ + 1.100Al+3 - 4.400H+ + 4.900H4(SiO4) - 4.100H2O
log_k -0.090 #09BLA
delta_h -62.470 #kJ/mol
# Enthalpy of formation: -6782.091 #kJ/mol
-analytic -1.10343E+1 0E+0 3.26303E+3 0E+0 0E+0
Cm(CO3)(OH)(cr)
Cm(CO3)(OH) = - 1.000H+ + 1.000CO3-2 + 1.000Cm+3 + 1.000H2O
log_k -10.340 #estimated by correlation with Ln(III) and An(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.034E+1 0E+0 0E+0 0E+0 0E+0
Cm(CO3)(OH):0.5H2O(s)
Cm(CO3)(OH):0.5H2O = - 1.000H+ + 1.000CO3-2 + 1.000Cm+3 + 1.500H2O
log_k -7.780 #estimated by correlation with Ln(III) and An(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.78E+0 0E+0 0E+0 0E+0 0E+0
Cm(OH)3(am)
Cm(OH)3 = - 3.000H+ + 1.000Cm+3 + 3.000H2O
log_k 17.900 #estimated from ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.79E+1 0E+0 0E+0 0E+0 0E+0
Cm(OH)3(cr)
Cm(OH)3 = - 3.000H+ + 1.000Cm+3 + 3.000H2O
log_k 15.600 #estimated from ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.56E+1 0E+0 0E+0 0E+0 0E+0
Cm(PO4):xH2O(s)
Cm(PO4) = - 2.000H+ + 1.000H2(PO4)- + 1.000Cm+3
log_k -4.970 #estimated by correlation with Ln(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.97E+0 0E+0 0E+0 0E+0 0E+0
Cm(cr)
Cm = 1.000Cm+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 168.795 #01KON2
delta_h -1034.645 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -1.24667E+1 0E+0 5.40432E+4 0E+0 0E+0
Cm2(CO3)3(am)
Cm2(CO3)3 = 3.000CO3-2 + 2.000Cm+3
log_k -33.900 #estimated in analogy wiht Ln(III) and Am(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.39E+1 0E+0 0E+0 0E+0 0E+0
Cm2O3(cr)
Cm2O3 = - 6.000H+ + 2.000Cm+3 + 3.000H2O
log_k 53.100
delta_h -403.490 #kJ/mol
# Enthalpy of formation: -1684 #kJ/mol #01KON2
-analytic -1.75883E+1 0E+0 2.10757E+4 0E+0 0E+0
CmCl3(cr)
CmCl3 = 3.000Cl- + 1.000Cm+3
log_k 15.070
delta_h -141.840 #kJ/mol
# Enthalpy of formation: -974.4 #kJ/mol #85BAR/PAR
-analytic -9.77926E+0 0E+0 7.40881E+3 0E+0 0E+0
CmF3(cr)
CmF3 = 3.000F- + 1.000Cm+3
log_k -13.160
delta_h -32.036 #kJ/mol
# Enthalpy of formation: -1589.014 #kJ/mol #estimated by 97SVE/SHO equation
-analytic -1.87725E+1 0E+0 1.67335E+3 0E+0 0E+0
CmOCl(cr)
CmOCl = - 2.000H+ + 1.000Cl- + 1.000Cm+3 + 1.000H2O
log_k 9.490
delta_h -104.710 #kJ/mol
# Enthalpy of formation: -963.2 #kJ/mol #85BAR/PAR
-analytic -8.85438E+0 0E+0 5.46938E+3 0E+0 0E+0
CmOHCO3(am)
CmOHCO3 = - 1.000H+ + 1.000CO3-2 + 1.000Cm+3 + 1.000H2O
log_k -6.120 #estimated in anlogy with Ln(III) and Am(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.12E+0 0E+0 0E+0 0E+0 0E+0
Co(FeO2)2(alpha)
Co(FeO2)2 = 2.000Fe+3 + 1.000Co+2 - 8.000H+ + 4.000H2O
log_k 0.770
delta_h -159.200 #kJ/mol
# Enthalpy of formation: -1139.72 #kJ/mol #74NAU/RYZ
-analytic -2.71206E+1 0E+0 8.31558E+3 0E+0 0E+0
Co(OH)2(s,blue)
Co(OH)2 = 1.000Co+2 - 2.000H+ + 2.000H2O
log_k 13.800 #98PLY/ZHA1
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.38E+1 0E+0 0E+0 0E+0 0E+0
Co(OH)2(s,rose1)
Co(OH)2 = 1.000Co+2 - 2.000H+ + 2.000H2O
log_k 12.200 #98PLY/ZHA1
delta_h -88.460 #kJ/mol
# Enthalpy of formation: -540.8 #kJ/mol #98PLY/ZHA1
-analytic -3.2975E+0 0E+0 4.62058E+3 0E+0 0E+0
Co(OH)2(s,rose2)
Co(OH)2 = 1.000Co+2 - 2.000H+ + 2.000H2O
log_k 13.200 #98PLY/ZHA1
delta_h -93.560 #kJ/mol
# Enthalpy of formation: -535.7 #kJ/mol #98PLY/ZHA1
-analytic -3.19098E+0 0E+0 4.88697E+3 0E+0 0E+0
Co(SeO3):2H2O(s)
Co(SeO3):2H2O = 1.000Co+2 + 1.000SeO3-2 + 2.000H2O
log_k -7.900 #05OLI/NOL
delta_h -20.860 #kJ/mol
# Enthalpy of formation: -1115.56 #kJ/mol #05OLI/NOL
-analytic -1.15545E+1 0E+0 1.08959E+3 0E+0 0E+0
Co(SeO4):6H2O(s)
Co(SeO4):6H2O = 1.000Co+2 + 1.000SeO4-2 + 6.000H2O
log_k -1.760 #05OLI/NOL
delta_h -3.299 #kJ/mol
# Enthalpy of formation: -2372.781 #kJ/mol
-analytic -2.33796E+0 0E+0 1.72319E+2 0E+0 0E+0
Co(cr)
Co = 1.000Co+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 52.730
delta_h -337.363 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -6.37337E+0 0E+0 1.76217E+4 0E+0 0E+0
Co0.84Se(cr)
Co0.84Se = 0.840Co+2 - 0.680H+ + 1.000HSe- - 0.160H2O + 0.080O2
log_k -16.178
delta_h 66.078 #kJ/mol
# Enthalpy of formation: -55.4 #kJ/mol #05OLI/NOL
-analytic -4.60203E+0 0E+0 -3.45149E+3 0E+0 0E+0
Co2SiO4(s)
Co2SiO4 = 2.000Co+2 - 4.000H+ + 1.000H4(SiO4)
log_k 7.350
delta_h -99.394 #kJ/mol
# Enthalpy of formation: -1477 #kJ/mol #82WAG/EVA
-analytic -1.00631E+1 0E+0 5.1917E+3 0E+0 0E+0
Co3(AsO4)2(s)
Co3(AsO4)2 = 3.000Co+2 + 2.000AsO4-3
log_k -27.560
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.756E+1 0E+0 0E+0 0E+0 0E+0
Co3(PO4)2(s)
Co3(PO4)2 = 3.000Co+2 - 4.000H+ + 2.000H2(PO4)-
log_k 4.360 #84VIE/TAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.36E+0 0E+0 0E+0 0E+0 0E+0
Co3O4(s)
Co3O4 = 3.000Co+2 - 6.000H+ + 3.000H2O + 0.500O2
log_k 11.870
delta_h -117.537 #kJ/mol
# Enthalpy of formation: -918.8 #kJ/mol #95ROB/HEM
-analytic -8.72157E+0 0E+0 6.13938E+3 0E+0 0E+0
CoCl2(s)
CoCl2 = 1.000Co+2 + 2.000Cl-
log_k 8.470
delta_h -79.220 #kJ/mol
# Enthalpy of formation: -312.54 #kJ/mol #98CHA
-analytic -5.40873E+0 0E+0 4.13794E+3 0E+0 0E+0
CoCl2:6H2O(s)
CoCl2:6H2O = 1.000Co+2 + 2.000Cl- + 6.000H2O
log_k 2.540 #97MAR/SMI
delta_h 8.060 #kJ/mol #97MAR/SMI
# Enthalpy of formation: -2114.8 #kJ/mol
-analytic 3.95205E+0 0E+0 -4.21003E+2 0E+0 0E+0
CoF2(s)
CoF2 = 1.000Co+2 + 2.000F-
log_k -1.390
delta_h -56.770 #kJ/mol
# Enthalpy of formation: -671.53 #kJ/mol #98CHA
-analytic -1.13357E+1 0E+0 2.9653E+3 0E+0 0E+0
CoHPO4(s)
CoHPO4 = 1.000Co+2 - 1.000H+ + 1.000H2(PO4)-
log_k 0.490 #84VIE/TAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.9E-1 0E+0 0E+0 0E+0 0E+0
CoO(s)
CoO = 1.000Co+2 - 2.000H+ + 1.000H2O
log_k 13.770
delta_h -105.530 #kJ/mol
# Enthalpy of formation: -237.9 #kJ/mol #95ROB/HEM
-analytic -4.71804E+0 0E+0 5.51221E+3 0E+0 0E+0
CoS(alpha)
CoS = 1.000Co+2 - 1.000H+ + 1.000HS-
log_k -7.440 #90DYR/KRE
delta_h 11.836 #kJ/mol
# Enthalpy of formation: -85.736 #kJ/mol
-analytic -5.36642E+0 0E+0 -6.18236E+2 0E+0 0E+0
CoS(beta)
CoS = 1.000Co+2 - 1.000H+ + 1.000HS-
log_k -11.070 #90DYR/KRE
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.107E+1 0E+0 0E+0 0E+0 0E+0
CoSO4(s)
CoSO4 = 1.000Co+2 + 1.000SO4-2
log_k 3.010
delta_h -78.680 #kJ/mol
# Enthalpy of formation: -888.26 #kJ/mol #98CHA
-analytic -1.07741E+1 0E+0 4.10974E+3 0E+0 0E+0
CoSO4:6H2O(s)
CoSO4:6H2O = 1.000Co+2 + 1.000SO4-2 + 6.000H2O
log_k -2.200
delta_h 1.570 #kJ/mol
# Enthalpy of formation: -2683.49 #kJ/mol #74NAU/RYZ
-analytic -1.92495E+0 0E+0 -8.20067E+1 0E+0 0E+0
CoSO4:H2O(s)
CoSO4:H2O = 1.000Co+2 + 1.000SO4-2 + 1.000H2O
log_k -1.050
delta_h -52.050 #kJ/mol
# Enthalpy of formation: -1200.72 #kJ/mol #74NAU/RYZ
-analytic -1.01688E+1 0E+0 2.71876E+3 0E+0 0E+0
CoSe2(cr)
CoSe2 = 1.000Co+2 + 2.000HSe- - 1.000H2O + 0.500O2
log_k -66.080
delta_h 356.263 #kJ/mol
# Enthalpy of formation: -105.5 #kJ/mol #05OLI/NOL
-analytic -3.66549E+0 0E+0 -1.86089E+4 0E+0 0E+0
Coffinite
U(SiO4) = 1.000U+4 - 4.000H+ + 1.000H4(SiO4)
log_k -7.800
delta_h -61.070 #kJ/mol
# Enthalpy of formation: -1991.326 #kJ/mol
-analytic -1.8499E+1 0E+0 3.1899E+3 0E+0 0E+0
Coffinite(am)
U(SiO4) = 1.000U+4 - 4.000H+ + 1.000H4(SiO4)
log_k -1.500 #Estimation based on NEA Guidelines
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.5E+0 0E+0 0E+0 0E+0 0E+0
Compreignacite
K2(UO2)6O4(OH)6:7H2O = 2.000K+ + 6.000UO2+2 - 14.000H+ + 17.000H2O
log_k 35.800 #08GOR/FEI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.58E+1 0E+0 0E+0 0E+0 0E+0
Corundum
Al2O3 = 2.000Al+3 - 6.000H+ + 3.000H2O
log_k 18.300
delta_h -258.590 #kJ/mol
# Enthalpy of formation: -1675.7 #kJ/mol #89COX/WAG
-analytic -2.7003E+1 0E+0 1.35071E+4 0E+0 0E+0
Cotunnite
PbCl2 = 1.000Pb+2 + 2.000Cl-
log_k -4.810
delta_h 26.160 #kJ/mol
# Enthalpy of formation: -359.4 #kJ/mol #98CHA
-analytic -2.26971E-1 0E+0 -1.36643E+3 0E+0 0E+0
Cr(OH)2(H2PO4)(s)
Cr(OH)2(H2PO4) = 1.000H2(PO4)- + 1.000Cr+3 + 2.000H2O - 2.000H+
log_k 0.890 #04RAI/MOO
delta_h -5.080 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.3509E-5 0E+0 2.65346E+2 0E+0 0E+0
Cr(OH)2(cr)
Cr(OH)2 = - 2.000H+ + 1.000Cr+2 + 2.000H2O
log_k 11.000 #41HUM/STO, 04CHI
delta_h -75.459 #kJ/mol
# Enthalpy of formation: -653.82 #kJ/mol
-analytic -2.21983E+0 0E+0 3.94149E+3 0E+0 0E+0
Cr(OH)3(cr)
Cr(OH)3 = - 3.000H+ + 1.000Cr+3 + 3.000H2O
log_k 7.500 #04RAI/MOO
delta_h -104.751 #kJ/mol
# Enthalpy of formation: -993.238 #kJ/mol
-analytic -1.08516E+1 0E+0 5.47152E+3 0E+0 0E+0
Cr(s)
Cr = 2.000H+ + 1.000CrO4-2 - 1.000H2O - 1.500O2
log_k 89.660
delta_h -574.989 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -1.10736E+1 0E+0 3.00337E+4 0E+0 0E+0
Cr2(SO4)3(s)
Cr2(SO4)3 = 3.000SO4-2 + 2.000Cr+3
log_k 4.380
delta_h -277.720 #kJ/mol
# Enthalpy of formation: -2931.3 #kJ/mol #91KNA/KUB
-analytic -4.42744E+1 0E+0 1.45063E+4 0E+0 0E+0
Cr2O3(cr)
Cr2O3 = - 6.000H+ + 2.000Cr+3 + 3.000H2O
log_k 7.750
delta_h -198.000 #kJ/mol
# Enthalpy of formation: -1140.5 #kJ/mol #04CHI
-analytic -2.69381E+1 0E+0 1.03422E+4 0E+0 0E+0
Cr2S3(s)
Cr2S3 = - 3.000H+ + 3.000HS- + 2.000Cr+3
log_k 3.260
delta_h -195.200 #kJ/mol
# Enthalpy of formation: -334.7 #kJ/mol #84PAN
-analytic -3.09375E+1 0E+0 1.0196E+4 0E+0 0E+0
CrCl2(cr)
CrCl2 = 2.000Cl- + 1.000Cr+2
log_k 12.730
delta_h -103.500 #kJ/mol
# Enthalpy of formation: -388.3 #kJ/mol #98BAL/NOR
-analytic -5.4024E+0 0E+0 5.40617E+3 0E+0 0E+0
CrCl3(cr)
CrCl3 = 3.000Cl- + 1.000Cr+3
log_k 20.190
delta_h -197.300 #kJ/mol
# Enthalpy of formation: -544.4 #kJ/mol #98BAL/NOR
-analytic -1.43754E+1 0E+0 1.03057E+4 0E+0 0E+0
CrO2(cr)
CrO2 = 2.000H+ + 1.000CrO4-2 - 1.000H2O - 0.500O2
log_k -8.690
delta_h 10.797 #kJ/mol
# Enthalpy of formation: -597.9 #kJ/mol #93BAR, 04CHI
-analytic -6.79845E+0 0E+0 -5.63966E+2 0E+0 0E+0
CrO3(cr)
CrO3 = 2.000H+ + 1.000CrO4-2 - 1.000H2O
log_k -3.020
delta_h -10.070 #kJ/mol
# Enthalpy of formation: -583.1 #kJ/mol #98BAL/NOR, 04CHI
-analytic -4.78419E+0 0E+0 5.25992E+2 0E+0 0E+0
CrPO4(green)
CrPO4 = - 2.000H+ + 1.000H2(PO4)- + 1.000Cr+3
log_k -3.060 #51ZHA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.06E+0 0E+0 0E+0 0E+0 0E+0
CrPO4(purple)
CrPO4 = - 2.000H+ + 1.000H2(PO4)- + 1.000Cr+3
log_k 2.560 #51ZHA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.56E+0 0E+0 0E+0 0E+0 0E+0
CrS(s)
CrS = - 1.000H+ + 1.000HS- + 1.000Cr+2
log_k 1.660
delta_h -38.800 #kJ/mol
# Enthalpy of formation: -135.143 #kJ/mol #84PAN
-analytic -5.13746E+0 0E+0 2.02666E+3 0E+0 0E+0
Cristobalite
SiO2 = 1.000H4(SiO4) - 2.000H2O
log_k -3.160
delta_h 16.500 #kJ/mol
# Enthalpy of formation: -906.034 #kJ/mol #04FAB/SAX
-analytic -2.69328E-1 0E+0 -8.61854E+2 0E+0 0E+0
Crocoite
PbCrO4 = 1.000Pb+2 + 1.000CrO4-2
log_k -12.550 #42KOL/PER
delta_h 48.940 #kJ/mol
# Enthalpy of formation: -927.02 #kJ/mol #75DEL/MCC
-analytic -3.97609E+0 0E+0 -2.55631E+3 0E+0 0E+0
Cronstedtite-Th
Fe4SiO5(OH)4 = 2.000Fe+3 + 2.000Fe+2 - 10.000H+ + 1.000H4(SiO4) + 5.000H2O
log_k 16.110
delta_h -253.794 #kJ/mol
# Enthalpy of formation: -2914.55 #kJ/mol #15BLA/VIE
-analytic -2.83527E+1 0E+0 1.32566E+4 0E+0 0E+0
Cs(s)
Cs = 1.000Cs+ + 0.500H2O - 1.000H+ - 0.250O2
log_k 72.555
delta_h -397.882 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG
-analytic 2.84926E+0 0E+0 2.07828E+4 0E+0 0E+0
Cs2(CO3)(s)
Cs2(CO3) = 2.000Cs+ + 1.000CO3-2
log_k 9.900
delta_h -55.348 #kJ/mol
# Enthalpy of formation: -1135.882 #kJ/mol
-analytic 2.03461E-1 0E+0 2.89102E+3 0E+0 0E+0
Cs2(SO4)(s)
Cs2(SO4) = 2.000Cs+ + 1.000SO4-2
log_k 0.580
delta_h 17.756 #kJ/mol
# Enthalpy of formation: -1443.096 #kJ/mol
-analytic 3.69071E+0 0E+0 -9.27459E+2 0E+0 0E+0
Cs2MoO4(s)
Cs2MoO4 = 2.000Cs+ + 1.000MoO4-2
log_k 2.210
delta_h 1.581 #kJ/mol
# Enthalpy of formation: -1514.581 #kJ/mol
-analytic 2.48698E+0 0E+0 -8.25813E+1 0E+0 0E+0
Cs2O(s)
Cs2O = 2.000Cs+ - 2.000H+ + 1.000H2O
log_k 89.680
delta_h -456.100 #kJ/mol
# Enthalpy of formation: -345.73 #kJ/mol
-analytic 9.77483E+0 0E+0 2.38237E+4 0E+0 0E+0
CsBr(cr)
CsBr = 1.000Cs+ + 1.000Br-
log_k 0.720
delta_h 26.190 #kJ/mol
# Enthalpy of formation: -405.6 #kJ/mol #01LEM/FUG
-analytic 5.30828E+0 0E+0 -1.368E+3 0E+0 0E+0
CsCl(cr)
CsCl = 1.000Cs+ + 1.000Cl-
log_k 1.550
delta_h 17.230 #kJ/mol
# Enthalpy of formation: -442.31 #kJ/mol #01LEM/FUG
-analytic 4.56856E+0 0E+0 -8.99984E+2 0E+0 0E+0
Cu(SeO3):2H2O(s)
Cu(SeO3):2H2O = 1.000Cu+2 + 1.000SeO3-2 + 2.000H2O
log_k -9.500 #Average value from 56CHU2 and 93SLA/POP in 05OLI/NOL
delta_h -15.320 #kJ/mol
# Enthalpy of formation: -998.6 #kJ/mol #05OLI/NOL
-analytic -1.21839E+1 0E+0 8.00218E+2 0E+0 0E+0
Cu(SeO4):5H2O(s)
Cu(SeO4):5H2O = 1.000Cu+2 + 1.000SeO4-2 + 5.000H2O
log_k -2.440 #05OLI/NOL
delta_h 5.580 #kJ/mol
# Enthalpy of formation: -1973.33 #kJ/mol #05OLI/NOL
-analytic -1.46243E+0 0E+0 -2.91463E+2 0E+0 0E+0
Cu(cr)
Cu = 1.000Cu+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 31.600
delta_h -214.863 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #01LEM/FUG
-analytic -6.04233E+0 0E+0 1.12231E+4 0E+0 0E+0
Cu2Se(alfa)
Cu2Se = 2.000Cu+ - 1.000H+ + 1.000HSe-
log_k -45.890 #01SEB/POT2
delta_h 216.940 #kJ/mol
# Enthalpy of formation: -59.3 #kJ/mol #05OLI/NOL
-analytic -7.8838E+0 0E+0 -1.13315E+4 0E+0 0E+0
Cu3(AsO4)2(s)
Cu3(AsO4)2 = 3.000Cu+2 + 2.000AsO4-3
log_k -34.880
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.488E+1 0E+0 0E+0 0E+0 0E+0
CuSe(alfa)
CuSe = 1.000Cu+2 - 1.000H+ + 1.000HSe-
log_k -25.460
delta_h 118.700 #kJ/mol
# Enthalpy of formation: -39.5 #kJ/mol #05OLI/NOL
-analytic -4.66468E+0 0E+0 -6.20012E+3 0E+0 0E+0
CuSe(beta)
CuSe = 1.000Cu+2 - 1.000H+ + 1.000HSe-
log_k -25.130
delta_h 116.000 #kJ/mol
# Enthalpy of formation: -36.8 #kJ/mol #05OLI/NOL
-analytic -4.8077E+0 0E+0 -6.05909E+3 0E+0 0E+0
Dawsonite
NaAl(CO3)(OH)2 = 1.000Na+ + 1.000Al+3 - 2.000H+ + 1.000CO3-2 + 2.000H2O
log_k -6.000
delta_h -61.630 #kJ/mol
# Enthalpy of formation: -1964 #kJ/mol #76FER/STU
-analytic -1.67971E+1 0E+0 3.21915E+3 0E+0 0E+0
Diaspore
AlO(OH) = 1.000Al+3 - 3.000H+ + 2.000H2O
log_k 6.860
delta_h -108.760 #kJ/mol
# Enthalpy of formation: -1001.3 #kJ/mol #95ROB/HEM
-analytic -1.21939E+1 0E+0 5.68092E+3 0E+0 0E+0
Dickite
Al2Si2O5(OH)4 = 2.000Al+3 - 6.000H+ + 2.000H4(SiO4) + 1.000H2O
log_k 9.390
delta_h -185.218 #kJ/mol
# Enthalpy of formation: -4099.8 #kJ/mol #03FIA/MAJ
-analytic -2.30588E+1 0E+0 9.6746E+3 0E+0 0E+0
Dolomite
CaMg(CO3)2 = 1.000Ca+2 + 1.000Mg+2 + 2.000CO3-2
log_k -17.120
delta_h -35.960 #kJ/mol
# Enthalpy of formation: -2324.5 #kJ/mol #95ROB/HEM
-analytic -2.34199E+1 0E+0 1.87832E+3 0E+0 0E+0
Downeyite
SeO2 = 2.000H+ + 1.000SeO3-2 - 1.000H2O
log_k -8.150
delta_h 4.060 #kJ/mol
# Enthalpy of formation: -225.39 #kJ/mol #05OLI/NOL
-analytic -7.43872E+0 0E+0 -2.12068E+2 0E+0 0E+0
Eastonite
KMg2Al3Si2O10(OH)2 = 2.000Mg+2 + 1.000K+ + 3.000Al+3 - 14.000H+ + 2.000H4(SiO4) + 4.000H2O
log_k 46.320
delta_h -518.108 #kJ/mol
# Enthalpy of formation: -6348.94 #kJ/mol #98HOL/POW
-analytic -4.44485E+1 0E+0 2.70626E+4 0E+0 0E+0
Epsonite
Mg(SO4):7H2O = 1.000Mg+2 + 1.000SO4-2 + 7.000H2O
log_k -1.880 #84HAR/MOL
delta_h 10.990 #kJ/mol
# Enthalpy of formation: -3388.14 #kJ/mol
-analytic 4.53625E-2 0E+0 -5.74047E+2 0E+0 0E+0
Ettringite
Ca6Al2(SO4)3(OH)12:26H2O = 6.000Ca+2 + 2.000Al+3 - 12.000H+ + 3.000SO4-2 + 38.000H2O
log_k 56.970 #10BLA/BOU2
delta_h -379.830 #kJ/mol
# Enthalpy of formation: -17544.53 #kJ/mol #10BLA/BOU2
-analytic -9.57326E+0 0E+0 1.98399E+4 0E+0 0E+0
Ettringite-Fe
Ca6Fe2(SO4)3(OH)12:26H2O = 6.000Ca+2 + 2.000Fe+3 - 12.000H+ + 3.000SO4-2 + 38.000H2O
log_k 54.550 #10BLA/BOU2
delta_h -343.754 #kJ/mol
# Enthalpy of formation: -16601.806 #kJ/mol
-analytic -5.67303E+0 0E+0 1.79555E+4 0E+0 0E+0
Eu(CO3)(OH)(cr)
Eu(CO3)(OH) = 1.000Eu+3 - 1.000H+ + 1.000CO3-2 + 1.000H2O
log_k -9.630
delta_h -43.391 #kJ/mol
# Enthalpy of formation: -1523 #kJ/mol #05ROR/FUG
-analytic -1.72318E+1 0E+0 2.26647E+3 0E+0 0E+0
Eu(CO3)(OH):0.5H2O(s)
Eu(CO3)(OH):0.5H2O = 1.000Eu+3 - 1.000H+ + 1.000CO3-2 + 1.500H2O
log_k -7.800 #95SPA/BRU
delta_h -55.906 #kJ/mol
# Enthalpy of formation: -1653.4 #kJ/mol #05ROR/FUG
-analytic -1.75943E+1 0E+0 2.92017E+3 0E+0 0E+0
Eu(NO3)3:6H2O(s)
Eu(NO3)3:6H2O = 1.000Eu+3 + 3.000NO3- + 6.000H2O
log_k 1.840 #95SPA/BRU
delta_h 16.839 #kJ/mol
# Enthalpy of formation: -2957.7 #kJ/mol #82WAG/EVA
-analytic 4.79006E+0 0E+0 -8.79561E+2 0E+0 0E+0
Eu(OH)3(am)
Eu(OH)3 = 1.000Eu+3 - 3.000H+ + 3.000H2O
log_k 17.600 #98DIA/RAG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.76E+1 0E+0 0E+0 0E+0 0E+0
Eu(OH)3(cr)
Eu(OH)3 = 1.000Eu+3 - 3.000H+ + 3.000H2O
log_k 15.460 #98DIA/RAG
delta_h -127.542 #kJ/mol
# Enthalpy of formation: -1335.279 #kJ/mol
-analytic -6.88437E+0 0E+0 6.66197E+3 0E+0 0E+0
Eu(PO4):xH2O(s)
Eu(PO4) = 1.000Eu+3 - 2.000H+ + 1.000H2(PO4)-
log_k -4.840 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.84E+0 0E+0 0E+0 0E+0 0E+0
Eu(cr)
Eu = 1.000Eu+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 165.125
delta_h -1024.976 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #82WAG/EVA
-analytic -1.44427E+1 0E+0 5.35381E+4 0E+0 0E+0
Eu2(CO3)3:3H2O(s)
Eu2(CO3)3:3H2O = 2.000Eu+3 + 3.000CO3-2 + 3.000H2O
log_k -35.000 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.5E+1 0E+0 0E+0 0E+0 0E+0
Eu2(SO4)3:8H2O(s)
Eu2(SO4)3:8H2O = 2.000Eu+3 + 3.000SO4-2 + 8.000H2O
log_k -10.200 #95SPA/BRU
delta_h -90.974 #kJ/mol
# Enthalpy of formation: -6134.348 #kJ/mol
-analytic -2.61379E+1 0E+0 4.7519E+3 0E+0 0E+0
Eu2O3(cubic)
Eu2O3 = 2.000Eu+3 - 6.000H+ + 3.000H2O
log_k 52.400 #95SPA/BRU
delta_h -405.453 #kJ/mol
# Enthalpy of formation: -1662.7 #kJ/mol #82WAG/EVA
-analytic -1.86322E+1 0E+0 2.11783E+4 0E+0 0E+0
Eu2O3(monoclinic)
Eu2O3 = 2.000Eu+3 - 6.000H+ + 3.000H2O
log_k 53.470
delta_h -418.514 #kJ/mol
# Enthalpy of formation: -1649.638 #kJ/mol
-analytic -1.98504E+1 0E+0 2.18605E+4 0E+0 0E+0
Eu3O4(s)
Eu3O4 = 3.000Eu+3 - 9.000H+ + 4.500H2O - 0.250O2
log_k 114.515
delta_h -829.196 #kJ/mol
# Enthalpy of formation: -2270 #kJ/mol
-analytic -3.07536E+1 0E+0 4.33118E+4 0E+0 0E+0
EuBr3(s)
EuBr3 = 1.000Eu+3 + 3.000Br-
log_k 30.190 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.019E+1 0E+0 0E+0 0E+0 0E+0
EuCl(OH)2(s)
EuCl(OH)2 = 1.000Eu+3 - 2.000H+ + 1.000Cl- + 2.000H2O
log_k 9.130 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.13E+0 0E+0 0E+0 0E+0 0E+0
EuCl2(s)
EuCl2 = 1.000Eu+3 + 2.000Cl- + 0.500H2O - 1.000H+ - 0.250O2
log_k 32.715 #95SPA/BRU
delta_h -255.373 #kJ/mol
# Enthalpy of formation: -824 #kJ/mol #82WAG/EVA
-analytic -1.20243E+1 0E+0 1.3339E+4 0E+0 0E+0
EuCl3(s)
EuCl3 = 1.000Eu+3 + 3.000Cl-
log_k 19.720 #96FAL/REA
delta_h -170.571 #kJ/mol
# Enthalpy of formation: -936 #kJ/mol #82WAG/EVA
-analytic -1.01627E+1 0E+0 8.90953E+3 0E+0 0E+0
EuCl3:6H2O(s)
EuCl3:6H2O = 1.000Eu+3 + 3.000Cl- + 6.000H2O
log_k 5.200 #95SPA/BRU
delta_h -41.414 #kJ/mol
# Enthalpy of formation: -2780.137 #kJ/mol
-analytic -2.05541E+0 0E+0 2.1632E+3 0E+0 0E+0
EuF3(s)
EuF3 = 1.000Eu+3 + 3.000F-
log_k -18.500 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.85E+1 0E+0 0E+0 0E+0 0E+0
EuF3:0.5H2O(s)
EuF3:0.5H2O = 1.000Eu+3 + 3.000F- + 0.500H2O
log_k -17.200 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.72E+1 0E+0 0E+0 0E+0 0E+0
EuO(s)
EuO = 1.000Eu+3 - 3.000H+ + 1.500H2O - 0.250O2
log_k 66.265
delta_h -439.894 #kJ/mol
# Enthalpy of formation: -591.149 #kJ/mol
-analytic -1.08009E+1 0E+0 2.29772E+4 0E+0 0E+0
EuOCl(s)
EuOCl = 1.000Eu+3 - 2.000H+ + 1.000Cl- + 1.000H2O
log_k 15.810 #95SPA/BRU
delta_h -154.741 #kJ/mol
# Enthalpy of formation: -903.5 #kJ/mol
-analytic -1.12994E+1 0E+0 8.08267E+3 0E+0 0E+0
EuPO4:H2O(cr)
EuPO4:H2O = 1.000Eu+3 - 2.000H+ + 1.000H2(PO4)- + 1.000H2O
log_k -6.440 #97LIU/BYR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.44E+0 0E+0 0E+0 0E+0 0E+0
EuSO4(s)
EuSO4 = 1.000Eu+3 + 1.000SO4-2 + 0.500H2O - 1.000H+ - 0.250O2
log_k 18.975 #95SPA/BRU
delta_h -232.746 #kJ/mol
# Enthalpy of formation: -1421.807 #kJ/mol
-analytic -2.18002E+1 0E+0 1.21571E+4 0E+0 0E+0
Fayalite
Fe2(SiO4) = 2.000Fe+2 - 4.000H+ + 1.000H4(SiO4)
log_k 19.510
delta_h -163.054 #kJ/mol
# Enthalpy of formation: -1478.14 #kJ/mol #95ROB/HEM
-analytic -9.05579E+0 0E+0 8.51689E+3 0E+0 0E+0
Fe(OH)2(cr)
Fe(OH)2 = 1.000Fe+2 - 2.000H+ + 2.000H2O
log_k 12.760
delta_h -99.056 #kJ/mol
# Enthalpy of formation: -574.011 #kJ/mol
-analytic -4.59384E+0 0E+0 5.17405E+3 0E+0 0E+0
Fe(PO4)(cr)
Fe(PO4) = 1.000Fe+3 - 2.000H+ + 1.000H2(PO4)-
log_k -6.240 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92 (provient de la base 0391 MINEQL- PSY)
delta_h -18.600 #kJ/mol
# Enthalpy of formation: -1333 #kJ/mol
-analytic -9.49858E+0 0E+0 9.71544E+2 0E+0 0E+0
Fe(s)
Fe = 1.000Fe+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 58.850 #95PAR/KHO in 98CHI
delta_h -369.763 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -5.9296E+0 0E+0 1.9314E+4 0E+0 0E+0
Fe1.04Se(beta)
Fe1.04Se = 1.040Fe+2 - 1.080H+ + 1.000HSe- + 0.040H2O - 0.020O2
log_k -1.680
delta_h -20.891 #kJ/mol
# Enthalpy of formation: -69.6 #kJ/mol #05OLI/NOL
-analytic -5.34026E+0 0E+0 1.09119E+3 0E+0 0E+0
Fe2(SeO3)3:6H2O(s)
Fe2(SeO3)3:6H2O = 2.000Fe+3 + 3.000SeO3-2 + 6.000H2O
log_k -41.580 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.158E+1 0E+0 0E+0 0E+0 0E+0
Fe3Se4(gamma)
Fe3Se4 = 3.000Fe+2 - 2.000H+ + 4.000HSe- - 1.000H2O + 0.500O2
log_k -68.590
delta_h 301.963 #kJ/mol
# Enthalpy of formation: -235 #kJ/mol #05OLI/NOL
-analytic -1.56884E+1 0E+0 -1.57726E+4 0E+0 0E+0
Fe5(OH)(PO4)3(s)
Fe5(OH)(PO4)3 = 5.000Fe+2 - 7.000H+ + 3.000H2(PO4)- + 1.000H2O
log_k -402.320 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.0232E+2 0E+0 0E+0 0E+0 0E+0
Fe7Se8(alfa)
Fe7Se8 = 7.000Fe+2 - 6.000H+ + 8.000HSe- - 1.000H2O + 0.500O2
log_k -78.590
delta_h 227.663 #kJ/mol
# Enthalpy of formation: -463.5 #kJ/mol #05OLI/NOL
-analytic -3.87052E+1 0E+0 -1.18916E+4 0E+0 0E+0
FeAl2O4(s)
FeAl2O4 = 1.000Fe+2 + 2.000Al+3 - 8.000H+ + 4.000H2O
log_k 27.200 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.72E+1 0E+0 0E+0 0E+0 0E+0
FeMoO4(s)
FeMoO4 = 1.000Fe+2 + 1.000MoO4-2
log_k -8.350
delta_h -11.534 #kJ/mol
# Enthalpy of formation: -1075.466 #kJ/mol
-analytic -1.03707E+1 0E+0 6.02462E+2 0E+0 0E+0
FeO(s)
FeO = 1.000Fe+2 - 2.000H+ + 1.000H2O
log_k 13.370 #95ROB/HEM
delta_h -103.830 #kJ/mol
# Enthalpy of formation: -272 #kJ/mol
-analytic -4.82021E+0 0E+0 5.42341E+3 0E+0 0E+0
FeS(am)
FeS = 1.000Fe+2 - 1.000H+ + 1.000HS-
log_k -2.950 #91DAV
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.95E+0 0E+0 0E+0 0E+0 0E+0
Ferrihydrite(am)
Fe(OH)3 = 1.000Fe+3 - 3.000H+ + 3.000H2O
log_k 2.540 #63SCH/MIC
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.54E+0 0E+0 0E+0 0E+0 0E+0
Ferroselite
FeSe2 = 1.000Fe+2 + 2.000HSe- - 1.000H2O + 0.500O2
log_k -60.120 #05OLI/NOL
delta_h 327.063 #kJ/mol
# Enthalpy of formation: -108.7 #kJ/mol #05OLI/NOL
-analytic -2.82111E+0 0E+0 -1.70837E+4 0E+0 0E+0
Ferrosilite
FeSiO3 = 1.000Fe+2 - 2.000H+ + 1.000H4(SiO4) - 1.000H2O
log_k 32.710 #95TRO: CEA, N.T.SESD n° 95/49, L. TROTIGNON avril 1996; Critique et sélection de données thermodynamiques en vue de modéliser les équilibres minéral - solution, rapport annuel 1995
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.271E+1 0E+0 0E+0 0E+0 0E+0
Ferryhydrite
Fe(OH)3 = 1.000Fe+3 - 3.000H+ + 3.000H2O
log_k 1.190 #05GRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.19E+0 0E+0 0E+0 0E+0 0E+0
Fluorapatite
Ca5F(PO4)3 = 5.000Ca+2 - 6.000H+ + 1.000F- + 3.000H2(PO4)-
log_k -0.910 #74HAG
delta_h -115.603 #kJ/mol
# Enthalpy of formation: -6842.547 #kJ/mol
-analytic -2.11627E+1 0E+0 6.03836E+3 0E+0 0E+0
Fluorite
CaF2 = 1.000Ca+2 + 2.000F-
log_k -10.600
delta_h 19.623 #kJ/mol
# Enthalpy of formation: -1233.323 #kJ/mol
-analytic -7.1622E+0 0E+0 -1.02498E+3 0E+0 0E+0
Foshagite
Ca4Si3O9(OH)2:0.5H2O = 4.000Ca+2 - 8.000H+ + 3.000H4(SiO4) - 0.500H2O
log_k 65.960 #10BLA/BOU1
delta_h -380.237 #kJ/mol
# Enthalpy of formation: -6032.43 #kJ/mol #56NEW
-analytic -6.54565E-1 0E+0 1.98611E+4 0E+0 0E+0
Friedel-salt
Ca4Al2(OH)12Cl2:4H2O = 4.000Ca+2 + 2.000Al+3 - 12.000H+ + 2.000Cl- + 16.000H2O
log_k 74.930 #10BLA/BOU2
delta_h -486.200 #kJ/mol
# Enthalpy of formation: -7670.04 #kJ/mol #76HOU/STE
-analytic -1.02485E+1 0E+0 2.5396E+4 0E+0 0E+0
Galena
PbS = 1.000Pb+2 - 1.000H+ + 1.000HS-
log_k -14.840
delta_h 82.940 #kJ/mol
# Enthalpy of formation: -98.32 #kJ/mol #98CHA
-analytic -3.09557E-1 0E+0 -4.33225E+3 0E+0 0E+0
Gaylussite
CaNa2(CO3)2:5H2O = 1.000Ca+2 + 2.000Na+ + 2.000CO3-2 + 5.000H2O
log_k -9.430 #99KON/KON
delta_h 31.099 #kJ/mol
# Enthalpy of formation: -3834.389 #kJ/mol
-analytic -3.9817E+0 0E+0 -1.62441E+3 0E+0 0E+0
Gibbsite
Al(OH)3 = 1.000Al+3 - 3.000H+ + 3.000H2O
log_k 7.740 #95POK/HEL
delta_h -102.759 #kJ/mol
# Enthalpy of formation: -1293.131 #kJ/mol
-analytic -1.02626E+1 0E+0 5.36747E+3 0E+0 0E+0
Gismondine
Ca2Al4Si4O16:9H2O = 2.000Ca+2 + 4.000Al+3 - 16.000H+ + 4.000H4(SiO4) + 9.000H2O
log_k 39.010
delta_h -477.046 #kJ/mol
# Enthalpy of formation: -11179.8 #kJ/mol #89CHE/RIM
-analytic -4.45647E+1 0E+0 2.49178E+4 0E+0 0E+0
Glaserite
Na2K6(SO4)4 = 6.000K+ + 2.000Na+ + 4.000SO4-2
log_k -7.610 #80HAR/WEA
delta_h 78.360 #kJ/mol
# Enthalpy of formation: -5709.24 #kJ/mol
-analytic 6.11806E+0 0E+0 -4.09302E+3 0E+0 0E+0
Glauberite
Na2Ca(SO4)2 = 1.000Ca+2 + 2.000Na+ + 2.000SO4-2
log_k 1.970 #84HAR/MOL
delta_h -13.160 #kJ/mol
# Enthalpy of formation: -2829.2 #kJ/mol #82WAG/EVA
-analytic -3.3553E-1 0E+0 6.87394E+2 0E+0 0E+0
Glauconite
(K0.75Mg0.25Fe1.5Al0.25)(Al0.25Si3.75)O10(OH)2 = 0.250Mg+2 + 0.750K+ + 1.250Fe+3 + 0.250Fe+2 + 0.500Al+3 - 7.000H+ + 3.750H4(SiO4) - 3.000H2O
log_k 1.860
delta_h -129.662 #kJ/mol
# Enthalpy of formation: -5151.13 #kJ/mol #15BLA/VIE
-analytic -2.08558E+1 0E+0 6.77271E+3 0E+0 0E+0
Goethite
FeOOH = 1.000Fe+3 - 3.000H+ + 2.000H2O
log_k 0.390 #63SCH/MIC
delta_h -61.522 #kJ/mol
# Enthalpy of formation: -559.124 #kJ/mol
-analytic -1.03882E+1 0E+0 3.21351E+3 0E+0 0E+0
Greenalite
Fe3Si2O5(OH)4 = 3.000Fe+2 - 6.000H+ + 2.000H4(SiO4) + 1.000H2O
log_k 21.770
delta_h -177.218 #kJ/mol
# Enthalpy of formation: -3301 #kJ/mol #83MIY/KLE
-analytic -9.27722E+0 0E+0 9.25673E+3 0E+0 0E+0
Gypsum
CaSO4:2H2O = 1.000Ca+2 + 1.000SO4-2 + 2.000H2O
log_k -4.610
delta_h -1.050 #kJ/mol
# Enthalpy of formation: -2022.95 #kJ/mol #87GAR/PAR
-analytic -4.79395E+0 0E+0 5.48452E+1 0E+0 0E+0
Gyrolite
Ca2Si3O7.5(OH):2H2O = 2.000Ca+2 - 4.000H+ + 3.000H4(SiO4) - 1.500H2O
log_k 22.340 #10BLA/BOU1
delta_h -122.847 #kJ/mol
# Enthalpy of formation: -4917.99 #kJ/mol #10BLA/BOU1
-analytic 8.18161E-1 0E+0 6.41674E+3 0E+0 0E+0
H2MoO4(s)
H2MoO4 = 2.000H+ + 1.000MoO4-2
log_k -13.170
delta_h 48.763 #kJ/mol
# Enthalpy of formation: -1045.763 #kJ/mol
-analytic -4.6271E+0 0E+0 -2.54707E+3 0E+0 0E+0
H3Cit:H2O(cr)
H3Cit:H2O = 3.000H+ + 1.000Cit-3 + 1.000H2O
log_k -12.940 #05HUM/AND
delta_h 32.710 #kJ/mol
# Enthalpy of formation: -1838.46 #kJ/mol
-analytic -7.20946E+0 0E+0 -1.70856E+3 0E+0 0E+0
H4Edta(cr)
H4Edta = 4.000H+ + 1.000Edta-4
log_k -27.220 #05HUM/AND
delta_h 55.000 #kJ/mol
# Enthalpy of formation: -1759.8 #kJ/mol
-analytic -1.75844E+1 0E+0 -2.87285E+3 0E+0 0E+0
HBeidellite-Ca
Ca0.17Al2.34Si3.66O10(OH)2:4.45H2O = 0.170Ca+2 + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.810H2O
log_k 2.110
delta_h -160.492 #kJ/mol
# Enthalpy of formation: -7056.996 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.6007E+1 0E+0 8.38307E+3 0E+0 0E+0
HBeidellite-K
K0.34Al2.34Si3.66O10(OH)2:1.96H2O = 0.340K+ + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 0.680H2O
log_k 2.240
delta_h -167.142 #kJ/mol
# Enthalpy of formation: -6332.047 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.7042E+1 0E+0 8.73042E+3 0E+0 0E+0
HBeidellite-Mg
Mg0.17Al2.34Si3.66O10(OH)2:4.61H2O = 0.170Mg+2 + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.970H2O
log_k 2.240
delta_h -159.892 #kJ/mol
# Enthalpy of formation: -7090.409 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.57718E+1 0E+0 8.35173E+3 0E+0 0E+0
HBeidellite-Na
Na0.34Al2.34Si3.66O10(OH)2:3.84H2O = 0.340Na+ + 2.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.200H2O
log_k 1.860
delta_h -171.523 #kJ/mol
# Enthalpy of formation: -6861.015 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.81895E+1 0E+0 8.95926E+3 0E+0 0E+0
HMontmorillonite-BCCa
Ca0.17Mg0.34Al1.66Si4O10(OH)2:4.45H2O = 0.170Ca+2 + 0.340Mg+2 + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) + 0.450H2O
log_k 2.200
delta_h -118.557 #kJ/mol
# Enthalpy of formation: -6999.676 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.85703E+1 0E+0 6.19265E+3 0E+0 0E+0
HMontmorillonite-BCK
K0.34Mg0.34Al1.66Si4O10(OH)2:1.96H2O = 0.340Mg+2 + 0.340K+ + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) - 2.040H2O
log_k 2.090
delta_h -123.828 #kJ/mol
# Enthalpy of formation: -6276.107 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.96037E+1 0E+0 6.46798E+3 0E+0 0E+0
HMontmorillonite-BCMg
Mg0.17Mg0.34Al1.66Si4O10(OH)2:4.61H2O = 0.510Mg+2 + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) + 0.610H2O
log_k 2.350
delta_h -118.107 #kJ/mol
# Enthalpy of formation: -7032.939 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.83414E+1 0E+0 6.16915E+3 0E+0 0E+0
HMontmorillonite-BCNa
Na0.34Mg0.34Al1.66Si4O10(OH)2:3.84H2O = 0.340Mg+2 + 0.340Na+ + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) - 0.160H2O
log_k 1.790
delta_h -128.688 #kJ/mol
# Enthalpy of formation: -6804.595 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.07551E+1 0E+0 6.72183E+3 0E+0 0E+0
HMontmorillonite-HCCa
Ca0.3Mg0.6Al1.4Si4O10(OH)2:4.45H2O = 0.300Ca+2 + 0.600Mg+2 + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) + 0.450H2O
log_k 6.180
delta_h -134.133 #kJ/mol
# Enthalpy of formation: -7036.126 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.73191E+1 0E+0 7.00624E+3 0E+0 0E+0
HMontmorillonite-HCK
K0.6Mg0.6Al1.4Si4O10(OH)2:1.96H2O = 0.600Mg+2 + 0.600K+ + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) - 2.040H2O
log_k 4.260
delta_h -119.730 #kJ/mol
# Enthalpy of formation: -6327.197 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.67158E+1 0E+0 6.25392E+3 0E+0 0E+0
HMontmorillonite-HCMg
Mg0.3Mg0.6Al1.4Si4O10(OH)2:4.61H2O = 0.900Mg+2 + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) + 0.610H2O
log_k 6.500
delta_h -133.713 #kJ/mol
# Enthalpy of formation: -7059.479 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.69255E+1 0E+0 6.98431E+3 0E+0 0E+0
HMontmorillonite-HCNa
Na0.6Mg0.6Al1.4Si4O10(OH)2:3.84H2O = 0.600Mg+2 + 0.600Na+ + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) - 0.160H2O
log_k 4.560
delta_h -132.493 #kJ/mol
# Enthalpy of formation: -6844.715 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.86517E+1 0E+0 6.92058E+3 0E+0 0E+0
HNontronite-Ca
Ca0.17Fe1.67Al0.67Si3.66O10(OH)2:4.45H2O = 0.170Ca+2 + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.810H2O
log_k -2.830
delta_h -109.854 #kJ/mol
# Enthalpy of formation: -6290.336 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.20756E+1 0E+0 5.73807E+3 0E+0 0E+0
HNontronite-K
K0.34Fe1.67Al0.67Si3.66O10(OH)2:1.96H2O = 0.340K+ + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) - 0.680H2O
log_k -2.700
delta_h -116.514 #kJ/mol
# Enthalpy of formation: -5565.377 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.31123E+1 0E+0 6.08594E+3 0E+0 0E+0
HNontronite-Mg
Mg0.17Fe1.67Al0.67Si3.66O10(OH)2:4.61H2O = 0.170Mg+2 + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.970H2O
log_k -2.530
delta_h -109.254 #kJ/mol
# Enthalpy of formation: -6323.749 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.16705E+1 0E+0 5.70673E+3 0E+0 0E+0
HNontronite-Na
Na0.34Fe1.67Al0.67Si3.66O10(OH)2:3.84H2O = 0.340Na+ + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.200H2O
log_k -3.090
delta_h -120.885 #kJ/mol
# Enthalpy of formation: -6094.355 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.42681E+1 0E+0 6.31425E+3 0E+0 0E+0
HSaponite-Ca
Ca0.17Mg3Al0.34Si3.66O10(OH)2:4.45H2O = 0.170Ca+2 + 3.000Mg+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.810H2O
log_k 28.390
delta_h -239.662 #kJ/mol
# Enthalpy of formation: -7302.026 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.35969E+1 0E+0 1.25184E+4 0E+0 0E+0
HSaponite-FeCa
Ca0.17Mg2FeAl0.34Si3.66O10(OH)2:4.45H2O = 0.170Ca+2 + 2.000Mg+2 + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.810H2O
log_k 27.980
delta_h -235.552 #kJ/mol
# Enthalpy of formation: -6929.136 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.32869E+1 0E+0 1.23037E+4 0E+0 0E+0
HSaponite-FeK
K0.34Mg2FeAl0.34Si3.66O10(OH)2:1.96H2O = 2.000Mg+2 + 0.340K+ + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 0.680H2O
log_k 28.110
delta_h -242.212 #kJ/mol
# Enthalpy of formation: -6204.177 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.43237E+1 0E+0 1.26516E+4 0E+0 0E+0
HSaponite-FeMg
Mg0.17Mg2FeAl0.34Si3.66O10(OH)2:4.61H2O = 2.170Mg+2 + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.970H2O
log_k 28.070
delta_h -234.962 #kJ/mol
# Enthalpy of formation: -6962.539 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.30935E+1 0E+0 1.22729E+4 0E+0 0E+0
HSaponite-FeNa
Na0.34Mg2FeAl0.34Si3.66O10(OH)2:3.84H2O = 2.000Mg+2 + 0.340Na+ + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.200H2O
log_k 27.720
delta_h -246.583 #kJ/mol
# Enthalpy of formation: -6733.155 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.54794E+1 0E+0 1.28799E+4 0E+0 0E+0
HSaponite-K
K0.34Mg3Al0.34Si3.66O10(OH)2:1.96H2O = 3.000Mg+2 + 0.340K+ + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 0.680H2O
log_k 28.520
delta_h -246.322 #kJ/mol
# Enthalpy of formation: -6577.067 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.46337E+1 0E+0 1.28663E+4 0E+0 0E+0
HSaponite-Mg
Mg0.17Mg3Al0.34Si3.66O10(OH)2:4.61H2O = 3.170Mg+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.970H2O
log_k 28.510
delta_h -239.062 #kJ/mol
# Enthalpy of formation: -7335.439 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.33718E+1 0E+0 1.24871E+4 0E+0 0E+0
HSaponite-Na
Na0.34Mg3Al0.34Si3.66O10(OH)2:3.84H2O = 3.000Mg+2 + 0.340Na+ + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) + 1.200H2O
log_k 28.130
delta_h -250.693 #kJ/mol
# Enthalpy of formation: -7106.45 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.57895E+1 0E+0 1.30946E+4 0E+0 0E+0
HVermiculite-Ca
Ca0.43Mg3.00Si3.14Al0.86O10(OH)2:4.45H2O = 0.430Ca+2 + 3.000Mg+2 + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) + 3.890H2O
log_k 97.850
delta_h -683.046 #kJ/mol
# Enthalpy of formation: -7114.496 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.18143E+1 0E+0 3.56779E+4 0E+0 0E+0
HVermiculite-K
K0.86Mg3.00Si3.14Al0.86O10(OH)2:1.96H2O = 3.000Mg+2 + 0.860K+ + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) + 1.400H2O
log_k 87.710
delta_h -609.749 #kJ/mol
# Enthalpy of formation: -6459.427 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -1.91133E+1 0E+0 3.18494E+4 0E+0 0E+0
HVermiculite-Mg
Mg0.43Mg3.00Si3.14Al0.86O10(OH)2:4.61H2O = 3.430Mg+2 + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) + 4.050H2O
log_k 68.210
delta_h -523.376 #kJ/mol
# Enthalpy of formation: -7287.219 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.34814E+1 0E+0 2.73378E+4 0E+0 0E+0
HVermiculite-Na
Na0.86Mg3.00Si3.14Al0.86O10(OH)2:3.84H2O = 3.000Mg+2 + 0.860Na+ + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) + 3.280H2O
log_k 96.550
delta_h -673.353 #kJ/mol
# Enthalpy of formation: -6923.035 #kJ/mol #13BLA/VI; 11VIE/BLA
-analytic -2.14162E+1 0E+0 3.51716E+4 0E+0 0E+0
Halite
NaCl = 1.000Na+ + 1.000Cl-
log_k 1.590
delta_h 3.700 #kJ/mol
# Enthalpy of formation: -411.12 #kJ/mol #98CHA
-analytic 2.23821E+0 0E+0 -1.93264E+2 0E+0 0E+0
Halloysite
Al2Si2O5(OH)4 = 2.000Al+3 - 6.000H+ + 2.000H4(SiO4) + 1.000H2O
log_k 10.320
delta_h -192.418 #kJ/mol
# Enthalpy of formation: -4092.6 #kJ/mol #99DEL/NAV
-analytic -2.33901E+1 0E+0 1.00507E+4 0E+0 0E+0
Hausmannite
Mn3O4 = 3.000Mn+2 - 6.000H+ + 3.000H2O + 0.500O2
log_k 18.330 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.833E+1 0E+0 0E+0 0E+0 0E+0
Heazlewoodite
Ni3S2 = 3.000Ni+2 - 4.000H+ + 2.000HS- + 1.000H2O - 0.500O2
log_k 25.760
delta_h -260.199 #kJ/mol
# Enthalpy of formation: -217.2 #kJ/mol #05GAM/BUG
-analytic -1.98248E+1 0E+0 1.35911E+4 0E+0 0E+0
Hematite
Fe2O3 = 2.000Fe+3 - 6.000H+ + 3.000H2O
log_k -1.020 #05GRI
delta_h -123.679 #kJ/mol
# Enthalpy of formation: -831.811 #kJ/mol
-analytic -2.26876E+1 0E+0 6.46019E+3 0E+0 0E+0
Hemicarboaluminate
Ca6O6:Al4O6:CaCO3:Ca(OH)2:21H2O = 8.000Ca+2 + 4.000Al+3 - 26.000H+ + 1.000CO3-2 + 35.000H2O
log_k 173.200 #07MAT/LOT1
delta_h -1188.595 #kJ/mol
# Enthalpy of formation: -15988.285 #kJ/mol
-analytic -3.50326E+1 0E+0 6.20845E+4 0E+0 0E+0
Herzenbergite
SnS = 1.000Sn+2 - 1.000H+ + 1.000HS-
log_k -16.210
delta_h 83.683 #kJ/mol
# Enthalpy of formation: -109.6 #kJ/mol #12GAM/GAJ
-analytic -1.54939E+0 0E+0 -4.37106E+3 0E+0 0E+0
Heulandite_Ca
Ca1.07Al2.14Si6.86O18:6.17H2O = 1.070Ca+2 + 2.140Al+3 - 8.560H+ + 6.860H4(SiO4) - 3.270H2O
log_k 2.460 #09BLA
delta_h -155.113 #kJ/mol
# Enthalpy of formation: -10667.2 #kJ/mol #09BLA
-analytic -2.47146E+1 0E+0 8.1021E+3 0E+0 0E+0
Heulandite_Na
Na2.14Al2.14Si6.86O18:6.17H2O = 2.140Na+ + 2.140Al+3 - 8.560H+ + 6.860H4(SiO4) - 3.270H2O
log_k 2.800 #09BLA
delta_h -142.780 #kJ/mol
# Enthalpy of formation: -10612.85 #kJ/mol #09BLA
-analytic -2.22139E+1 0E+0 7.45791E+3 0E+0 0E+0
Hexahydrite
Mg(SO4):6H2O = 1.000Mg+2 + 1.000SO4-2 + 6.000H2O
log_k -1.640 #84HAR/MOL
delta_h -4.625 #kJ/mol
# Enthalpy of formation: -3086.695 #kJ/mol
-analytic -2.45026E+0 0E+0 2.4158E+2 0E+0 0E+0
Hf(HPO4)2:H2O(s)
Hf(HPO4)2:H2O = - 2.000H+ + 2.000H2(PO4)- + 1.000Hf+4 + 1.000H2O
log_k -21.050 #25HEV/KIM recalculated
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -3481.6 #kJ/mol #97KAR/CHE
-analytic -2.105E+1 0E+0 0E+0 0E+0 0E+0
#Hf(cr)
#Hf = 1.000Hf+4 + 2.000H2O - 4.000H+ - 1.000O2
# log_k
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
# -analytic 0E+0 0E+0 0E+0 0E+0 0E+0
HfO2(am)
HfO2 = - 4.000H+ + 1.000Hf+4 + 2.000H2O
log_k 0.900 #01RAI/XIA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1101.7 #kJ/mol #98KAR/CHE
-analytic 9E-1 0E+0 0E+0 0E+0 0E+0
HfO2(cr)
HfO2 = - 4.000H+ + 1.000Hf+4 + 2.000H2O
log_k -5.600
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1117.63 #kJ/mol #75KOR/USH
-analytic -5.6E+0 0E+0 0E+0 0E+0 0E+0
Hg2SeO3(s)
Hg2SeO3 = 1.000SeO3-2 + 1.000Hg2+2
log_k -15.200 #05OLI/NOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.52E+1 0E+0 0E+0 0E+0 0E+0
HgSeO3(s)
HgSeO3 = 1.000Hg+2 + 1.000SeO3-2
log_k -16.200 #05OLI/NOL
delta_h 36.650 #kJ/mol
# Enthalpy of formation: -373.6 #kJ/mol #05OLI/NOL
-analytic -9.77921E+0 0E+0 -1.91436E+3 0E+0 0E+0
Hillebrandite
Ca2SiO3(OH)2:0.17H2O = 2.000Ca+2 - 4.000H+ + 1.000H4(SiO4) + 1.170H2O
log_k 36.950 #10BLA/BOU1
delta_h -219.135 #kJ/mol
# Enthalpy of formation: -2662.48 #kJ/mol #56NEW
-analytic -1.44075E+0 0E+0 1.14462E+4 0E+0 0E+0
Ho(OH)3(am)
Ho(OH)3 = - 3.000H+ + 1.000Ho+3 + 3.000H2O
log_k 17.480 #98DIA/RAG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.748E+1 0E+0 0E+0 0E+0 0E+0
Ho(OH)3(s)
Ho(OH)3 = - 3.000H+ + 1.000Ho+3 + 3.000H2O
log_k 15.430 #98DIA/RAG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.543E+1 0E+0 0E+0 0E+0 0E+0
Ho(PO4):xH2O(s)
Ho(PO4) = - 2.000H+ + 1.000Ho+3 + 1.000H2(PO4)-
log_k -4.640 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.64E+0 0E+0 0E+0 0E+0 0E+0
Ho(cr)
Ho = 1.000Ho+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 182.795
delta_h -1126.687 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #82WAG/EVA
-analytic -1.45917E+1 0E+0 5.88508E+4 0E+0 0E+0
Ho2(CO3)3(cr)
Ho2(CO3)3 = 2.000Ho+3 + 3.000CO3-2
log_k -33.800 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.38E+1 0E+0 0E+0 0E+0 0E+0
Ho2O3(s)
Ho2O3 = - 6.000H+ + 2.000Ho+3 + 3.000H2O
log_k 47.410
delta_h -390.718 #kJ/mol
# Enthalpy of formation: -1880.856 #kJ/mol
-analytic -2.10408E+1 0E+0 2.04086E+4 0E+0 0E+0
HoCl3:6H2O(s)
HoCl3:6H2O = 1.000Ho+3 + 3.000Cl- + 6.000H2O
log_k 5.390 #95SPA/BRU
delta_h -43.855 #kJ/mol
# Enthalpy of formation: -2879.407 #kJ/mol
-analytic -2.29305E+0 0E+0 2.2907E+3 0E+0 0E+0
HoF3:0.5H2O(s)
HoF3:0.5H2O = 1.000Ho+3 + 3.000F- + 0.500H2O
log_k -16.400 #95SPA/BRU
delta_h -149.007 #kJ/mol
# Enthalpy of formation: -1707 #kJ/mol #82WAG/EVA
-analytic -4.25049E+1 0E+0 7.78317E+3 0E+0 0E+0
HoPO4:H2O(cr)
HoPO4:H2O = - 2.000H+ + 1.000Ho+3 + 1.000H2(PO4)- + 1.000H2O
log_k -5.560 #97LIU/BYR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.56E+0 0E+0 0E+0 0E+0 0E+0
Hydrocerussite
Pb3(CO3)2(OH)2 = 3.000Pb+2 - 2.000H+ + 2.000CO3-2 + 2.000H2O
log_k -17.910
delta_h -5.160 #kJ/mol
# Enthalpy of formation: -1914.2 #kJ/mol #83SAN/BAR
-analytic -1.8814E+1 0E+0 2.69525E+2 0E+0 0E+0
Hydrophilite
CaCl2 = 1.000Ca+2 + 2.000Cl-
log_k 11.770
delta_h -81.360 #kJ/mol
# Enthalpy of formation: -795.8 #kJ/mol #98CHA
-analytic -2.48364E+0 0E+0 4.24972E+3 0E+0 0E+0
Hydrotalcite
Mg4Al2(OH)14:3H2O = 4.000Mg+2 + 2.000Al+3 - 14.000H+ + 17.000H2O
log_k 73.740 #92ATK/GLA
delta_h -583.985 #kJ/mol
# Enthalpy of formation: -7219.925 #kJ/mol
-analytic -2.85696E+1 0E+0 3.05036E+4 0E+0 0E+0
Hydrotalcite-CO3
Mg4Al2(OH)12CO3:2H2O = 4.000Mg+2 + 2.000Al+3 - 12.000H+ + 1.000CO3-2 + 14.000H2O
log_k 50.860 #03JOH/GLA
delta_h -542.565 #kJ/mol
# Enthalpy of formation: -7079.085 #kJ/mol
-analytic -4.41932E+1 0E+0 2.83401E+4 0E+0 0E+0
Hydroxyapatite
Ca5(OH)(PO4)3 = 5.000Ca+2 - 7.000H+ + 3.000H2(PO4)- + 1.000H2O
log_k 14.350 #84NAN
delta_h -178.487 #kJ/mol
# Enthalpy of formation: -6730.143 #kJ/mol
-analytic -1.69195E+1 0E+0 9.32301E+3 0E+0 0E+0
Illite-Al
K0.85Al2.85Si3.15O10(OH)2 = 0.850K+ + 2.850Al+3 - 9.400H+ + 3.150H4(SiO4) - 0.600H2O
log_k 13.020
delta_h -266.372 #kJ/mol
# Enthalpy of formation: -5913.65 #kJ/mol #15BLA/VIE
-analytic -3.36463E+1 0E+0 1.39136E+4 0E+0 0E+0
Illite-FeII
K0.85Fe0.25Al2.35Si3.4O10(OH)2 = 0.850K+ + 0.250Fe+2 + 2.350Al+3 - 8.400H+ + 3.400H4(SiO4) - 1.600H2O
log_k 9.450
delta_h -216.501 #kJ/mol
# Enthalpy of formation: -5796.29 #kJ/mol #15BLA/VIE
-analytic -2.84793E+1 0E+0 1.13086E+4 0E+0 0E+0
Illite-Mg
K0.85Mg0.25Al2.35Si3.4O10(OH)2 = 0.250Mg+2 + 0.850K+ + 2.350Al+3 - 8.400H+ + 3.400H4(SiO4) - 1.600H2O
log_k 11.010
delta_h -225.651 #kJ/mol
# Enthalpy of formation: -5881.39 #kJ/mol #15BLA/VIE
-analytic -2.85223E+1 0E+0 1.17866E+4 0E+0 0E+0
Illite-Smec_ISCz-1(2.996H2O)
(Na0.134K0.53)(Si3.565Al0.435)(Al1.717Fe0.05Fe0.017Mg0.218)O10(OH)2:2.996H2O = 0.218Mg+2 + 0.530K+ + 0.134Na+ + 0.050Fe+3 + 0.017Fe+2 + 2.152Al+3 - 7.740H+ + 3.565H4(SiO4) + 0.736H2O
log_k 13.650
delta_h -225.171 #kJ/mol
# Enthalpy of formation: -6624.62 #kJ/mol #09GAI
-analytic -2.57982E+1 0E+0 1.17615E+4 0E+0 0E+0
Illite/smectiteISCz-1
(Ca0.092K0.439)(Si3.559Al0.441)(Al1.728Fe0.011Fe0.034Mg0.255)O10(OH)2 = 0.092Ca+2 + 0.255Mg+2 + 0.439K+ + 0.034Fe+3 + 0.011Fe+2 + 2.169Al+3 - 7.764H+ + 3.559H4(SiO4) - 2.236H2O
log_k 10.900
delta_h -224.050 #kJ/mol
# Enthalpy of formation: -5787.4 #kJ/mol #14BLA/GAI
-analytic -2.83518E+1 0E+0 1.17029E+4 0E+0 0E+0
Illite_Imt-2
(Na0.044K0.762)(Si3.387Al0.613)(Al1.427Fe0.292Fe0.084Mg0.241)O10(OH)2 = 0.241Mg+2 + 0.762K+ + 0.044Na+ + 0.292Fe+3 + 0.084Fe+2 + 2.040Al+3 - 8.452H+ + 3.387H4(SiO4) - 1.548H2O
log_k 11.540
delta_h -230.806 #kJ/mol
# Enthalpy of formation: -5711.25 #kJ/mol #12GAI/BLA
-analytic -2.88954E+1 0E+0 1.20558E+4 0E+0 0E+0
Jaffeite
Ca6(Si2O7)(OH)6 = 6.000Ca+2 - 12.000H+ + 2.000H4(SiO4) + 5.000H2O
log_k 114.060
delta_h -636.768 #kJ/mol
# Enthalpy of formation: -6972.77 #kJ/mol #10BLA/BOU1
-analytic 2.5032E+0 0E+0 3.32607E+4 0E+0 0E+0
Jennite
Ca9Si6O16(OH)10:6(H2O) = 9.000Ca+2 - 18.000H+ + 6.000H4(SiO4) + 8.000H2O
log_k 147.330 #10BLA/BOU1
delta_h -751.764 #kJ/mol
# Enthalpy of formation: -15189.04 #kJ/mol #10BLA/BOU1
-analytic 1.56268E+1 0E+0 3.92673E+4 0E+0 0E+0
K(NO3)(s)
K(NO3) = 1.000K+ + 1.000NO3-
log_k -0.100 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1E-1 0E+0 0E+0 0E+0 0E+0
K(OH)(s)
K(OH) = 1.000K+ - 1.000H+ + 1.000H2O
log_k 24.600 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.46E+1 0E+0 0E+0 0E+0 0E+0
K(TcO4)(s)
K(TcO4) = 1.000K+ + 1.000TcO4-
log_k -2.280
delta_h 53.560 #kJ/mol
# Enthalpy of formation: -1035.1 #kJ/mol #99RAR/RAN
-analytic 7.1033E+0 0E+0 -2.79763E+3 0E+0 0E+0
K(cr)
K = 1.000K+ + 0.500H2O - 1.000H+ - 0.250O2
log_k 70.985
delta_h -392.022 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic 2.30588E+0 0E+0 2.04767E+4 0E+0 0E+0
K-carbonate
K2CO3:1.5H2O = 2.000K+ + 1.000CO3-2 + 1.500H2O
log_k 3.030 #84HAR/MOL
delta_h -1.188 #kJ/mol
# Enthalpy of formation: -1607.067 #kJ/mol
-analytic 2.82187E+0 0E+0 6.20535E+1 0E+0 0E+0
K-trona
K2NaH(CO3)2:2H2O = 2.000K+ + 1.000Na+ + 1.000H+ + 2.000CO3-2 + 2.000H2O
log_k -9.100 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9.1E+0 0E+0 0E+0 0E+0 0E+0
K2CO3(cr)
K2CO3 = 2.000K+ + 1.000CO3-2
log_k 5.410
delta_h -31.798 #kJ/mol
# Enthalpy of formation: -1147.712 #kJ/mol
-analytic -1.60762E-1 0E+0 1.66092E+3 0E+0 0E+0
K2O(s)
K2O = 2.000K+ - 2.000H+ + 1.000H2O
log_k 84.110
delta_h -426.940 #kJ/mol
# Enthalpy of formation: -363.17 #kJ/mol #98CHA
-analytic 9.31343E+0 0E+0 2.23006E+4 0E+0 0E+0
K4NpO2(CO3)3(s)
K4NpO2(CO3)3 = 4.000K+ + 1.000NpO2+2 + 3.000CO3-2
log_k -26.400 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.64E+1 0E+0 0E+0 0E+0 0E+0
KAl(SO4)2(s)
KAl(SO4)2 = 1.000K+ + 1.000Al+3 + 2.000SO4-2
log_k 3.740 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.74E+0 0E+0 0E+0 0E+0 0E+0
KAl(SO4)2:12H2O(s)
KAl(SO4)2:12H2O = 1.000K+ + 1.000Al+3 + 2.000SO4-2 + 12.000H2O
log_k -6.680 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.68E+0 0E+0 0E+0 0E+0 0E+0
KBr(s)
KBr = 1.000K+ + 1.000Br-
log_k 1.130 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.13E+0 0E+0 0E+0 0E+0 0E+0
KFe(CrO4)2:2H2O(s)
KFe(CrO4)2:2H2O = 1.000K+ + 1.000Fe+3 + 2.000CrO4-2 + 2.000H2O
log_k -19.390 #98BAR/PAL
delta_h 27.540 #kJ/mol #98BAR/PAL
# Enthalpy of formation: -2658.34 #kJ/mol
-analytic -1.45652E+1 0E+0 -1.43851E+3 0E+0 0E+0
KFe3(CrO4)2(OH)6(cr)
KFe3(CrO4)2(OH)6 = 1.000K+ + 3.000Fe+3 - 6.000H+ + 2.000CrO4-2 + 6.000H2O
log_k -18.400 #96BAR/PAL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.84E+1 0E+0 0E+0 0E+0 0E+0
KH2PO4(cr)
KH2PO4 = 1.000K+ + 1.000H2(PO4)-
log_k -0.370
delta_h 19.686 #kJ/mol #74NAU/RYZ
# Enthalpy of formation: -1574.426 #kJ/mol
-analytic 3.07883E+0 0E+0 -1.02827E+3 0E+0 0E+0
KI(s)
KI = 1.000K+ + 1.000I-
log_k 1.740 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.74E+0 0E+0 0E+0 0E+0 0E+0
Kainite
KMgCl(SO4):3H2O = 1.000Mg+2 + 1.000K+ + 1.000SO4-2 + 1.000Cl- + 3.000H2O
log_k -0.190 #84HAR/MOL
delta_h -12.950 #kJ/mol
# Enthalpy of formation: -2640.1 #kJ/mol #82WAG/EVA
-analytic -2.45874E+0 0E+0 6.76425E+2 0E+0 0E+0
Kalicinite
KHCO3 = 1.000K+ + 1.000H+ + 1.000CO3-2
log_k -10.060 #84HAR/MOL
delta_h 34.950 #kJ/mol
# Enthalpy of formation: -962.32 #kJ/mol #74NAU/RYZ
-analytic -3.93703E+0 0E+0 -1.82556E+3 0E+0 0E+0
Kaolinite
Al2(Si2O5)(OH)4 = 2.000Al+3 - 6.000H+ + 2.000H4(SiO4) + 1.000H2O
log_k 6.510
delta_h -169.718 #kJ/mol
# Enthalpy of formation: -4115.3 #kJ/mol #01FIA/NAV
-analytic -2.32233E+1 0E+0 8.86498E+3 0E+0 0E+0
Katoite
Ca3Al2(SiO4)(OH)8 = 3.000Ca+2 + 2.000Al+3 - 12.000H+ + 1.000H4(SiO4) + 8.000H2O
log_k 71.160 #10BLA/BOU2
delta_h -545.657 #kJ/mol
# Enthalpy of formation: -5907.977 #kJ/mol
-analytic -2.44349E+1 0E+0 2.85016E+4 0E+0 0E+0
Lanarkite
PbSO4:PbO = 2.000Pb+2 - 2.000H+ + 1.000SO4-2 + 1.000H2O
log_k 2.630 #82ABD/THO
delta_h -39.234 #kJ/mol
# Enthalpy of formation: -1154.096 #kJ/mol
-analytic -4.24349E+0 0E+0 2.04933E+3 0E+0 0E+0
Lansfordite
Mg(CO3):5H2O = 1.000Mg+2 + 1.000CO3-2 + 5.000H2O
log_k -5.040
delta_h 2.890 #kJ/mol
# Enthalpy of formation: -2574.27 #kJ/mol #99KON/KON
-analytic -4.53369E+0 0E+0 -1.50955E+2 0E+0 0E+0
Laumontite
CaAl2Si4O12:4H2O = 1.000Ca+2 + 2.000Al+3 - 8.000H+ + 4.000H4(SiO4)
log_k 11.700
delta_h -213.576 #kJ/mol
# Enthalpy of formation: -7251 #kJ/mol #96KIS/NAV
-analytic -2.57169E+1 0E+0 1.11558E+4 0E+0 0E+0
Laurionite
PbClOH = 1.000Pb+2 - 1.000H+ + 1.000Cl- + 1.000H2O
log_k 0.620 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.2E-1 0E+0 0E+0 0E+0 0E+0
Lawrencite
FeCl2 = 1.000Fe+2 + 2.000Cl-
log_k 8.890
delta_h -82.460 #kJ/mol
# Enthalpy of formation: -341.7 #kJ/mol #95ROB/HEM
-analytic -5.55635E+0 0E+0 4.30718E+3 0E+0 0E+0
Leonhardtite
MgSO4:4H2O = 1.000Mg+2 + 1.000SO4-2 + 4.000H2O
log_k -0.890 #80HAR/WEA
delta_h -24.030 #kJ/mol
# Enthalpy of formation: -2495.63 #kJ/mol #74NAU/RYZ
-analytic -5.09987E+0 0E+0 1.25517E+3 0E+0 0E+0
Leonite
K2Mg(SO4)2:4H2O = 1.000Mg+2 + 2.000K+ + 2.000SO4-2 + 4.000H2O
log_k -3.980 #84HAR/MOL
delta_h 15.290 #kJ/mol
# Enthalpy of formation: -3948.57 #kJ/mol #74NAU/RYZ
-analytic -1.30131E+0 0E+0 -7.98651E+2 0E+0 0E+0
Lepidocrocite
FeOOH = 1.000Fe+3 - 3.000H+ + 2.000H2O
log_k 0.750 #98DIA2 in 98CHI
delta_h -64.260 #kJ/mol
# Enthalpy of formation: -556.4 #kJ/mol
-analytic -1.05079E+1 0E+0 3.35653E+3 0E+0 0E+0
Linnaeite
Co3S4 = 3.000Co+2 - 2.000H+ + 4.000HS- - 1.000H2O + 0.500O2
log_k -85.750
delta_h 416.263 #kJ/mol
# Enthalpy of formation: -374.5 #kJ/mol #95ROB/HEM
-analytic -1.2824E+1 0E+0 -2.17429E+4 0E+0 0E+0
Litharge
PbO = 1.000Pb+2 - 2.000H+ + 1.000H2O
log_k 12.630
delta_h -65.501 #kJ/mol
# Enthalpy of formation: -219.409 #kJ/mol #98CHA
-analytic 1.15473E+0 0E+0 3.42135E+3 0E+0 0E+0
Lizardite
Mg3Si2O5(OH)4 = 3.000Mg+2 - 6.000H+ + 2.000H4(SiO4) + 1.000H2O
log_k 33.100
delta_h -247.218 #kJ/mol
# Enthalpy of formation: -4362 #kJ/mol #04EVA
-analytic -1.02107E+1 0E+0 1.29131E+4 0E+0 0E+0
Mackinawite
FeS = 1.000Fe+2 - 1.000H+ + 1.000HS-
log_k -3.600 #91DAV
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.6E+0 0E+0 0E+0 0E+0 0E+0
Maghemite(disord)
Fe2O3 = 2.000Fe+3 - 6.000H+ + 3.000H2O
log_k 3.310 #98DIA1 in 98CHI
delta_h -149.690 #kJ/mol
# Enthalpy of formation: -805.8 #kJ/mol
-analytic -2.29145E+1 0E+0 7.81884E+3 0E+0 0E+0
Maghemite(ord)
Fe2O3 = 2.000Fe+3 - 6.000H+ + 3.000H2O
log_k 3.520 #98DIA1 in 98CHI
delta_h -149.690 #kJ/mol
# Enthalpy of formation: -805.8 #kJ/mol
-analytic -2.27045E+1 0E+0 7.81884E+3 0E+0 0E+0
Magnesite(nat)
MgCO3 = 1.000Mg+2 + 1.000CO3-2
log_k -8.910
delta_h -24.290 #kJ/mol
# Enthalpy of formation: -1117.94 #kJ/mol #99KON/KON
-analytic -1.31654E+1 0E+0 1.26875E+3 0E+0 0E+0
Magnesite(syn)
Mg(CO3) = 1.000Mg+2 + 1.000CO3-2
log_k -8.100
delta_h -28.930 #kJ/mol
# Enthalpy of formation: -1113.3 #kJ/mol #95ROB/HEM
-analytic -1.31683E+1 0E+0 1.51112E+3 0E+0 0E+0
Magnetite
Fe3O4 = 2.000Fe+3 + 1.000Fe+2 - 8.000H+ + 4.000H2O
log_k 10.410
delta_h -215.920 #kJ/mol
# Enthalpy of formation: -1115.4 #kJ/mol #88ONE
-analytic -2.74175E+1 0E+0 1.12783E+4 0E+0 0E+0
Manganite
MnOOH = 1.000Mn+2 - 2.000H+ + 1.500H2O + 0.250O2
log_k 3.775 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.775E+0 0E+0 0E+0 0E+0 0E+0
Margarite
CaAl4Si2O10(OH)2 = 1.000Ca+2 + 4.000Al+3 - 14.000H+ + 2.000H4(SiO4) + 4.000H2O
log_k 37.000
delta_h -518.308 #kJ/mol
# Enthalpy of formation: -6244 #kJ/mol #95ROB/HEM
-analytic -5.38035E+1 0E+0 2.70731E+4 0E+0 0E+0
Massicot
PbO = 1.000Pb+2 - 2.000H+ + 1.000H2O
log_k 12.740
delta_h -66.848 #kJ/mol
# Enthalpy of formation: -218.062 #kJ/mol #98CHA
-analytic 1.02875E+0 0E+0 3.49171E+3 0E+0 0E+0
Melanterite
FeSO4:7H2O = 1.000Fe+2 + 1.000SO4-2 + 7.000H2O
log_k -2.210 #90NOR/PLU
delta_h 20.543 #kJ/mol
# Enthalpy of formation: -3020.693 #kJ/mol
-analytic 1.38897E+0 0E+0 -1.07303E+3 0E+0 0E+0
Mercallite
KHSO4 = 1.000K+ + 1.000H+ + 1.000SO4-2
log_k -1.400 #84HAR/MOL
delta_h -0.590 #kJ/mol
# Enthalpy of formation: -1160.89 #kJ/mol #74NAU/RYZ
-analytic -1.50336E+0 0E+0 3.08178E+1 0E+0 0E+0
Merlinoite_K
K1.04Al1.04Si1.96O6:1.69H2O = 1.040K+ + 1.040Al+3 - 4.160H+ + 1.960H4(SiO4) - 0.150H2O
log_k 9.490
delta_h -105.627 #kJ/mol
# Enthalpy of formation: -3537.6 #kJ/mol #09BLA
-analytic -9.01503E+0 0E+0 5.51727E+3 0E+0 0E+0
Merlinoite_Na
Na1.04Al1.04Si1.96O6:2.27H2O = 1.040Na+ + 1.040Al+3 - 4.160H+ + 1.960H4(SiO4) + 0.430H2O
log_k 10.300
delta_h -115.307 #kJ/mol
# Enthalpy of formation: -3681.43 #kJ/mol #09BLA
-analytic -9.90089E+0 0E+0 6.0229E+3 0E+0 0E+0
Mg(HPO4):3H2O(s)
Mg(HPO4):3H2O = 1.000Mg+2 - 1.000H+ + 1.000H2(PO4)- + 3.000H2O
log_k 1.410 #01WEN/MUS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.41E+0 0E+0 0E+0 0E+0 0E+0
Mg(NO3)2(s)
Mg(NO3)2 = 1.000Mg+2 + 2.000NO3-
log_k 15.500 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.55E+1 0E+0 0E+0 0E+0 0E+0
Mg(NO3)2:6H2O(s)
Mg(NO3)2:6H2O = 1.000Mg+2 + 2.000NO3- + 6.000H2O
log_k 2.580 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.58E+0 0E+0 0E+0 0E+0 0E+0
Mg(SO4)(s)
Mg(SO4) = 1.000Mg+2 + 1.000SO4-2
log_k 9.100
delta_h -114.550 #kJ/mol
# Enthalpy of formation: -1261.79 #kJ/mol #98CHA
-analytic -1.09683E+1 0E+0 5.98335E+3 0E+0 0E+0
Mg(SO4):H2O(s)
Mg(SO4):H2O = 1.000Mg+2 + 1.000SO4-2 + 1.000H2O
log_k -0.120 #84HAR/MOL
delta_h -51.464 #kJ/mol
# Enthalpy of formation: -1610.706 #kJ/mol
-analytic -9.13609E+0 0E+0 2.68815E+3 0E+0 0E+0
Mg(SeO3):6H2O(s)
Mg(SeO3):6H2O = 1.000Mg+2 + 1.000SeO3-2 + 6.000H2O
log_k -5.820 #05OLI/NOL
delta_h 18.070 #kJ/mol
# Enthalpy of formation: -2707.21 #kJ/mol #05OLI/NOL
-analytic -2.65428E+0 0E+0 -9.4386E+2 0E+0 0E+0
Mg(SeO4):6H2O(s)
Mg(SeO4):6H2O = 1.000Mg+2 + 1.000SeO4-2 + 6.000H2O
log_k -1.133 #05OLI/NOL
delta_h -4.080 #kJ/mol
# Enthalpy of formation: -2781.4 #kJ/mol #05OLI/NOL
-analytic -1.84778E+0 0E+0 2.13113E+2 0E+0 0E+0
Mg(cr)
Mg = 1.000Mg+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 122.770
delta_h -746.763 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -8.05707E+0 0E+0 3.90061E+4 0E+0 0E+0
Mg-oxychlorur
Mg2Cl(OH)3:4H2O = 2.000Mg+2 - 3.000H+ + 1.000Cl- + 7.000H2O
log_k 26.030 #84HAR/MOL
delta_h -154.690 #kJ/mol
# Enthalpy of formation: -2947.2 #kJ/mol #82WAG/EVA
-analytic -1.07048E+0 0E+0 8.08001E+3 0E+0 0E+0
Mg3(PO4)2(cr)
Mg3(PO4)2 = 3.000Mg+2 - 4.000H+ + 2.000H2(PO4)-
log_k 15.820 #68RAC/SOP
delta_h -214.093 #kJ/mol
# Enthalpy of formation: -3792.107 #kJ/mol
-analytic -2.16874E+1 0E+0 1.11828E+4 0E+0 0E+0
Mg3(PO4)2:22H2O(s)
Mg3(PO4)2:22H2O = 3.000Mg+2 - 4.000H+ + 2.000H2(PO4)- + 22.000H2O
log_k 16.000 #63TAY/FRA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.6E+1 0E+0 0E+0 0E+0 0E+0
Mg3(PO4)2:8H2O(s)
Mg3(PO4)2:8H2O = 3.000Mg+2 - 4.000H+ + 2.000H2(PO4)- + 8.000H2O
log_k 13.900 #63TAY/FRA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.39E+1 0E+0 0E+0 0E+0 0E+0
Mg5(CO3)4(OH)2:4H2O(s)
Mg5(CO3)4(OH)2:4H2O = 5.000Mg+2 - 2.000H+ + 4.000CO3-2 + 6.000H2O
log_k -10.310
delta_h -234.900 #kJ/mol
# Enthalpy of formation: -6516 #kJ/mol #73ROB/HEM
-analytic -5.14627E+1 0E+0 1.22697E+4 0E+0 0E+0
MgBr2(s)
MgBr2 = 1.000Mg+2 + 2.000Br-
log_k 27.800 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.78E+1 0E+0 0E+0 0E+0 0E+0
MgBr2:6H2O(s)
MgBr2:6H2O = 1.000Mg+2 + 2.000Br- + 6.000H2O
log_k 5.220 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.22E+0 0E+0 0E+0 0E+0 0E+0
MgCl2(s)
MgCl2 = 1.000Mg+2 + 2.000Cl-
log_k 22.030
delta_h -159.540 #kJ/mol
# Enthalpy of formation: -641.62 #kJ/mol #98CHA
-analytic -5.92017E+0 0E+0 8.33334E+3 0E+0 0E+0
MgCl2:2H2O(s)
MgCl2:2H2O = 1.000Mg+2 + 2.000Cl- + 2.000H2O
log_k 12.900 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.29E+1 0E+0 0E+0 0E+0 0E+0
MgCl2:4H2O(s)
MgCl2:4H2O = 1.000Mg+2 + 2.000Cl- + 4.000H2O
log_k 7.440 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.44E+0 0E+0 0E+0 0E+0 0E+0
MgCl2:H2O(s)
MgCl2:H2O = 1.000Mg+2 + 2.000Cl- + 1.000H2O
log_k 16.220 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.622E+1 0E+0 0E+0 0E+0 0E+0
MgCrO4(s)
MgCrO4 = 1.000Mg+2 + 1.000CrO4-2
log_k -86.990
delta_h 437.600 #kJ/mol
# Enthalpy of formation: -1783.6 #kJ/mol #95ROB/HEM
-analytic -1.03259E+1 0E+0 -2.28574E+4 0E+0 0E+0
MgF2(cr)
MgF2 = 1.000Mg+2 + 2.000F-
log_k -9.220 #92GRE/FUG
delta_h -13.500 #kJ/mol
# Enthalpy of formation: -1124.2 #kJ/mol
-analytic -1.15851E+1 0E+0 7.05153E+2 0E+0 0E+0
MgI2(s)
MgI2 = 1.000Mg+2 + 2.000I-
log_k 35.000 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.5E+1 0E+0 0E+0 0E+0 0E+0
MgMoO4(s)
MgMoO4 = 1.000Mg+2 + 1.000MoO4-2
log_k -0.640
delta_h -62.967 #kJ/mol
# Enthalpy of formation: -1401.033 #kJ/mol
-analytic -1.16713E+1 0E+0 3.28899E+3 0E+0 0E+0
Microcline
KAlSi3O8 = 1.000K+ + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 4.000H2O
log_k 0.050
delta_h -56.463 #kJ/mol
# Enthalpy of formation: -3974.34 #kJ/mol #99ARN/STE
-analytic -9.84188E+0 0E+0 2.94926E+3 0E+0 0E+0
Millerite
NiS = 1.000Ni+2 - 1.000H+ + 1.000HS-
log_k -10.130
delta_h 22.688 #kJ/mol
# Enthalpy of formation: -94 #kJ/mol #05GAM/BUG
-analytic -6.15524E+0 0E+0 -1.18508E+3 0E+0 0E+0
Minium
Pb3O4 = 3.000Pb+2 - 6.000H+ + 3.000H2O + 0.500O2
log_k 30.540
delta_h -142.111 #kJ/mol
# Enthalpy of formation: -718.686 #kJ/mol
-analytic 5.64326E+0 0E+0 7.42296E+3 0E+0 0E+0
Minnesotaite
Fe3Si4O10(OH)2 = 3.000Fe+2 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 14.930
delta_h -148.466 #kJ/mol
# Enthalpy of formation: -4822.99 #kJ/mol #83MIY/KLE
-analytic -1.10801E+1 0E+0 7.75491E+3 0E+0 0E+0
Mirabilite
Na2SO4:10H2O = 2.000Na+ + 1.000SO4-2 + 10.000H2O
log_k -1.230 #84HAR/MOL
delta_h 79.471 #kJ/mol
# Enthalpy of formation: -4327.791 #kJ/mol
-analytic 1.26927E+1 0E+0 -4.15105E+3 0E+0 0E+0
Mn(H2SiO4)(s)
Mn(H2SiO4) = 1.000Mn+2 - 2.000H+ + 1.000H4(SiO4)
log_k 12.440 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.244E+1 0E+0 0E+0 0E+0 0E+0
Mn(HPO4)(s)
Mn(HPO4) = 1.000Mn+2 - 1.000H+ + 1.000H2(PO4)-
log_k -5.740 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.74E+0 0E+0 0E+0 0E+0 0E+0
Mn(SO4)(s)
Mn(SO4) = 1.000Mn+2 + 1.000SO4-2
log_k -2.680 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.68E+0 0E+0 0E+0 0E+0 0E+0
Mn(SeO3):2H2O(cr)
Mn(SeO3):2H2O = 1.000Mn+2 + 1.000SeO3-2 + 2.000H2O
log_k -7.600 #05OLI/NOL
delta_h -18.920 #kJ/mol
# Enthalpy of formation: -1280.7 #kJ/mol #05OLI/NOL
-analytic -1.09146E+1 0E+0 9.88259E+2 0E+0 0E+0
#Mn(cr)
#Mn = 1.000Mn+2 + 1.000H2O - 2.000H+ - 0.500O2
# log_k
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #82WAG/EVA in 05OLI/NOL
# -analytic 0E+0 0E+0 0E+0 0E+0 0E+0
Mn2(Pyrophos)(s)
Mn2(Pyrophos) = 2.000Mn+2 + 1.000Pyrophos-4
log_k -19.500 #88CHA/NEW
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.95E+1 0E+0 0E+0 0E+0 0E+0
Mn3(PO4)2(s)
Mn3(PO4)2 = 3.000Mn+2 - 4.000H+ + 2.000H2(PO4)-
log_k 15.320 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.532E+1 0E+0 0E+0 0E+0 0E+0
Mn3(PO4)2:3H2O(s)
Mn3(PO4)2:3H2O = 3.000Mn+2 - 4.000H+ + 2.000H2(PO4)- + 3.000H2O
log_k 2.320 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.32E+0 0E+0 0E+0 0E+0 0E+0
MnCl2:2H2O(s)
MnCl2:2H2O = 1.000Mn+2 + 2.000Cl- + 2.000H2O
log_k 3.980 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.98E+0 0E+0 0E+0 0E+0 0E+0
MnCl2:4H2O(s)
MnCl2:4H2O = 1.000Mn+2 + 2.000Cl- + 4.000H2O
log_k 2.710 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.71E+0 0E+0 0E+0 0E+0 0E+0
MnCl2:H2O(s)
MnCl2:H2O = 1.000Mn+2 + 2.000Cl- + 1.000H2O
log_k 5.530 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.53E+0 0E+0 0E+0 0E+0 0E+0
MnO(s)
MnO = 1.000Mn+2 - 2.000H+ + 1.000H2O
log_k 17.900 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.79E+1 0E+0 0E+0 0E+0 0E+0
MnO2(s)
MnO2 = 1.000Mn+2 - 2.000H+ + 1.000H2O + 0.500O2
log_k -0.990 #NAGRA, TR 91-18; F.J. PEARSON, U. BERNER, W. HUMMEL; Nagra thermochemical data base, supplemental data 05/92
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9.9E-1 0E+0 0E+0 0E+0 0E+0
MnSe(alfa)
MnSe = 1.000Mn+2 - 1.000H+ + 1.000HSe-
log_k 0.300
delta_h -28.579 #kJ/mol
# Enthalpy of formation: -177.921 #kJ/mol
-analytic -4.70682E+0 0E+0 1.49278E+3 0E+0 0E+0
MnSe2(cr)
MnSe2 = 1.000Mn+2 + 2.000HSe- - 1.000H2O + 0.500O2
log_k -51.140
delta_h 268.063 #kJ/mol
# Enthalpy of formation: -180.5 #kJ/mol #05OLI/NOL
-analytic -4.17745E+0 0E+0 -1.40019E+4 0E+0 0E+0
Mo(s)
Mo = 2.000H+ + 1.000MoO4-2 - 1.000H2O - 1.500O2
log_k 109.390
delta_h -692.969 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #82WAG/EVA
-analytic -1.20128E+1 0E+0 3.61962E+4 0E+0 0E+0
Mo3O8(s)
Mo3O8 = 6.000H+ + 3.000MoO4-2 - 3.000H2O - 0.500O2
log_k -20.570
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.057E+1 0E+0 0E+0 0E+0 0E+0
MoO2(s)
MoO2 = 2.000H+ + 1.000MoO4-2 - 1.000H2O - 0.500O2
log_k 13.110
delta_h -117.246 #kJ/mol
# Enthalpy of formation: -587.857 #kJ/mol
-analytic -7.43059E+0 0E+0 6.12418E+3 0E+0 0E+0
MoO3(s)
MoO3 = 2.000H+ + 1.000MoO4-2 - 1.000H2O
log_k -11.980
delta_h 34.001 #kJ/mol
# Enthalpy of formation: -745.171 #kJ/mol
-analytic -6.02329E+0 0E+0 -1.77599E+3 0E+0 0E+0
MoS2(s)
MoS2 = 4.000H+ + 2.000HS- + 1.000MoO4-2 - 3.000H2O - 0.500O2
log_k -26.920
delta_h 105.752 #kJ/mol
# Enthalpy of formation: -271.795 #kJ/mol
-analytic -8.39307E+0 0E+0 -5.5238E+3 0E+0 0E+0
MoS3(s)
MoS3 = 5.000H+ + 3.000HS- + 1.000MoO4-2 - 4.000H2O
log_k -68.070
delta_h 354.849 #kJ/mol
# Enthalpy of formation: -257.429 #kJ/mol
-analytic -5.90321E+0 0E+0 -1.8535E+4 0E+0 0E+0
Monocarboaluminate
(CaO)3Al2O3:CaCO3:10.68H2O = 4.000Ca+2 + 2.000Al+3 - 12.000H+ + 1.000CO3-2 + 16.680H2O
log_k 70.300 #95DAM/GLA
delta_h -515.924 #kJ/mol
# Enthalpy of formation: -8175.75 #kJ/mol #10BLA/BOU2
-analytic -2.00859E+1 0E+0 2.69485E+4 0E+0 0E+0
Monosulfate-Fe
Ca4Fe2(SO4)(OH)12:6H2O = 4.000Ca+2 + 2.000Fe+3 - 12.000H+ + 1.000SO4-2 + 18.000H2O
log_k 66.050 #10BLA/BOU2
delta_h -477.312 #kJ/mol
# Enthalpy of formation: -7846.968 #kJ/mol
-analytic -1.75714E+1 0E+0 2.49317E+4 0E+0 0E+0
Monosulfoaluminate
Ca4Al2(SO4)(OH)12:6H2O = 4.000Ca+2 + 2.000Al+3 - 12.000H+ + 1.000SO4-2 + 18.000H2O
log_k 73.070 #10BLA/BOU2
delta_h -539.400 #kJ/mol
# Enthalpy of formation: -8763.68 #kJ/mol #10BLA/BOU2
-analytic -2.14287E+1 0E+0 2.81748E+4 0E+0 0E+0
Montmorillonite-BCCa
Ca0.17Mg0.34Al1.66Si4O10(OH)2 = 0.170Ca+2 + 0.340Mg+2 + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 4.200
delta_h -156.000 #kJ/mol
# Enthalpy of formation: -5690.29 #kJ/mol #15BLA/VIE
-analytic -2.313E+1 0E+0 8.14844E+3 0E+0 0E+0
Montmorillonite-BCK
K0.34Mg0.34Al1.66Si4O10(OH)2 = 0.340Mg+2 + 0.340K+ + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 2.810
delta_h -136.198 #kJ/mol
# Enthalpy of formation: -5703.51 #kJ/mol #15BLA/VIE
-analytic -2.10508E+1 0E+0 7.11411E+3 0E+0 0E+0
Montmorillonite-BCMg
Mg0.17Mg0.34Al1.66Si4O10(OH)2 = 0.510Mg+2 + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 3.690
delta_h -157.360 #kJ/mol
# Enthalpy of formation: -5676.01 #kJ/mol #15BLA/VIE
-analytic -2.38782E+1 0E+0 8.21947E+3 0E+0 0E+0
Montmorillonite-BCNa
Na0.34Mg0.34Al1.66Si4O10(OH)2 = 0.340Mg+2 + 0.340Na+ + 1.660Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 3.390
delta_h -145.286 #kJ/mol
# Enthalpy of formation: -5690.41 #kJ/mol #15BLA/VIE
-analytic -2.2063E+1 0E+0 7.58881E+3 0E+0 0E+0
Montmorillonite-HCCa
Ca0.3Mg0.6Al1.4Si4O10(OH)2 = 0.300Ca+2 + 0.600Mg+2 + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 6.890
delta_h -163.896 #kJ/mol
# Enthalpy of formation: -5734.42 #kJ/mol #15BLA/VIE
-analytic -2.18233E+1 0E+0 8.56087E+3 0E+0 0E+0
Montmorillonite-HCK
K0.6Mg0.6Al1.4Si4O10(OH)2 = 0.600Mg+2 + 0.600K+ + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 4.430
delta_h -128.960 #kJ/mol
# Enthalpy of formation: -5757.74 #kJ/mol #15BLA/VIE
-analytic -1.81628E+1 0E+0 6.73604E+3 0E+0 0E+0
Montmorillonite-HCMg
Mg0.3Mg0.6Al1.4Si4O10(OH)2 = 0.900Mg+2 + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 5.980
delta_h -166.296 #kJ/mol
# Enthalpy of formation: -5709.22 #kJ/mol #15BLA/VIE
-analytic -2.31538E+1 0E+0 8.68623E+3 0E+0 0E+0
Montmorillonite-HCNa
Na0.6Mg0.6Al1.4Si4O10(OH)2 = 0.600Mg+2 + 0.600Na+ + 1.400Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 5.450
delta_h -144.990 #kJ/mol
# Enthalpy of formation: -5734.63 #kJ/mol #15BLA/VIE
-analytic -1.99511E+1 0E+0 7.57334E+3 0E+0 0E+0
Mordenite_Ca
Ca0.515Al1.03Si4.97O12:3.1H2O = 0.515Ca+2 + 1.030Al+3 - 4.120H+ + 4.970H4(SiO4) - 4.780H2O
log_k -2.920 #09BLA
delta_h -74.768 #kJ/mol
# Enthalpy of formation: -6655.295 #kJ/mol
-analytic -1.60188E+1 0E+0 3.9054E+3 0E+0 0E+0
Mordenite_Oregon
Ca0.289Na0.362Al0.94Si5.06O12:3.468H2O = 0.289Ca+2 + 0.362Na+ + 0.940Al+3 - 3.760H+ + 5.060H4(SiO4) - 4.772H2O
log_k -4.160
delta_h -41.247 #kJ/mol
# Enthalpy of formation: -6738.44 #kJ/mol #92JOH/TAS
-analytic -1.13862E+1 0E+0 2.15448E+3 0E+0 0E+0
Muscovite
KAl3Si3O10(OH)2 = 1.000K+ + 3.000Al+3 - 10.000H+ + 3.000H4(SiO4)
log_k 13.040
delta_h -276.122 #kJ/mol
# Enthalpy of formation: -5974.8 #kJ/mol #95HAS/CYG
-analytic -3.53344E+1 0E+0 1.44228E+4 0E+0 0E+0
Na(NO3)(s)
Na(NO3) = 1.000Na+ + 1.000NO3-
log_k 1.090 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.09E+0 0E+0 0E+0 0E+0 0E+0
Na(TcO4):4H2O(s)
Na(TcO4):4H2O = 1.000Na+ + 1.000TcO4- + 4.000H2O
log_k 0.790 #99RAR/RAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 7.9E-1 0E+0 0E+0 0E+0 0E+0
Na(cr)
Na = 1.000Na+ + 0.500H2O - 1.000H+ - 0.250O2
log_k 67.385
delta_h -380.222 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG (89COX/WAG)
-analytic 7.7315E-1 0E+0 1.98603E+4 0E+0 0E+0
Na2(CO3)(cr)
Na2(CO3) = 2.000Na+ + 1.000CO3-2
log_k 1.120
delta_h -26.710 #kJ/mol
# Enthalpy of formation: -1129.2 #kJ/mol #95ROB/HEM
-analytic -3.55938E+0 0E+0 1.39516E+3 0E+0 0E+0
Na2B4O7(cr)
Na2B4O7 = 2.000Na+ + 2.000H+ + 4.000B(OH)4- - 9.000H2O
log_k -16.060
delta_h 2.534 #kJ/mol
# Enthalpy of formation: -3291.208 #kJ/mol
-analytic -1.56161E+1 0E+0 -1.3236E+2 0E+0 0E+0
Na2B4O7:10H2O(s)
Na2B4O7:10H2O = 2.000Na+ + 2.000H+ + 4.000B(OH)4- + 1.000H2O
log_k -24.580
delta_h 141.721 #kJ/mol
# Enthalpy of formation: -6288.445 #kJ/mol
-analytic 2.48417E-1 0E+0 -7.40259E+3 0E+0 0E+0
Na2CO3:7H2O(s)
Na2CO3:7H2O = 2.000Na+ + 1.000CO3-2 + 7.000H2O
log_k -0.460 #84HAR/MOL
delta_h 42.682 #kJ/mol
# Enthalpy of formation: -3199.402 #kJ/mol
-analytic 7.01755E+0 0E+0 -2.22943E+3 0E+0 0E+0
Na2HPO4(cr)
Na2HPO4 = 2.000Na+ - 1.000H+ + 1.000H2(PO4)-
log_k 9.240
delta_h -35.180 #kJ/mol
# Enthalpy of formation: -1748.1 #kJ/mol #82WAG/EVA
-analytic 3.07674E+0 0E+0 1.83758E+3 0E+0 0E+0
Na2O(cr)
Na2O = 2.000Na+ - 2.000H+ + 1.000H2O
log_k 67.460
delta_h -351.710 #kJ/mol
# Enthalpy of formation: -414.8 #kJ/mol #95ROB/HEM
-analytic 5.84314E+0 0E+0 1.83711E+4 0E+0 0E+0
Na2ZrSi2O7(cr)
Na2ZrSi2O7 = 2.000Na+ - 6.000H+ + 2.000H4(SiO4) + 1.000Zr+4 - 1.000H2O
log_k 3.740
delta_h -119.738 #kJ/mol
# Enthalpy of formation: -3606 #kJ/mol #05BRO/CUR
-analytic -1.72372E+1 0E+0 6.25434E+3 0E+0 0E+0
Na2ZrSi3O9:2H2O(cr)
Na2ZrSi3O9:2H2O = 2.000Na+ - 6.000H+ + 3.000H4(SiO4) + 1.000Zr+4 - 1.000H2O
log_k 15.580
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.558E+1 0E+0 0E+0 0E+0 0E+0
Na2ZrSi4O11(cr)
Na2ZrSi4O11 = 2.000Na+ - 6.000H+ + 4.000H4(SiO4) + 1.000Zr+4 - 5.000H2O
log_k -13.560
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.356E+1 0E+0 0E+0 0E+0 0E+0
Na2ZrSi6O15:3H2O(cr)
Na2ZrSi6O15:3H2O = 2.000Na+ - 6.000H+ + 6.000H4(SiO4) + 1.000Zr+4 - 6.000H2O
log_k 16.460
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.646E+1 0E+0 0E+0 0E+0 0E+0
Na2ZrSiO5(cr)
Na2ZrSiO5 = 2.000Na+ - 6.000H+ + 1.000H4(SiO4) + 1.000Zr+4 + 1.000H2O
log_k 13.190
delta_h -166.204 #kJ/mol
# Enthalpy of formation: -2670 #kJ/mol #05BRO/CUR
-analytic -1.59276E+1 0E+0 8.68143E+3 0E+0 0E+0
Na3PO4(cr)
Na3PO4 = 3.000Na+ - 2.000H+ + 1.000H2(PO4)-
log_k 23.520
delta_h -106.218 #kJ/mol
# Enthalpy of formation: -1917.402 #kJ/mol #74NAU/RYZ
-analytic 4.91143E+0 0E+0 5.54814E+3 0E+0 0E+0
Na4Zr2Si3O12(cr)
Na4Zr2Si3O12 = 4.000Na+ - 12.000H+ + 3.000H4(SiO4) + 2.000Zr+4
log_k 15.510
delta_h -276.942 #kJ/mol
# Enthalpy of formation: -6285 #kJ/mol #05BRO/CUR
-analytic -3.30081E+1 0E+0 1.44657E+4 0E+0 0E+0
Na6Th(CO3)5:12H2O(cr)
Na6Th(CO3)5:12H2O = 6.000Na+ + 1.000Th+4 + 5.000CO3-2 + 12.000H2O
log_k -42.200 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.22E+1 0E+0 0E+0 0E+0 0E+0
NaAmO2CO3(s)
NaAmO2CO3 = 1.000Na+ + 1.000AmO2+ + 1.000CO3-2
log_k -10.900 #94GIF, 94RUN/KIM, 96RUN/NEU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.09E+1 0E+0 0E+0 0E+0 0E+0
NaBO2(s)
NaBO2 = 1.000Na+ + 1.000B(OH)4- - 2.000H2O
log_k 3.620
delta_h -36.790 #kJ/mol
# Enthalpy of formation: -977.006 #kJ/mol
-analytic -2.82532E+0 0E+0 1.92167E+3 0E+0 0E+0
NaCm(CO3)2:5H2O(s)
NaCm(CO3)2:5H2O = 1.000Na+ + 2.000CO3-2 + 1.000Cm+3 + 5.000H2O
log_k -21.000 #estimated by correlation with Ln(III) and An(III)
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.1E+1 0E+0 0E+0 0E+0 0E+0
NaEu(CO3)2:5H2O(s)
NaEu(CO3)2:5H2O = 1.000Na+ + 1.000Eu+3 + 2.000CO3-2 + 5.000H2O
log_k -20.900 #05VER/VIT2
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.09E+1 0E+0 0E+0 0E+0 0E+0
NaF(s)
NaF = 1.000Na+ + 1.000F-
log_k -0.480 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.8E-1 0E+0 0E+0 0E+0 0E+0
NaH2PO4(cr)
NaH2PO4 = 1.000Na+ + 1.000H2(PO4)-
log_k 2.300
delta_h -6.140 #kJ/mol
# Enthalpy of formation: -1536.8 #kJ/mol #82WAG/EVA
-analytic 1.22432E+0 0E+0 3.20714E+2 0E+0 0E+0
NaHo(CO3)2:5H2O(s)
NaHo(CO3)2:5H2O = 1.000Na+ + 1.000Ho+3 + 2.000CO3-2 + 5.000H2O
log_k -20.500 #Estimated by ionic radii correlation
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.05E+1 0E+0 0E+0 0E+0 0E+0
NaNbO3(s)
NaNbO3 = 1.000Na+ + 1.000Nb(OH)6- - 3.000H2O
log_k -3.660
delta_h 7.504 #kJ/mol
# Enthalpy of formation: -1316.013 #kJ/mol
-analytic -2.34536E+0 0E+0 -3.91961E+2 0E+0 0E+0
NaSm(CO3)2:5H2O(s)
NaSm(CO3)2:5H2O = 1.000Na+ + 1.000Sm+3 + 2.000CO3-2 + 5.000H2O
log_k -20.990 #Estimated by ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.099E+1 0E+0 0E+0 0E+0 0E+0
Nahcolite
Na(HCO3) = 1.000Na+ + 1.000H+ + 1.000CO3-2
log_k -10.740 #84HAR/MOL
delta_h 33.430 #kJ/mol
# Enthalpy of formation: -949 #kJ/mol #82VAN
-analytic -4.88332E+0 0E+0 -1.74617E+3 0E+0 0E+0
Natrolite
Na2(Al2Si3)O10:2H2O = 2.000Na+ + 2.000Al+3 - 8.000H+ + 3.000H4(SiO4)
log_k 19.330
delta_h -222.462 #kJ/mol
# Enthalpy of formation: -5718.6 #kJ/mol #83JOH/FLO
-analytic -1.96436E+1 0E+0 1.162E+4 0E+0 0E+0
Natron
Na2(CO3):10H2O = 2.000Na+ + 1.000CO3-2 + 10.000H2O
log_k -0.830 #84HAR/MOL
delta_h 64.870 #kJ/mol
# Enthalpy of formation: -4079 #kJ/mol
-analytic 1.05347E+1 0E+0 -3.38839E+3 0E+0 0E+0
Nb(cr)
Nb = 1.000H+ + 1.000Nb(OH)6- - 3.500H2O - 1.250O2
log_k 149.295
delta_h -910.093 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #82WAG/EVA
-analytic -1.01461E+1 0E+0 4.75374E+4 0E+0 0E+0
Nb2O5(s)
Nb2O5 = 2.000H+ + 2.000Nb(OH)6- - 7.000H2O
log_k -28.380 #97PEI/NGU
delta_h 52.400 #kJ/mol #97PEI/NGU
# Enthalpy of formation: -1902.92 #kJ/mol
-analytic -1.91999E+1 0E+0 -2.73704E+3 0E+0 0E+0
Nesquehonite
Mg(CO3):3H2O = 1.000Mg+2 + 1.000CO3-2 + 3.000H2O
log_k -5.100
delta_h -22.420 #kJ/mol
# Enthalpy of formation: -1977.3 #kJ/mol #73ROB/HEM
-analytic -9.02781E+0 0E+0 1.17108E+3 0E+0 0E+0
Ni(BO2)2(s)
Ni(BO2)2 = 1.000Ni+2 + 2.000B(OH)4- - 4.000H2O
log_k -8.700 #92PEA/BER
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.7E+0 0E+0 0E+0 0E+0 0E+0
#Ni(CO3)(cr)
#Ni(CO3) = 1.000Ni+2 + 1.000CO3-2
# log_k
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -713.32 #kJ/mol #05GAM/BUG
# -analytic 0E+0 0E+0 0E+0 0E+0 0E+0
Ni(CO3):5.5H2O(cr)
Ni(CO3):5.5H2O = 1.000Ni+2 + 1.000CO3-2 + 5.500H2O
log_k -7.520
delta_h 10.685 #kJ/mol
# Enthalpy of formation: -2312.992 #kJ/mol #05GAM/BUG
-analytic -5.64807E+0 0E+0 -5.58116E+2 0E+0 0E+0
Ni(IO3)2(beta)
Ni(IO3)2 = 1.000Ni+2 + 2.000IO3-
log_k -4.430
delta_h -7.300 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -487.112 #kJ/mol
-analytic -5.7089E+0 0E+0 3.81305E+2 0E+0 0E+0
Ni(IO3)2:2H2O(cr)
Ni(IO3)2:2H2O = 1.000Ni+2 + 2.000IO3- + 2.000H2O
log_k -5.140
delta_h 21.600 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -1087.672 #kJ/mol
-analytic -1.35585E+0 0E+0 -1.12824E+3 0E+0 0E+0
Ni(OH)2(s)
Ni(OH)2 = 1.000Ni+2 - 2.000H+ + 2.000H2O
log_k 11.030
delta_h -84.390 #kJ/mol
# Enthalpy of formation: -542.3 #kJ/mol #05GAM/BUG
-analytic -3.75447E+0 0E+0 4.40799E+3 0E+0 0E+0
Ni(SO4)(cr)
Ni(SO4) = 1.000Ni+2 + 1.000SO4-2
log_k 4.750 #05GAM/BUG
delta_h -91.072 #kJ/mol
# Enthalpy of formation: -873.28 #kJ/mol #05GAM/BUG
-analytic -1.12051E+1 0E+0 4.75701E+3 0E+0 0E+0
Ni(SO4):6H2O(s)
Ni(SO4):6H2O = 1.000Ni+2 + 1.000SO4-2 + 6.000H2O
log_k -2.250 #05GAM/BUG
delta_h 4.485 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -2683.817 #kJ/mol
-analytic -1.46426E+0 0E+0 -2.34268E+2 0E+0 0E+0
Ni(SO4):7H2O(s)
Ni(SO4):7H2O = 1.000Ni+2 + 1.000SO4-2 + 7.000H2O
log_k -2.270 #05GAM/BUG
delta_h 12.167 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -2977.329 #kJ/mol
-analytic -1.38436E-1 0E+0 -6.35526E+2 0E+0 0E+0
Ni(SeO3):2H2O(cr)
Ni(SeO3):2H2O = 1.000Ni+2 + 1.000SeO3-2 + 2.000H2O
log_k -5.800 #05OLI/NOL
delta_h -24.502 #kJ/mol
# Enthalpy of formation: -1109.33 #kJ/mol #05OLI/NOL
-analytic -1.00926E+1 0E+0 1.27983E+3 0E+0 0E+0
Ni(SeO4):6H2O(s)
Ni(SeO4):6H2O = 1.000Ni+2 + 1.000SeO4-2 + 6.000H2O
log_k -1.381 #05OLI/NOL
delta_h -3.787 #kJ/mol
# Enthalpy of formation: -2369.705 #kJ/mol
-analytic -2.04445E+0 0E+0 1.97808E+2 0E+0 0E+0
#Ni(SiO3)(s)
#Ni(SiO3) = 1.000Ni+2 - 2.000H+ + 1.000H4(SiO4) - 1.000H2O
# log_k
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
# -analytic 0E+0 0E+0 0E+0 0E+0 0E+0
Ni(s)
Ni = 1.000Ni+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 51.010
delta_h -334.775 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #05GAM/BUG
-analytic -7.63998E+0 0E+0 1.74865E+4 0E+0 0E+0
Ni0.88Se(cr)
Ni0.88Se = 0.880Ni+2 - 0.760H+ + 1.000HSe- - 0.120H2O + 0.060O2
log_k -17.919
delta_h 69.261 #kJ/mol
# Enthalpy of formation: -69.8 #kJ/mol #05OLI/NOL
-analytic -5.78489E+0 0E+0 -3.61773E+3 0E+0 0E+0
Ni11As8(cr)
Ni11As8 = 11.000Ni+2 + 2.000H+ + 8.000AsO4-3 - 1.000H2O - 15.500O2
log_k 874.760
delta_h -6493.345 #kJ/mol
# Enthalpy of formation: -743 #kJ/mol #05GAM/BUG
-analytic -2.62824E+2 0E+0 3.39171E+5 0E+0 0E+0
Ni2(Pyrophos)(cr)
Ni2(Pyrophos) = 2.000Ni+2 + 1.000Pyrophos-4
log_k -9.820
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9.82E+0 0E+0 0E+0 0E+0 0E+0
Ni3(AsO3)2(s)
Ni3(AsO3)2 = 3.000Ni+2 + 2.000AsO4-3 - 1.000O2
log_k 34.500
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.45E+1 0E+0 0E+0 0E+0 0E+0
Ni3(AsO4)2:8H2O(s)
Ni3(AsO4)2:8H2O = 3.000Ni+2 + 2.000AsO4-3 + 8.000H2O
log_k -28.100 #05GAM/BUG
delta_h -48.956 #kJ/mol
# Enthalpy of formation: -4179 #kJ/mol #05GAM/BUG
-analytic -3.66767E+1 0E+0 2.55715E+3 0E+0 0E+0
Ni3(PO4)2(cr)
Ni3(PO4)2 = 3.000Ni+2 - 4.000H+ + 2.000H2(PO4)-
log_k 10.253
delta_h -188.236 #kJ/mol
# Enthalpy of formation: -2582 #kJ/mol #89BAE/McK
-analytic -2.27245E+1 0E+0 9.83224E+3 0E+0 0E+0
#Ni3O4(s)
#Ni3O4 = 3.000Ni+2 - 6.000H+ + 3.000H2O + 0.500O2
# log_k
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -819.308 #kJ/mol
# -analytic 0E+0 0E+0 0E+0 0E+0 0E+0
Ni5As2(cr)
Ni5As2 = 5.000Ni+2 - 4.000H+ + 2.000AsO4-3 + 2.000H2O - 5.000O2
log_k 323.170
delta_h -2317.670 #kJ/mol
# Enthalpy of formation: -244.66 #kJ/mol #05GAM/BUG
-analytic -8.28678E+1 0E+0 1.2106E+5 0E+0 0E+0
NiAs(cr)
NiAs = 1.000Ni+2 + 1.000H+ + 1.000AsO4-3 - 0.500H2O - 1.750O2
log_k 94.225
delta_h -708.183 #kJ/mol
# Enthalpy of formation: -70.82 #kJ/mol #05GAM/BUG
-analytic -2.98431E+1 0E+0 3.69909E+4 0E+0 0E+0
NiBr2(s)
NiBr2 = 1.000Ni+2 + 2.000Br-
log_k 10.170
delta_h -84.332 #kJ/mol
# Enthalpy of formation: -213.5 #kJ/mol #05GAM/BUG
-analytic -4.60431E+0 0E+0 4.40496E+3 0E+0 0E+0
NiCl2(s)
NiCl2 = 1.000Ni+2 + 2.000Cl-
log_k 8.670
delta_h -84.272 #kJ/mol
# Enthalpy of formation: -304.9 #kJ/mol #05GAM/BUG
-analytic -6.0938E+0 0E+0 4.40183E+3 0E+0 0E+0
NiCl2:2H2O(s)
NiCl2:2H2O = 1.000Ni+2 + 2.000Cl- + 2.000H2O
log_k 4.920
delta_h -47.461 #kJ/mol
# Enthalpy of formation: -913.371 #kJ/mol
-analytic -3.3948E+0 0E+0 2.47906E+3 0E+0 0E+0
NiCl2:4H2O(s)
NiCl2:4H2O = 1.000Ni+2 + 2.000Cl- + 4.000H2O
log_k 3.820
delta_h -18.444 #kJ/mol #05GAM/BUG
# Enthalpy of formation: -1514.048 #kJ/mol
-analytic 5.88755E-1 0E+0 9.63396E+2 0E+0 0E+0
NiCl2:6H2O(s)
NiCl2:6H2O = 1.000Ni+2 + 2.000Cl- + 6.000H2O
log_k 3.040
delta_h 0.548 #kJ/mol
# Enthalpy of formation: -2104.7 #kJ/mol #05GAM/BUG
-analytic 3.13601E+0 0E+0 -2.8624E+1 0E+0 0E+0
NiF2(s)
NiF2 = 1.000Ni+2 + 2.000F-
log_k -0.180
delta_h -68.412 #kJ/mol
# Enthalpy of formation: -657.3 #kJ/mol #05GAM/BUG
-analytic -1.21653E+1 0E+0 3.5734E+3 0E+0 0E+0
NiI2(s)
NiI2 = 1.000Ni+2 + 2.000I-
log_k 9.610
delta_h -72.152 #kJ/mol
# Enthalpy of formation: -96.42 #kJ/mol #05GAM/BUG
-analytic -3.03047E+0 0E+0 3.76876E+3 0E+0 0E+0
NiSe2(cr)
NiSe2 = 1.000Ni+2 + 2.000HSe- - 1.000H2O + 0.500O2
log_k -69.890
delta_h 368.851 #kJ/mol
# Enthalpy of formation: -115.5 #kJ/mol #05OLI/NOL
-analytic -5.27017E+0 0E+0 -1.92664E+4 0E+0 0E+0
Nontronite-Ca
Ca0.17Fe1.67Al0.67Si3.66O10(OH)2 = 0.170Ca+2 + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k -2.830
delta_h -145.927 #kJ/mol
# Enthalpy of formation: -4982.32 #kJ/mol #15BLA/VIE
-analytic -2.83953E+1 0E+0 7.62229E+3 0E+0 0E+0
Nontronite-K
K0.34Fe1.67Al0.67Si3.66O10(OH)2 = 0.340K+ + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k -4.000
delta_h -127.394 #kJ/mol
# Enthalpy of formation: -4994.27 #kJ/mol #15BLA/VIE
-analytic -2.63184E+1 0E+0 6.65424E+3 0E+0 0E+0
Nontronite-Mg
Mg0.17Fe1.67Al0.67Si3.66O10(OH)2 = 0.170Mg+2 + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k -3.370
delta_h -147.107 #kJ/mol
# Enthalpy of formation: -4968.22 #kJ/mol #15BLA/VIE
-analytic -2.9142E+1 0E+0 7.68392E+3 0E+0 0E+0
Nontronite-Na
Na0.34Fe1.67Al0.67Si3.66O10(OH)2 = 0.340Na+ + 1.670Fe+3 + 0.670Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k -3.500
delta_h -136.012 #kJ/mol
# Enthalpy of formation: -4981.64 #kJ/mol #15BLA/VIE
-analytic -2.73282E+1 0E+0 7.10439E+3 0E+0 0E+0
Nontronite_Nau-2
Ca0.247K0.02(Si3.458Al0.542)(Fe1.688Al0.276Mg0.068)O10(OH)2 = 0.247Ca+2 + 0.068Mg+2 + 0.020K+ + 1.688Fe+3 + 0.818Al+3 + 3.458H4(SiO4) - 1.832H2O - 8.168H+
log_k 1.350
delta_h -187.521 #kJ/mol
# Enthalpy of formation: -5035.69 #kJ/mol #13GAI/BLA
-analytic -3.15022E+1 0E+0 9.79489E+3 0E+0 0E+0
Np(CO3)(OH)(s)
Np(CO3)(OH) = 1.000Np+3 - 1.000H+ + 1.000CO3-2 + 1.000H2O
log_k -6.060 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.06E+0 0E+0 0E+0 0E+0 0E+0
Np(HPO4)2(s)
Np(HPO4)2 = 1.000Np+4 - 2.000H+ + 2.000H2(PO4)-
log_k -16.060 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.606E+1 0E+0 0E+0 0E+0 0E+0
Np(OH)3(s)
Np(OH)3 = 1.000Np+3 - 3.000H+ + 3.000H2O
log_k 18.000 #80ALL/KIP
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.8E+1 0E+0 0E+0 0E+0 0E+0
Np(cr)
Np = 1.000Np+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 154.335
delta_h -946.829 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #01LEM/FUG
-analytic -1.1542E+1 0E+0 4.94562E+4 0E+0 0E+0
Np2O5(cr)
Np2O5 = 2.000NpO2+ - 2.000H+ + 1.000H2O
log_k 3.700
delta_h -79.492 #kJ/mol
# Enthalpy of formation: -2162.7 #kJ/mol #01LEM/FUG
-analytic -1.02264E+1 0E+0 4.15215E+3 0E+0 0E+0
NpO2(CO3)(s)
NpO2(CO3) = 1.000NpO2+2 + 1.000CO3-2
log_k -14.600 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.46E+1 0E+0 0E+0 0E+0 0E+0
NpO2(CO3)2Na3(s)
NpO2(CO3)2Na3 = 3.000Na+ + 1.000NpO2+ + 2.000CO3-2
log_k -14.220 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.422E+1 0E+0 0E+0 0E+0 0E+0
NpO2(CO3)Na:3.5H2O(s)
NpO2(CO3)Na:3.5H2O = 1.000Na+ + 1.000NpO2+ + 1.000CO3-2 + 3.500H2O
log_k -11.000 #03GUI/FAN
delta_h 30.995 #kJ/mol
# Enthalpy of formation: -2925.151 #kJ/mol
-analytic -5.56992E+0 0E+0 -1.61898E+3 0E+0 0E+0
NpO2(NH4)4(CO3)3(s)
NpO2(NH4)4(CO3)3 = 1.000NpO2+2 + 4.000H+ + 3.000CO3-2 + 4.000NH3
log_k -26.810 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.681E+1 0E+0 0E+0 0E+0 0E+0
NpO2(s)
NpO2 = 1.000Np+4 - 4.000H+ + 2.000H2O
log_k -9.750
delta_h -53.682 #kJ/mol
# Enthalpy of formation: -1074 #kJ/mol #01LEM/FUG
-analytic -1.91547E+1 0E+0 2.804E+3 0E+0 0E+0
NpO2:2H2O(am)
NpO2:2H2O = 1.000Np+4 - 4.000H+ + 4.000H2O
log_k -0.700 #03GUI/FAN
delta_h -81.156 #kJ/mol
# Enthalpy of formation: -1618.186 #kJ/mol
-analytic -1.49179E+1 0E+0 4.23907E+3 0E+0 0E+0
NpO2OH(am,aged)
NpO2OH = 1.000NpO2+ - 1.000H+ + 1.000H2O
log_k 4.700 #01LEM/FUG
delta_h -41.111 #kJ/mol
# Enthalpy of formation: -1222.9 #kJ/mol #01LEM/FUG
-analytic -2.50233E+0 0E+0 2.14737E+3 0E+0 0E+0
NpO2OH(am,fresh)
NpO2OH = 1.000NpO2+ - 1.000H+ + 1.000H2O
log_k 5.300 #01LEM/FUG
delta_h -41.111 #kJ/mol
# Enthalpy of formation: -1222.9 #kJ/mol #01LEM/FUG
-analytic -1.90233E+0 0E+0 2.14737E+3 0E+0 0E+0
NpO3:H2O(cr)
NpO3:H2O = 1.000NpO2+2 - 2.000H+ + 2.000H2O
log_k 5.470 #01LEM/FUG
delta_h -52.240 #kJ/mol
# Enthalpy of formation: -1380.153 #kJ/mol
-analytic -3.68204E+0 0E+0 2.72868E+3 0E+0 0E+0
Okenite
CaSi2O5:2H2O = 1.000Ca+2 - 2.000H+ + 2.000H4(SiO4) - 1.000H2O
log_k 9.180
delta_h -44.388 #kJ/mol
# Enthalpy of formation: -3135.17 #kJ/mol #10BLA/BOU1
-analytic 1.40357E+0 0E+0 2.31854E+3 0E+0 0E+0
#Olivine
#Ni2(SiO4) = 2.000Ni+2 - 4.000H+ + 1.000H4(SiO4)
# log_k
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: -1396 #kJ/mol #05GAM/BUG
# -analytic 0E+0 0E+0 0E+0 0E+0 0E+0
Orpiment
As2S3 = 9.000H+ + 3.000HS- + 2.000AsO4-3 - 6.000H2O - 1.000O2
log_k -41.480
delta_h -6.843 #kJ/mol
# Enthalpy of formation: -91.223 #kJ/mol
-analytic -4.26788E+1 0E+0 3.57434E+2 0E+0 0E+0
P(cr)
P = 1.000H+ + 1.000H2(PO4)- - 1.500H2O - 1.250O2
log_k 140.515
delta_h -858.688 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -9.92037E+0 0E+0 4.48523E+4 0E+0 0E+0
Pa(cr)
Pa = 1.000Pa+4 + 2.000H2O - 4.000H+ - 1.000O2
log_k 184.730
delta_h -1179.526 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #85BAR/PAR
-analytic -2.19138E+1 0E+0 6.16108E+4 0E+0 0E+0
Pa2O5(s)
Pa2O5 = - 2.000H+ + 2.000PaO2+ + 1.000H2O
log_k -4.000 #76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4E+0 0E+0 0E+0 0E+0 0E+0
PaO2(s)
PaO2 = - 4.000H+ + 1.000Pa+4 + 2.000H2O
log_k 0.600 #76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6E-1 0E+0 0E+0 0E+0 0E+0
Paragonite
NaAl3Si3O10(OH)2 = 1.000Na+ + 3.000Al+3 - 10.000H+ + 3.000H4(SiO4)
log_k 16.800
delta_h -301.622 #kJ/mol
# Enthalpy of formation: -5937.5 #kJ/mol #96ROU/HOV
-analytic -3.60418E+1 0E+0 1.57548E+4 0E+0 0E+0
Paralaurionite
PbCl(OH) = 1.000Pb+2 - 1.000H+ + 1.000Cl- + 1.000H2O
log_k 0.620 #99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 6.2E-1 0E+0 0E+0 0E+0 0E+0
Pb(H2PO4)2(cr)
Pb(H2PO4)2 = 1.000Pb+2 + 2.000H2(PO4)-
log_k -9.840 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -9.84E+0 0E+0 0E+0 0E+0 0E+0
Pb(HPO4)(s)
Pb(HPO4) = 1.000Pb+2 - 1.000H+ + 1.000H2(PO4)-
log_k -4.250 #74NRI
delta_h 16.436 #kJ/mol
# Enthalpy of formation: -1318.116 #kJ/mol
-analytic -1.37054E+0 0E+0 -8.58511E+2 0E+0 0E+0
Pb(OH)2(s)
Pb(OH)2 = 1.000Pb+2 - 2.000H+ + 2.000H2O
log_k 13.510
delta_h -56.140 #kJ/mol
# Enthalpy of formation: -514.6 #kJ/mol #52LAT
-analytic 3.67471E+0 0E+0 2.93239E+3 0E+0 0E+0
Pb(SeO3)(s)
Pb(SeO3) = 1.000Pb+2 + 1.000SeO3-2
log_k -12.500 #05OLI/NOL
delta_h 25.840 #kJ/mol
# Enthalpy of formation: -532.08 #kJ/mol #05OLI/NOL
-analytic -7.97303E+0 0E+0 -1.34972E+3 0E+0 0E+0
Pb(SeO4)(s)
Pb(SeO4) = 1.000Pb+2 + 1.000SeO4-2
log_k -6.900 #05OLI/NOL
delta_h 4.720 #kJ/mol #05OLI/NOL
# Enthalpy of formation: -607.3 #kJ/mol
-analytic -6.07309E+0 0E+0 -2.46542E+2 0E+0 0E+0
Pb(cr)
Pb = 1.000Pb+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 47.240
delta_h -278.843 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -1.61112E+0 0E+0 1.4565E+4 0E+0 0E+0
Pb2(SiO4)(s)
Pb2(SiO4) = 2.000Pb+2 - 4.000H+ + 1.000H4(SiO4)
log_k 15.890
delta_h -81.474 #kJ/mol
# Enthalpy of formation: -1377.88 #kJ/mol #98CHA
-analytic 1.61639E+0 0E+0 4.25568E+3 0E+0 0E+0
Pb3(AsO4)2(s)
Pb3(AsO4)2 = 3.000Pb+2 + 2.000AsO4-3
log_k -35.400 #74NAU/RYZ
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.54E+1 0E+0 0E+0 0E+0 0E+0
Pb3(PO4)2(s)
Pb3(PO4)2 = 3.000Pb+2 - 4.000H+ + 2.000H2(PO4)-
log_k -5.260 #74NRI
delta_h -3.548 #kJ/mol
# Enthalpy of formation: -2598.892 #kJ/mol
-analytic -5.88158E+0 0E+0 1.85325E+2 0E+0 0E+0
Pb4O(PO4)2(cr)
Pb4O(PO4)2 = 4.000Pb+2 - 6.000H+ + 2.000H2(PO4)- + 1.000H2O
log_k 2.240 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.24E+0 0E+0 0E+0 0E+0 0E+0
PbB2O4(s)
PbB2O4 = 1.000Pb+2 + 2.000B(OH)4- - 4.000H2O
log_k -10.870 #91BAL/NOR
delta_h 2.761 #kJ/mol #91BAL/NOR
# Enthalpy of formation: -1548.753 #kJ/mol
-analytic -1.03863E+1 0E+0 -1.44217E+2 0E+0 0E+0
PbF2(s)
PbF2 = 1.000Pb+2 + 2.000F-
log_k -7.520 #99LOT/OCH
delta_h 6.530 #kJ/mol
# Enthalpy of formation: -676.31 #kJ/mol
-analytic -6.37599E+0 0E+0 -3.41085E+2 0E+0 0E+0
PbI2(cr)
PbI2 = 1.000Pb+2 + 2.000I-
log_k -8.050
delta_h 62.801 #kJ/mol
# Enthalpy of formation: -175.441 #kJ/mol
-analytic 2.95225E+0 0E+0 -3.28032E+3 0E+0 0E+0
PbMoO4(s)
PbMoO4 = 1.000Pb+2 + 1.000MoO4-2
log_k -15.800
delta_h 55.795 #kJ/mol
# Enthalpy of formation: -1051.875 #kJ/mol
-analytic -6.02515E+0 0E+0 -2.91437E+3 0E+0 0E+0
PbSiO3(Glass)
PbSiO3 = 1.000Pb+2 - 2.000H+ + 1.000H4(SiO4) - 1.000H2O
log_k 6.600
delta_h -36.814 #kJ/mol
# Enthalpy of formation: -1137.63 #kJ/mol #74NAU/RYZ
-analytic 1.50474E-1 0E+0 1.92293E+3 0E+0 0E+0
Pd(OH)2(s)
Pd(OH)2 = - 2.000H+ + 1.000Pd+2 + 2.000H2O
log_k -1.610 #70NAB/KAL
delta_h 13.223 #kJ/mol
# Enthalpy of formation: -395 #kJ/mol #82WAG/EVA
-analytic 7.06567E-1 0E+0 -6.90684E+2 0E+0 0E+0
Pd(cr)
Pd = 1.000Pd+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 9.960 #43TEM/WAT
delta_h -89.880 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -5.78628E+0 0E+0 4.69475E+3 0E+0 0E+0
PdBr2(cr)
PdBr2 = 1.000Pd+2 + 2.000Br-
log_k -13.310 #89BAE/McK
delta_h 51.263 #kJ/mol
# Enthalpy of formation: -104.2 #kJ/mol #89BAE/McK
-analytic -4.32912E+0 0E+0 -2.67765E+3 0E+0 0E+0
PdCl2(cr)
PdCl2 = 1.000Pd+2 + 2.000Cl-
log_k -9.200
delta_h 54.423 #kJ/mol
# Enthalpy of formation: -198.7 #kJ/mol #82WAG/EVA
-analytic 3.34486E-1 0E+0 -2.84271E+3 0E+0 0E+0
PdI2(cr)
PdI2 = 1.000Pd+2 + 2.000I-
log_k -25.870
delta_h 139.923 #kJ/mol
# Enthalpy of formation: -63.6 #kJ/mol #89BAE/McK
-analytic -1.35658E+0 0E+0 -7.30868E+3 0E+0 0E+0
PdO(s)
PdO = - 2.000H+ + 1.000Pd+2 + 1.000H2O
log_k -6.020
delta_h -10.547 #kJ/mol
# Enthalpy of formation: -85.4 #kJ/mol #82WAG/EVA
-analytic -7.86775E+0 0E+0 5.50907E+2 0E+0 0E+0
PdS(s)
PdS = - 1.000H+ + 1.000Pd+2 + 1.000HS-
log_k -46.860
delta_h 244.293 #kJ/mol
# Enthalpy of formation: -70.71 #kJ/mol #74MIL
-analytic -4.06177E+0 0E+0 -1.27603E+4 0E+0 0E+0
PdSe(s)
PdSe = - 1.000H+ + 1.000Pd+2 + 1.000HSe-
log_k -49.110
delta_h 254.463 #kJ/mol
# Enthalpy of formation: -50.28 #kJ/mol #74MIL
-analytic -4.53006E+0 0E+0 -1.32915E+4 0E+0 0E+0
Pentahydrite
MgSO4:5H2O = 1.000Mg+2 + 1.000SO4-2 + 5.000H2O
log_k -1.280 #80HAR/WEA
delta_h -14.187 #kJ/mol
# Enthalpy of formation: -2791.303 #kJ/mol
-analytic -3.76545E+0 0E+0 7.41038E+2 0E+0 0E+0
Periclase
MgO = 1.000Mg+2 - 2.000H+ + 1.000H2O
log_k 21.580
delta_h -151.230 #kJ/mol
# Enthalpy of formation: -601.6 #kJ/mol #89COX/WAG
-analytic -4.91432E+0 0E+0 7.89928E+3 0E+0 0E+0
Phillipsite_Ca
Ca0.5AlSi3O8:3H2O = 0.500Ca+2 + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 1.000H2O
log_k 2.320 #09BLA
delta_h -83.630 #kJ/mol
# Enthalpy of formation: -4824.022 #kJ/mol
-analytic -1.23313E+1 0E+0 4.36829E+3 0E+0 0E+0
Phillipsite_K
KAlSi3O8:3H2O = 1.000K+ + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 1.000H2O
log_k 0.040 #09BLA
delta_h -46.433 #kJ/mol
# Enthalpy of formation: -4841.859 #kJ/mol
-analytic -8.0947E+0 0E+0 2.42536E+3 0E+0 0E+0
Phillipsite_Na
NaAlSi3O8:3H2O = 1.000Na+ + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 1.000H2O
log_k 1.450 #09BLA
delta_h -64.815 #kJ/mol
# Enthalpy of formation: -4811.677 #kJ/mol
-analytic -9.90508E+0 0E+0 3.38552E+3 0E+0 0E+0
Phlogopite_K
KMg3Si3AlO10(OH)2 = 3.000Mg+2 + 1.000K+ + 1.000Al+3 - 10.000H+ + 3.000H4(SiO4)
log_k 41.100
delta_h -360.122 #kJ/mol
# Enthalpy of formation: -6215 #kJ/mol #92CIR/NAV
-analytic -2.19906E+1 0E+0 1.88105E+4 0E+0 0E+0
Phlogopite_Na
NaMg3AlSi3O10(OH)2 = 3.000Mg+2 + 1.000Na+ + 1.000Al+3 - 10.000H+ + 3.000H4(SiO4)
log_k 44.200
delta_h -391.182 #kJ/mol
# Enthalpy of formation: -6172.14 #kJ/mol #98HOL/POW
-analytic -2.4332E+1 0E+0 2.04328E+4 0E+0 0E+0
Phosgenite
Pb2(CO3)Cl2 = 2.000Pb+2 + 1.000CO3-2 + 2.000Cl-
log_k 19.900 #74NAU/RYZ
delta_h -163.291 #kJ/mol
# Enthalpy of formation: -844.259 #kJ/mol
-analytic -8.70731E+0 0E+0 8.52927E+3 0E+0 0E+0
Picromerite
K2Mg(SO4)2:6H2O = 1.000Mg+2 + 2.000K+ + 2.000SO4-2 + 6.000H2O
log_k -4.330 #84HAR/MOL
delta_h 33.487 #kJ/mol
# Enthalpy of formation: -4538.427 #kJ/mol #74NAU/RYZ
-analytic 1.53666E+0 0E+0 -1.74915E+3 0E+0 0E+0
Pirssonite
Na2Ca(CO3)2:2H2O = 1.000Ca+2 + 2.000Na+ + 2.000CO3-2 + 2.000H2O
log_k -8.910 #99KON/KON
delta_h 9.580 #kJ/mol
# Enthalpy of formation: -2955.38 #kJ/mol
-analytic -7.23166E+0 0E+0 -5.00398E+2 0E+0 0E+0
Plattnerite
PbO2 = 1.000Pb+2 - 2.000H+ + 1.000H2O + 0.500O2
log_k 6.610
delta_h -16.507 #kJ/mol
# Enthalpy of formation: -274.47 #kJ/mol #98CHA
-analytic 3.7181E+0 0E+0 8.62219E+2 0E+0 0E+0
Plumbogummite
PbAl3(PO4)2(OH)5:H2O = 1.000Pb+2 + 3.000Al+3 - 9.000H+ + 2.000H2(PO4)- + 6.000H2O
log_k 13.240 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.324E+1 0E+0 0E+0 0E+0 0E+0
Plumbonacrite
Pb10(CO3)6O(OH)6 = 10.000Pb+2 - 8.000H+ + 6.000CO3-2 + 7.000H2O
log_k -42.090
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.209E+1 0E+0 0E+0 0E+0 0E+0
Polydymite
Ni3S4 = 3.000Ni+2 - 2.000H+ + 4.000HS- - 1.000H2O + 0.500O2
log_k -82.260
delta_h 375.879 #kJ/mol
# Enthalpy of formation: -326.352 #kJ/mol #74MIL
-analytic -1.64089E+1 0E+0 -1.96335E+4 0E+0 0E+0
Polyhalite
K2MgCa2(SO4)4:2H2O = 2.000Ca+2 + 1.000Mg+2 + 2.000K+ + 4.000SO4-2 + 2.000H2O
log_k -13.740 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.374E+1 0E+0 0E+0 0E+0 0E+0
Portlandite
Ca(OH)2 = 1.000Ca+2 - 2.000H+ + 2.000H2O
log_k 22.810 #10BLA/BOU1
delta_h -130.078 #kJ/mol
# Enthalpy of formation: -984.582 #kJ/mol
-analytic 2.13461E-2 0E+0 6.79444E+3 0E+0 0E+0
Pu(CO3)(OH)(s)
Pu(CO3)(OH) = 1.000Pu+3 - 1.000H+ + 1.000CO3-2 + 1.000H2O
log_k -5.740 #Estimated by correlation with An(III) in function of ionic radii
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.74E+0 0E+0 0E+0 0E+0 0E+0
Pu(HPO4)2(am,hyd)
Pu(HPO4)2 = 1.000Pu+4 - 2.000H+ + 2.000H2(PO4)-
log_k -16.030 #01LEM/FUG
delta_h -32.718 #kJ/mol
# Enthalpy of formation: -3112.377 #kJ/mol
-analytic -2.17619E+1 0E+0 1.70898E+3 0E+0 0E+0
Pu(OH)3(cr)
Pu(OH)3 = 1.000Pu+3 - 3.000H+ + 3.000H2O
log_k 15.800 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.58E+1 0E+0 0E+0 0E+0 0E+0
Pu(OH)4(am)
Pu(OH)4 = 1.000Pu+4 - 4.000H+ + 4.000H2O
log_k -0.800 #89LEM/GAR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8E-1 0E+0 0E+0 0E+0 0E+0
Pu(PO4)(s,hyd)
Pu(PO4) = 1.000Pu+3 - 2.000H+ + 1.000H2(PO4)-
log_k -5.040 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.04E+0 0E+0 0E+0 0E+0 0E+0
Pu(cr)
Pu = 1.000Pu+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 165.915
delta_h -1011.435 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #01LEM/FUG
-analytic -1.12805E+1 0E+0 5.28308E+4 0E+0 0E+0
Pu2O3(s)
Pu2O3 = 2.000Pu+3 - 6.000H+ + 3.000H2O
log_k 50.630
delta_h -385.070 #kJ/mol
# Enthalpy of formation: -1656 #kJ/mol #01LEM/FUG
-analytic -1.68313E+1 0E+0 2.01136E+4 0E+0 0E+0
PuAs(s)
PuAs = 1.000AsO4-3 + 1.000PuO2+2 - 0.500H2O + 1.000H+ - 2.750O2
log_k 192.005
delta_h -1293.893 #kJ/mol
# Enthalpy of formation: -240 #kJ/mol #01LEM/FUG
-analytic -3.46749E+1 0E+0 6.75846E+4 0E+0 0E+0
PuF4(s)
PuF4 = 1.000Pu+4 + 4.000F-
log_k -26.070 #01LEM/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.607E+1 0E+0 0E+0 0E+0 0E+0
PuO2(CO3)(s)
PuO2(CO3) = 1.000PuO2+2 + 1.000CO3-2
log_k -14.650 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.465E+1 0E+0 0E+0 0E+0 0E+0
PuO2(OH)(s)
PuO2(OH) = 1.000PuO2+ - 1.000H+ + 1.000H2O
log_k 5.000 #01LEM/FUG
delta_h -36.164 #kJ/mol
# Enthalpy of formation: -1159.793 #kJ/mol
-analytic -1.33565E+0 0E+0 1.88897E+3 0E+0 0E+0
PuO2(OH)2:H2O(s)
PuO2(OH)2:H2O = 1.000PuO2+2 - 2.000H+ + 3.000H2O
log_k 5.500 #01LEM/FUG
delta_h -46.718 #kJ/mol
# Enthalpy of formation: -1632.808 #kJ/mol
-analytic -2.68463E+0 0E+0 2.44025E+3 0E+0 0E+0
PuO2(Ox):3H2O(s)
PuO2(Ox):3H2O = 1.000PuO2+2 + 1.000Ox-2 + 3.000H2O
log_k -10.000 #05HUM/AND
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1E+1 0E+0 0E+0 0E+0 0E+0
PuO2(coll,hyd)
PuO2 = 1.000Pu+4 - 4.000H+ + 2.000H2O
log_k 0.200 #07NEC/ALT3
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2E-1 0E+0 0E+0 0E+0 0E+0
PuO2(s)
PuO2 = 1.000Pu+4 - 4.000H+ + 2.000H2O
log_k -8.030
delta_h -55.755 #kJ/mol
# Enthalpy of formation: -1055.8 #kJ/mol #01LEM/FUG
-analytic -1.77978E+1 0E+0 2.91228E+3 0E+0 0E+0
PuO2:2H2O(am)
PuO2:2H2O = 1.000Pu+4 - 4.000H+ + 4.000H2O
log_k -2.370 #03GUI/FAN
delta_h -58.548 #kJ/mol
# Enthalpy of formation: -1624.667 #kJ/mol
-analytic -1.26272E+1 0E+0 3.05817E+3 0E+0 0E+0
Pyrite
FeS2 = 1.000Fe+2 + 2.000HS- - 1.000H2O + 0.500O2
log_k -58.780
delta_h 324.813 #kJ/mol
# Enthalpy of formation: -167.65 #kJ/mol #76RAU in 04CHI
-analytic -1.87529E+0 0E+0 -1.69661E+4 0E+0 0E+0
Pyrochroite
Mn(OH)2 = 1.000Mn+2 - 2.000H+ + 2.000H2O
log_k 15.300 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.53E+1 0E+0 0E+0 0E+0 0E+0
Pyromorphite
Pb5Cl(PO4)3 = 5.000Pb+2 - 6.000H+ + 1.000Cl- + 3.000H2(PO4)-
log_k -25.750 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.575E+1 0E+0 0E+0 0E+0 0E+0
Pyromorphite-Br
Pb5Br(PO4)3 = 5.000Pb+2 - 6.000H+ + 1.000Br- + 3.000H2(PO4)-
log_k -19.450 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.945E+1 0E+0 0E+0 0E+0 0E+0
Pyromorphite-F
Pb5F(PO4)3 = 5.000Pb+2 - 6.000H+ + 1.000F- + 3.000H2(PO4)-
log_k -13.100 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.31E+1 0E+0 0E+0 0E+0 0E+0
Pyromorphite-OH
Pb5(OH)(PO4)3 = 5.000Pb+2 - 7.000H+ + 3.000H2(PO4)- + 1.000H2O
log_k -4.150 #74NRI
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -4.15E+0 0E+0 0E+0 0E+0 0E+0
Pyrophyllite
Al2Si4O10(OH)2 = 2.000Al+3 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k -0.420
delta_h -138.256 #kJ/mol
# Enthalpy of formation: -5640 #kJ/mol #95ROB/HEM
-analytic -2.46414E+1 0E+0 7.2216E+3 0E+0 0E+0
Pyrrhotite
Fe0.87S = 0.870Fe+2 - 0.740H+ + 1.000HS- - 0.130H2O + 0.065O2
log_k -11.179
delta_h 38.819 #kJ/mol
# Enthalpy of formation: -97.5 #kJ/mol #95ROB/HEM
-analytic -4.37788E+0 0E+0 -2.02766E+3 0E+0 0E+0
Quartz
SiO2 = 1.000H4(SiO4) - 2.000H2O
log_k -3.740
delta_h 21.166 #kJ/mol
# Enthalpy of formation: -910.7 #kJ/mol #82RIC/BOT
-analytic -3.18814E-2 0E+0 -1.10558E+3 0E+0 0E+0
Ra(CO3)(s)
Ra(CO3) = 1.000Ra+2 + 1.000CO3-2
log_k -8.300 #85LAN/RIE
delta_h 13.390 #kJ/mol
# Enthalpy of formation: -1216.646 #kJ/mol
-analytic -5.95418E+0 0E+0 -6.99407E+2 0E+0 0E+0
Ra(NO3)2(s)
Ra(NO3)2 = 1.000Ra+2 + 2.000NO3-
log_k -2.210
delta_h 49.980 #kJ/mol
# Enthalpy of formation: -991.706 #kJ/mol
-analytic 6.54611E+0 0E+0 -2.61063E+3 0E+0 0E+0
Ra(OH)2(s)
Ra(OH)2 = - 2.000H+ + 1.000Ra+2 + 2.000H2O
log_k 30.990
delta_h -149.763 #kJ/mol
# Enthalpy of formation: -949.923 #kJ/mol
-analytic 4.75269E+0 0E+0 7.82265E+3 0E+0 0E+0
Ra(SO4)(s)
Ra(SO4) = 1.000Ra+2 + 1.000SO4-2
log_k -10.260 #99SCH, 85LAN/RIE
delta_h 38.910 #kJ/mol
# Enthalpy of formation: -1476.275 #kJ/mol
-analytic -3.44327E+0 0E+0 -2.03241E+3 0E+0 0E+0
Ra(cr)
Ra = 1.000Ra+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 141.430
delta_h -807.788 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #82WAG/EVA
-analytic -8.81751E-2 0E+0 4.21936E+4 0E+0 0E+0
RaCl2:2H2O(s)
RaCl2:2H2O = 1.000Ra+2 + 2.000Cl- + 2.000H2O
log_k -0.730
delta_h 32.220 #kJ/mol
# Enthalpy of formation: -1466.065 #kJ/mol
-analytic 4.91469E+0 0E+0 -1.68297E+3 0E+0 0E+0
Rb(s)
Rb = 1.000Rb+ + 0.500H2O - 1.000H+ - 0.250O2
log_k 71.255
delta_h -391.002 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG
-analytic 2.75458E+0 0E+0 2.04234E+4 0E+0 0E+0
Rb2MoO4(s)
Rb2MoO4 = 1.000MoO4-2 + 2.000Rb+
log_k 3.100
delta_h -5.391 #kJ/mol
# Enthalpy of formation: -1493.849 #kJ/mol
-analytic 2.15554E+0 0E+0 2.81591E+2 0E+0 0E+0
Realgar
AsS = 4.000H+ + 1.000HS- + 1.000AsO4-3 - 2.500H2O - 0.750O2
log_k -2.575
delta_h -109.359 #kJ/mol
# Enthalpy of formation: -71.406 #kJ/mol
-analytic -2.17338E+1 0E+0 5.71218E+3 0E+0 0E+0
Rhodochrosite
Mn(CO3) = 1.000Mn+2 + 1.000CO3-2
log_k -11.130 #92PEA/BER
delta_h -5.899 #kJ/mol
# Enthalpy of formation: -890.081 #kJ/mol
-analytic -1.21635E+1 0E+0 3.08126E+2 0E+0 0E+0
Rhodochrosite(syn)
Mn(CO3) = 1.000Mn+2 + 1.000CO3-2
log_k -10.520
delta_h -6.792 #kJ/mol
# Enthalpy of formation: -889.188 #kJ/mol #92JOH
-analytic -1.17099E+1 0E+0 3.5477E+2 0E+0 0E+0
Ripidolite_Cca-2
(Mg2.964Fe1.712Fe0.215Al1.116Ca0.011)(Si2.633Al1.367)O10(OH)8 = 0.011Ca+2 + 2.964Mg+2 + 0.215Fe+3 + 1.712Fe+2 + 2.483Al+3 - 17.468H+ + 2.633H4(SiO4) + 7.468H2O
log_k 61.350
delta_h -633.385 #kJ/mol
# Enthalpy of formation: -8240.14 #kJ/mol #13BLA/GAI2
-analytic -4.96141E+1 0E+0 3.3084E+4 0E+0 0E+0
Romarchite
SnO = 1.000Sn+2 - 2.000H+ + 1.000H2O
log_k 1.590
delta_h -11.207 #kJ/mol
# Enthalpy of formation: -284.24 #kJ/mol #12GAM/GAJ
-analytic -3.73379E-1 0E+0 5.85382E+2 0E+0 0E+0
Rutherfordine
(UO2)(CO3) = 1.000UO2+2 + 1.000CO3-2
log_k -14.760 #03GUI/FAN
delta_h -2.929 #kJ/mol
# Enthalpy of formation: -1691.301 #kJ/mol
-analytic -1.52731E+1 0E+0 1.52992E+2 0E+0 0E+0
S(cr)
S = 1.000H+ + 1.000HS- - 1.000H2O + 0.500O2
log_k -45.130
delta_h 263.463 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic 1.02667E+0 0E+0 -1.37616E+4 0E+0 0E+0
Sacchite
MnCl2 = 1.000Mn+2 + 2.000Cl-
log_k 8.770 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.77E+0 0E+0 0E+0 0E+0 0E+0
Sanidine
KAlSi3O8 = 1.000K+ + 1.000Al+3 - 4.000H+ + 3.000H4(SiO4) - 4.000H2O
log_k 0.580
delta_h -65.073 #kJ/mol
# Enthalpy of formation: -3965.73 #kJ/mol #99ARN/STE
-analytic -1.08203E+1 0E+0 3.39899E+3 0E+0 0E+0
Saponite-Ca
Ca0.17Mg3Al0.34Si3.66O10(OH)2 = 0.170Ca+2 + 3.000Mg+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 29.340
delta_h -271.305 #kJ/mol
# Enthalpy of formation: -5998.44 #kJ/mol #15BLA/VIE
-analytic -1.81905E+1 0E+0 1.41712E+4 0E+0 0E+0
Saponite-FeCa
Ca0.17Mg2FeAl0.34Si3.66O10(OH)2 = 0.170Ca+2 + 2.000Mg+2 + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 26.550
delta_h -259.175 #kJ/mol
# Enthalpy of formation: -5633.57 #kJ/mol #15BLA/VIE
-analytic -1.88554E+1 0E+0 1.35376E+4 0E+0 0E+0
Saponite-FeK
K0.34Mg2FeAl0.34Si3.66O10(OH)2 = 2.000Mg+2 + 0.340K+ + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 25.380
delta_h -240.632 #kJ/mol
# Enthalpy of formation: -5645.53 #kJ/mol #15BLA/VIE
-analytic -1.67769E+1 0E+0 1.25691E+4 0E+0 0E+0
Saponite-FeMg
Mg0.17Mg2FeAl0.34Si3.66O10(OH)2 = 2.170Mg+2 + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 26.000
delta_h -260.345 #kJ/mol
# Enthalpy of formation: -5619.48 #kJ/mol #15BLA/VIE
-analytic -1.96104E+1 0E+0 1.35987E+4 0E+0 0E+0
Saponite-FeNa
Na0.34Mg2FeAl0.34Si3.66O10(OH)2 = 2.000Mg+2 + 0.340Na+ + 1.000Fe+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 25.700
delta_h -248.260 #kJ/mol
# Enthalpy of formation: -5633.89 #kJ/mol #15BLA/VIE
-analytic -1.77932E+1 0E+0 1.29675E+4 0E+0 0E+0
Saponite-K
K0.34Mg3Al0.34Si3.66O10(OH)2 = 3.000Mg+2 + 0.340K+ + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 28.170
delta_h -252.772 #kJ/mol
# Enthalpy of formation: -6010.39 #kJ/mol #15BLA/VIE
-analytic -1.61137E+1 0E+0 1.32032E+4 0E+0 0E+0
Saponite-Mg
Mg0.17Mg3Al0.34Si3.66O10(OH)2 = 3.170Mg+2 + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 28.790
delta_h -272.485 #kJ/mol
# Enthalpy of formation: -5984.34 #kJ/mol #15BLA/VIE
-analytic -1.89473E+1 0E+0 1.42329E+4 0E+0 0E+0
Saponite-Na
Na0.34Mg3Al0.34Si3.66O10(OH)2 = 3.000Mg+2 + 0.340Na+ + 0.340Al+3 - 7.360H+ + 3.660H4(SiO4) - 2.640H2O
log_k 28.670
delta_h -261.390 #kJ/mol
# Enthalpy of formation: -5997.76 #kJ/mol #15BLA/VIE
-analytic -1.71235E+1 0E+0 1.36533E+4 0E+0 0E+0
Saponite_SapCa
(Na0.394K0.021Ca0.038)(Si3.569Al0.397)(Mg2.949Fe0.034Fe0.021)O10(OH)2 = 0.038Ca+2 + 2.949Mg+2 + 0.021K+ + 0.394Na+ + 0.034Fe+3 + 0.021Fe+2 + 0.397Al+3 - 7.724H+ + 3.569H4(SiO4) - 2.276H2O
log_k 31.470
delta_h -285.499 #kJ/mol
# Enthalpy of formation: -5994.06 #kJ/mol #13GAI/BLA
-analytic -1.85472E+1 0E+0 1.49126E+4 0E+0 0E+0
Saponite_SapCa(4.151H2O)
(Na0.394K0.021Ca0.038)(Si3.569Al0.397)(Mg2.949Fe0.034Fe0.021)O10(OH)2:4.151H2O = 0.038Ca+2 + 2.949Mg+2 + 0.021K+ + 0.394Na+ + 0.034Fe+3 + 0.021Fe+2 + 0.397Al+3 - 7.724H+ + 3.569H4(SiO4) + 1.875H2O
log_k 28.300
delta_h -255.590 #kJ/mol
# Enthalpy of formation: -7210.45 #kJ/mol #09GAI
-analytic -1.64774E+1 0E+0 1.33504E+4 0E+0 0E+0
Sb(cr)
Sb = 1.000Sb(OH)3 - 1.500H2O - 0.750O2
log_k 52.815
delta_h -336.045 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -6.05738E+0 0E+0 1.75528E+4 0E+0 0E+0
Sb2O5(s)
Sb2O5 = 2.000Sb(OH)5 - 5.000H2O
log_k -7.400 #48TOU/MOU in 76BAE/MES
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.4E+0 0E+0 0E+0 0E+0 0E+0
Schoepite
UO3:2H2O = 1.000UO2+2 - 2.000H+ + 3.000H2O
log_k 5.960 #91SAN/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5.96E+0 0E+0 0E+0 0E+0 0E+0
Schoepite(des)
UO3:0.9H2O = 1.000UO2+2 - 2.000H+ + 1.900H2O
log_k 5.000
delta_h -55.777 #kJ/mol
# Enthalpy of formation: -1506.3 #kJ/mol #92GRE/FUG
-analytic -4.7717E+0 0E+0 2.91343E+3 0E+0 0E+0
Scolecite
CaAl2Si3O10:3H2O = 1.000Ca+2 + 2.000Al+3 - 8.000H+ + 3.000H4(SiO4) + 1.000H2O
log_k 16.650
delta_h -240.212 #kJ/mol
# Enthalpy of formation: -6049 #kJ/mol #83JOH/FLO
-analytic -2.54333E+1 0E+0 1.25471E+4 0E+0 0E+0
Se(s)
Se = 1.000H+ + 1.000HSe- - 1.000H2O + 0.500O2
log_k -50.610
delta_h 294.063 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG
-analytic 9.07551E-1 0E+0 -1.536E+4 0E+0 0E+0
Se3U(cr)
Se3U = 1.000UO2+2 + 1.000H+ + 3.000HSe- - 2.000H2O
log_k -18.270
delta_h 47.560 #kJ/mol
# Enthalpy of formation: -452 #kJ/mol #92GRE/FUG
-analytic -9.93786E+0 0E+0 -2.48423E+3 0E+0 0E+0
SeO3(cr)
SeO3 = 2.000H+ + 1.000SeO4-2 - 1.000H2O
log_k 20.360
delta_h -154.570 #kJ/mol
# Enthalpy of formation: -163.1 #kJ/mol #05OLI/NOL
-analytic -6.71946E+0 0E+0 8.07374E+3 0E+0 0E+0
SeU(cr)
SeU = 1.000U+4 - 3.000H+ + 1.000HSe- + 1.000H2O - 0.500O2
log_k 80.330
delta_h -584.663 #kJ/mol
# Enthalpy of formation: -272 #kJ/mol #05OLI/NOL
-analytic -2.20984E+1 0E+0 3.0539E+4 0E+0 0E+0
Si(cr)
Si = 1.000H4(SiO4) - 2.000H2O - 1.000O2
log_k 149.170
delta_h -877.400 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -4.54366E+0 0E+0 4.58297E+4 0E+0 0E+0
SiO2(am)
SiO2 = 1.000H4(SiO4) - 2.000H2O
log_k -2.710 #00GUN/ARN
delta_h 13.522 #kJ/mol
# Enthalpy of formation: -903.056 #kJ/mol
-analytic -3.41051E-1 0E+0 -7.06302E+2 0E+0 0E+0
Siderite
Fe(CO3) = 1.000Fe+2 + 1.000CO3-2
log_k -10.800 #92BRU/WER
delta_h -12.012 #kJ/mol
# Enthalpy of formation: -753.218 #kJ/mol
-analytic -1.29044E+1 0E+0 6.2743E+2 0E+0 0E+0
Siderophyllite
KFe2Al3Si2O10(OH)2 = 1.000K+ + 2.000Fe+2 + 3.000Al+3 - 14.000H+ + 2.000H4(SiO4) + 4.000H2O
log_k 40.570
delta_h -484.778 #kJ/mol
# Enthalpy of formation: -5628.27 #kJ/mol #90HOL/POW
-analytic -4.43593E+1 0E+0 2.53217E+4 0E+0 0E+0
Sm(OH)3(am)
Sm(OH)3 = 1.000Sm+3 - 3.000H+ + 3.000H2O
log_k 17.850 #98DIA/RAG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.785E+1 0E+0 0E+0 0E+0 0E+0
Sm(OH)3(s)
Sm(OH)3 = 1.000Sm+3 - 3.000H+ + 3.000H2O
log_k 16.130 #98DIA/RAG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.613E+1 0E+0 0E+0 0E+0 0E+0
Sm(cr)
Sm = 1.000Sm+3 + 1.500H2O - 3.000H+ - 0.750O2
log_k 181.105
delta_h -1110.844 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #79ROB/HEM
-analytic -1.35061E+1 0E+0 5.80233E+4 0E+0 0E+0
Sm2(CO3)3(s)
Sm2(CO3)3 = 2.000Sm+3 + 3.000CO3-2
log_k -34.500 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.45E+1 0E+0 0E+0 0E+0 0E+0
Sm2(SO4)3(s)
Sm2(SO4)3 = 2.000Sm+3 + 3.000SO4-2
log_k -9.800 #95SPA/BRU
delta_h -211.318 #kJ/mol
# Enthalpy of formation: -3899.1 #kJ/mol #82WAG/EVA
-analytic -4.68213E+1 0E+0 1.10379E+4 0E+0 0E+0
Sm2O3(s)
Sm2O3 = 2.000Sm+3 - 6.000H+ + 3.000H2O
log_k 43.110
delta_h -355.039 #kJ/mol
# Enthalpy of formation: -1884.849 #kJ/mol
-analytic -1.90901E+1 0E+0 1.8545E+4 0E+0 0E+0
SmCl3:6H2O(s)
SmCl3:6H2O = 1.000Sm+3 + 3.000Cl- + 6.000H2O
log_k 4.800 #96FAL/REA
delta_h -38.311 #kJ/mol
# Enthalpy of formation: -2869.108 #kJ/mol
-analytic -1.91179E+0 0E+0 2.00112E+3 0E+0 0E+0
SmF3:0.5H2O(s)
SmF3:0.5H2O = 1.000Sm+3 + 3.000F- + 0.500H2O
log_k -17.500 #95SPA/BRU
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.75E+1 0E+0 0E+0 0E+0 0E+0
SmOHCO3(cr)
SmOHCO3 = 1.000Sm+3 - 1.000H+ + 1.000CO3-2 + 1.000H2O
log_k -10.230
delta_h -38.859 #kJ/mol
# Enthalpy of formation: -1613.4 #kJ/mol #05ROR/FUG
-analytic -1.70378E+1 0E+0 2.02974E+3 0E+0 0E+0
SmOHCO3:0.5H2O(cr)
SmOHCO3:0.5H2O = 1.000Sm+3 - 1.000H+ + 1.000CO3-2 + 1.500H2O
log_k -7.310
delta_h -51.074 #kJ/mol
# Enthalpy of formation: -1744.1 #kJ/mol #05ROR/FUG
-analytic -1.62578E+1 0E+0 2.66778E+3 0E+0 0E+0
SmPO4:H2O(am)
SmPO4:H2O = 1.000Sm+3 - 2.000H+ + 1.000H2(PO4)- + 1.000H2O
log_k -5.000 #05CET/WOO
delta_h -26.480 #kJ/mol
# Enthalpy of formation: -2253.149 #kJ/mol #05CET/WOO
-analytic -9.63909E+0 0E+0 1.38314E+3 0E+0 0E+0
SmPO4:H2O(cr)
SmPO4:H2O = 1.000Sm+3 - 2.000H+ + 1.000H2(PO4)- + 1.000H2O
log_k -6.670 #97LIU/BYR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.67E+0 0E+0 0E+0 0E+0 0E+0
SmectiteMX80
Na0.409K0.024Ca0.009(Si3.738Al0.262)(Al1.598Mg0.214Fe0.173Fe0.035)O10(OH)2 = 0.009Ca+2 + 0.214Mg+2 + 0.024K+ + 0.409Na+ + 0.173Fe+3 + 1.860Al+3 + 3.738H4(SiO4) + 0.035Fe+2 - 2.952H2O - 7.048H+
log_k 5.270
delta_h -184.029 #kJ/mol
# Enthalpy of formation: -5656.37 #kJ/mol #12GAI/BLA
-analytic -2.69704E+1 0E+0 9.61249E+3 0E+0 0E+0
Smectite_MX80(3.989H2O)
(Ca0.009Na0.409K0.024)(Si3.738Al0.262)(Al1.598Fe0.173Fe0.035Mg0.214)O10(OH)2:3.989H2O = 0.009Ca+2 + 0.214Mg+2 + 0.024K+ + 0.409Na+ + 0.173Fe+3 + 0.035Fe+2 + 1.860Al+3 - 7.048H+ + 3.738H4(SiO4) + 1.037H2O
log_k 1.780
delta_h -157.245 #kJ/mol
# Enthalpy of formation: -6823.33 #kJ/mol #12GAI/BLA
-analytic -2.57681E+1 0E+0 8.21347E+3 0E+0 0E+0
Smectite_MX80(5.189H2O)
(Ca0.009Na0.409K0.024)(Si3.738Al0.262)(Al1.598Fe0.173Fe0.035Mg0.214)O10(OH)2:5.189H2O = 0.009Ca+2 + 0.214Mg+2 + 0.024K+ + 0.409Na+ + 0.173Fe+3 + 0.035Fe+2 + 1.860Al+3 - 7.048H+ + 3.738H4(SiO4) + 2.237H2O
log_k 1.440
delta_h -149.152 #kJ/mol
# Enthalpy of formation: -7174.42 #kJ/mol #12GAI/BLA
-analytic -2.46903E+1 0E+0 7.79074E+3 0E+0 0E+0
Sn(OH)4(s)
Sn(OH)4 = 1.000Sn+4 - 4.000H+ + 4.000H2O
log_k -1.280 #70BAR/KLI in 01SEB/POT
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.28E+0 0E+0 0E+0 0E+0 0E+0
Sn(OH)Cl(s)
Sn(OH)Cl = 1.000Sn+2 - 1.000H+ + 1.000Cl- + 1.000H2O
log_k -2.420 #30RAN/MUR recalculated in 99LOT/OCH
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.42E+0 0E+0 0E+0 0E+0 0E+0
Sn(cr)(alfa)
Sn = 1.000Sn+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 47.810
delta_h -287.400 #kJ/mol
# Enthalpy of formation: -1.98 #kJ/mol #12GAM/GAJ
-analytic -2.54024E+0 0E+0 1.50119E+4 0E+0 0E+0
Sn(cr)(beta)
Sn = 1.000Sn+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 47.790
delta_h -289.380 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -2.90713E+0 0E+0 1.51153E+4 0E+0 0E+0
SnO2(am)
SnO2 = 1.000Sn+4 - 4.000H+ + 2.000H2O
log_k -14.770
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.477E+1 0E+0 0E+0 0E+0 0E+0
SnSe(alfa)
SnSe = 1.000Sn+2 - 1.000H+ + 1.000HSe-
log_k -21.670
delta_h 114.183 #kJ/mol
# Enthalpy of formation: -109.5 #kJ/mol #05OLI/NOL
-analytic -1.66603E+0 0E+0 -5.96418E+3 0E+0 0E+0
SnSe2(s)
SnSe2 = 1.000Sn+2 + 2.000HSe- - 1.000H2O + 0.500O2
log_k -73.780
delta_h 413.646 #kJ/mol
# Enthalpy of formation: -114.9 #kJ/mol #05OLI/NOL
-analytic -1.31244E+0 0E+0 -2.16062E+4 0E+0 0E+0
Soddyite(synt1)
(UO2)2SiO4:2H2O = 2.000UO2+2 - 4.000H+ + 1.000H4(SiO4) + 2.000H2O
log_k 3.900 #97PER/CAS
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3.9E+0 0E+0 0E+0 0E+0 0E+0
Soddyite(synt2)
(UO2)2SiO4:2H2O = 2.000UO2+2 - 4.000H+ + 1.000H4(SiO4) + 2.000H2O
log_k 6.430 #07GOR/MAZ
delta_h -25.454 #kJ/mol
# Enthalpy of formation: -4045.4 #kJ/mol #07GOR/MAZ
-analytic 1.97066E+0 0E+0 1.32955E+3 0E+0 0E+0
Sodium-compreignacite
Na2(UO2)6O4(OH)6:7H2O = 2.000Na+ + 6.000UO2+2 - 14.000H+ + 17.000H2O
log_k 39.400 #08GOR/FEI
delta_h -517.390 #kJ/mol
# Enthalpy of formation: -10936.4 #kJ/mol #06KUB/HEL
-analytic -5.12427E+1 0E+0 2.70251E+4 0E+0 0E+0
Sphaerocobaltite
CoCO3 = 1.000Co+2 + 1.000CO3-2
log_k -11.200 #99GRA2
delta_h -9.421 #kJ/mol
# Enthalpy of formation: -723.409 #kJ/mol
-analytic -1.28505E+1 0E+0 4.92092E+2 0E+0 0E+0
Sr(HPO4)(s)
Sr(HPO4) = 1.000Sr+2 - 1.000H+ + 1.000H2(PO4)-
log_k 0.280 #97MAR/SMI
delta_h -19.487 #kJ/mol
# Enthalpy of formation: -1834.012 #kJ/mol
-analytic -3.13397E+0 0E+0 1.01788E+3 0E+0 0E+0
Sr(NO3)2(cr)
Sr(NO3)2 = 1.000Sr+2 + 2.000NO3-
log_k 0.400
delta_h 17.760 #kJ/mol
# Enthalpy of formation: -982.36 #kJ/mol #92GRE/FUG
-analytic 3.51141E+0 0E+0 -9.27668E+2 0E+0 0E+0
Sr(NO3)2:2H2O(s)
Sr(NO3)2:2H2O = 1.000Sr+2 + 2.000NO3- + 2.000H2O
log_k 0.050 #25/08/1994
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 5E-2 0E+0 0E+0 0E+0 0E+0
Sr(NO3)2:4H2O(s)
Sr(NO3)2:4H2O = 1.000Sr+2 + 2.000NO3- + 4.000H2O
log_k -0.870 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.7E-1 0E+0 0E+0 0E+0 0E+0
Sr(OH)2(s)
Sr(OH)2 = 1.000Sr+2 - 2.000H+ + 2.000H2O
log_k 27.510
delta_h -153.670 #kJ/mol
# Enthalpy of formation: -968.89 #kJ/mol #98CHA
-analytic 5.88211E-1 0E+0 8.02673E+3 0E+0 0E+0
Sr(OH)2:8H2O(s)
Sr(OH)2:8H2O = 1.000Sr+2 - 2.000H+ + 10.000H2O
log_k 24.320 #98FEL/DIX
delta_h -57.000 #kJ/mol
# Enthalpy of formation: -3352.2 #kJ/mol #82WAG/EVA
-analytic 1.4334E+1 0E+0 2.97731E+3 0E+0 0E+0
Sr(SeO3)(cr)
Sr(SeO3) = 1.000Sr+2 + 1.000SeO3-2
log_k -6.300 #05OLI/NOL
delta_h -6.160 #kJ/mol
# Enthalpy of formation: -1051.9 #kJ/mol #05OLI/NOL
-analytic -7.37918E+0 0E+0 3.21759E+2 0E+0 0E+0
Sr(SeO4)(s)
Sr(SeO4) = 1.000Sr+2 + 1.000SeO4-2
log_k -4.350 #Original source 59SEL/ZUB recalculated in 05OLI/NOL
delta_h -21.841 #kJ/mol
# Enthalpy of formation: -1132.559 #kJ/mol
-analytic -8.17637E+0 0E+0 1.14083E+3 0E+0 0E+0
Sr(cr)
Sr = 1.000Sr+2 + 1.000H2O - 2.000H+ - 0.500O2
log_k 141.780
delta_h -830.663 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -3.7457E+0 0E+0 4.33885E+4 0E+0 0E+0
Sr2SiO4(s)
Sr2SiO4 = 2.000Sr+2 - 4.000H+ + 1.000H4(SiO4)
log_k 43.250
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 4.325E+1 0E+0 0E+0 0E+0 0E+0
Sr3(AsO4)2(s)
Sr3(AsO4)2 = 3.000Sr+2 + 2.000AsO4-3
log_k -16.080
delta_h -109.493 #kJ/mol
# Enthalpy of formation: -3319.487 #kJ/mol
-analytic -3.52623E+1 0E+0 5.71921E+3 0E+0 0E+0
Sr3(PO4)2(s)
Sr3(PO4)2 = 3.000Sr+2 - 4.000H+ + 2.000H2(PO4)-
log_k 10.530 #06BLA/IGN
delta_h -147.900 #kJ/mol
# Enthalpy of formation: -4110 #kJ/mol #97KHA/JEM
-analytic -1.53809E+1 0E+0 7.72534E+3 0E+0 0E+0
Sr5(PO4)3(OH)(s)
Sr5(PO4)3(OH) = 5.000Sr+2 - 7.000H+ + 3.000H2(PO4)- + 1.000H2O
log_k 7.170 #05KIM/PAR
delta_h -261.630 #kJ/mol
# Enthalpy of formation: -6686.5 #kJ/mol #95JEM/CHE
-analytic -3.86655E+1 0E+0 1.36659E+4 0E+0 0E+0
SrBr2(s)
SrBr2 = 1.000Sr+2 + 2.000Br-
log_k 12.500 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.25E+1 0E+0 0E+0 0E+0 0E+0
SrBr2:6H2O(s)
SrBr2:6H2O = 1.000Sr+2 + 2.000Br- + 6.000H2O
log_k 2.820 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 2.82E+0 0E+0 0E+0 0E+0 0E+0
SrBr2:H2O(s)
SrBr2:H2O = 1.000Sr+2 + 2.000Br- + 1.000H2O
log_k 8.800 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.8E+0 0E+0 0E+0 0E+0 0E+0
SrCl2(s)
SrCl2 = 1.000Sr+2 + 2.000Cl-
log_k 8.120
delta_h -56.210 #kJ/mol
# Enthalpy of formation: -828.85 #kJ/mol #98CHA
-analytic -1.72755E+0 0E+0 2.93605E+3 0E+0 0E+0
SrCl2:2H2O(s)
SrCl2:2H2O = 1.000Sr+2 + 2.000Cl- + 2.000H2O
log_k 3.470
delta_h -18.720 #kJ/mol
# Enthalpy of formation: -1438 #kJ/mol #82WAG/EVA
-analytic 1.90402E-1 0E+0 9.77812E+2 0E+0 0E+0
SrCl2:6H2O(s)
SrCl2:6H2O = 1.000Sr+2 + 2.000Cl- + 6.000H2O
log_k 1.610
delta_h 23.760 #kJ/mol
# Enthalpy of formation: -2623.8 #kJ/mol #82WAG/EVA
-analytic 5.77257E+0 0E+0 -1.24107E+3 0E+0 0E+0
SrCl2:H2O(s)
SrCl2:H2O = 1.000Sr+2 + 2.000Cl- + 1.000H2O
log_k 4.910
delta_h -34.090 #kJ/mol
# Enthalpy of formation: -1136.8 #kJ/mol #82WAG/EVA
-analytic -1.0623E+0 0E+0 1.78064E+3 0E+0 0E+0
SrCrO4(s)
SrCrO4 = 1.000Sr+2 + 1.000CrO4-2
log_k -4.650 #97MAR/SMI
delta_h -10.125 #kJ/mol #97MAR/SMI
# Enthalpy of formation: -1419.775 #kJ/mol
-analytic -6.42382E+0 0E+0 5.28865E+2 0E+0 0E+0
SrF2(cr)
SrF2 = 1.000Sr+2 + 2.000F-
log_k -8.540 #96FAL/REA
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.54E+0 0E+0 0E+0 0E+0 0E+0
SrMoO4(s)
SrMoO4 = 1.000Sr+2 + 1.000MoO4-2
log_k -6.590 #54RAO in 74OHA/KEN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -6.59E+0 0E+0 0E+0 0E+0 0E+0
SrO(cr)
SrO = 1.000Sr+2 - 2.000H+ + 1.000H2O
log_k 41.980
delta_h -244.690 #kJ/mol
# Enthalpy of formation: -592.04 #kJ/mol #98CHA
-analytic -8.87785E-1 0E+0 1.2781E+4 0E+0 0E+0
SrS(s)
SrS = 1.000Sr+2 - 1.000H+ + 1.000HS-
log_k 14.680 #
delta_h -93.570 #kJ/mol
# Enthalpy of formation: -473.63 #kJ/mol #82WAG/EVA
-analytic -1.71274E+0 0E+0 4.88749E+3 0E+0 0E+0
SrSiO3(s)
SrSiO3 = 1.000Sr+2 - 2.000H+ + 1.000H4(SiO4) - 1.000H2O
log_k 13.160
delta_h -80.278 #kJ/mol
# Enthalpy of formation: -1645.986 #kJ/mol #74NAU/RYZ
-analytic -9.04081E-1 0E+0 4.19321E+3 0E+0 0E+0
SrZrSi2O7(cr)
SrZrSi2O7 = 1.000Sr+2 - 6.000H+ + 2.000H4(SiO4) + 1.000Zr+4 - 1.000H2O
log_k 5.200
delta_h -155.158 #kJ/mol
# Enthalpy of formation: -3640.8 #kJ/mol #05BRO/CUR
-analytic -2.19825E+1 0E+0 8.10445E+3 0E+0 0E+0
Stellerite
Ca2Al4Si14O36:14H2O = 2.000Ca+2 + 4.000Al+3 - 16.000H+ + 14.000H4(SiO4) - 6.000H2O
log_k 6.990
delta_h -325.096 #kJ/mol
# Enthalpy of formation: -21656.24 #kJ/mol #01FRI/NEU
-analytic -4.99643E+1 0E+0 1.69809E+4 0E+0 0E+0
Stibnite
Sb2S3 = 3.000H+ + 3.000HS- + 2.000Sb(OH)3 - 6.000H2O
log_k -56.030
delta_h 269.695 #kJ/mol
# Enthalpy of formation: -151.4 #kJ/mol #95ROB/HEM
-analytic -8.78153E+0 0E+0 -1.40871E+4 0E+0 0E+0
Stilbite
NaCa2(Al5Si13)O36:16H2O = 2.000Ca+2 + 1.000Na+ + 5.000Al+3 - 20.000H+ + 13.000H4(SiO4)
log_k 23.050
delta_h -434.152 #kJ/mol
# Enthalpy of formation: -22579.71 #kJ/mol #01FRI/NEU
-analytic -5.30101E+1 0E+0 2.26773E+4 0E+0 0E+0
Stilleite
ZnSe = 1.000Zn+2 - 1.000H+ + 1.000HSe-
log_k -12.050
delta_h 36.910 #kJ/mol
# Enthalpy of formation: -176 #kJ/mol #05OLI/NOL
-analytic -5.58366E+0 0E+0 -1.92794E+3 0E+0 0E+0
Stratlingite
Ca2Al2SiO3(OH)8:4H2O = 2.000Ca+2 + 2.000Al+3 - 10.000H+ + 1.000H4(SiO4) + 11.000H2O
log_k 49.660 #10BLA/BOU2
delta_h -397.795 #kJ/mol
# Enthalpy of formation: -6370.329 #kJ/mol
-analytic -2.00306E+1 0E+0 2.07782E+4 0E+0 0E+0
Strontianite
Sr(CO3) = 1.000Sr+2 + 1.000CO3-2
log_k -9.270 #84BUS/PLU
delta_h -0.366 #kJ/mol
# Enthalpy of formation: -1225.764 #kJ/mol
-analytic -9.33412E+0 0E+0 1.91175E+1 0E+0 0E+0
Sudoite
Mg2Al4Si3O10(OH)8 = 2.000Mg+2 + 4.000Al+3 - 16.000H+ + 3.000H4(SiO4) + 6.000H2O
log_k 37.960
delta_h -530.892 #kJ/mol
# Enthalpy of formation: -8655.27 #kJ/mol #05VID/PAR
-analytic -5.50481E+1 0E+0 2.77304E+4 0E+0 0E+0
Sylvite
KCl = 1.000K+ + 1.000Cl-
log_k 0.870
delta_h 17.460 #kJ/mol
# Enthalpy of formation: -436.68 #kJ/mol #98CHA
-analytic 3.92886E+0 0E+0 -9.11998E+2 0E+0 0E+0
Syngenite
K2Ca(SO4)2:6H2O = 1.000Ca+2 + 2.000K+ + 2.000SO4-2 + 6.000H2O
log_k -7.450 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -7.45E+0 0E+0 0E+0 0E+0 0E+0
Tachyhydrite
Mg2CaCl6:12H2O = 1.000Ca+2 + 2.000Mg+2 + 6.000Cl- + 12.000H2O
log_k 17.380 #84HAR/MOL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.738E+1 0E+0 0E+0 0E+0 0E+0
Talc
Mg3Si4O10(OH)2 = 3.000Mg+2 - 6.000H+ + 4.000H4(SiO4) - 4.000H2O
log_k 24.940
delta_h -210.356 #kJ/mol
# Enthalpy of formation: -5892.1 #kJ/mol #01KAH/MAR
-analytic -1.19127E+1 0E+0 1.09876E+4 0E+0 0E+0
Tc(cr)
Tc = 1.000TcO(OH)2 - 1.000H2O - 1.000O2
log_k 60.900
delta_h -451.356 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #99RAR/RAN
-analytic -1.81741E+1 0E+0 2.35759E+4 0E+0 0E+0
Tc2O7(s)
Tc2O7 = 2.000H+ + 2.000TcO4- - 1.000H2O
log_k 15.310
delta_h -46.470 #kJ/mol
# Enthalpy of formation: -1126.5 #kJ/mol #99RAR/RAN
-analytic 7.16882E+0 0E+0 2.42729E+3 0E+0 0E+0
Tc2O7:H2O(s)
Tc2O7:H2O = 2.000H+ + 2.000TcO4-
log_k 14.100
delta_h -44.654 #kJ/mol
# Enthalpy of formation: -1414.146 #kJ/mol #99RAR/RAN
-analytic 6.27697E+0 0E+0 2.33244E+3 0E+0 0E+0
TcO2(cr)
TcO2 = 1.000TcO(OH)2 - 1.000H2O
log_k -9.140 #97NGU/LAN
delta_h -5.690 #kJ/mol
# Enthalpy of formation: -457.8 #kJ/mol #99RAR/RAN
-analytic -1.01368E+1 0E+0 2.97209E+2 0E+0 0E+0
TcO2:1.63H2O(s)
TcO2:1.63H2O = 1.000TcO(OH)2 + 0.630H2O
log_k -8.400 #99RAR/RAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -8.4E+0 0E+0 0E+0 0E+0 0E+0
Th(HPO4)2(s)
Th(HPO4)2 = 1.000Th+4 - 2.000H+ + 2.000H2(PO4)-
log_k -16.110 #Estimated from An(IV) correlations
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.611E+1 0E+0 0E+0 0E+0 0E+0
Th(SO4)2:9H2O(cr)
Th(SO4)2:9H2O = 1.000Th+4 + 2.000SO4-2 + 9.000H2O
log_k -11.250 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.125E+1 0E+0 0E+0 0E+0 0E+0
Th(cr)
Th = 1.000Th+4 + 2.000H2O - 4.000H+ - 1.000O2
log_k 209.450
delta_h -1328.226 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #09RAN/FUG
-analytic -2.32449E+1 0E+0 6.9378E+4 0E+0 0E+0
ThF4(cr)
ThF4 = 1.000Th+4 + 4.000F-
log_k -19.110 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.911E+1 0E+0 0E+0 0E+0 0E+0
ThO2(aged)
ThO2 = 1.000Th+4 - 4.000H+ + 2.000H2O
log_k 8.500 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 8.5E+0 0E+0 0E+0 0E+0 0E+0
ThO2(coll)
ThO2 = 1.000Th+4 - 4.000H+ + 2.000H2O
log_k 11.100 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.11E+1 0E+0 0E+0 0E+0 0E+0
ThO2(cr)
ThO2 = 1.000Th+4 - 4.000H+ + 2.000H2O
log_k 1.770
delta_h -113.960 #kJ/mol
# Enthalpy of formation: -1226.4 #kJ/mol #09RAN/FUG
-analytic -1.81949E+1 0E+0 5.95254E+3 0E+0 0E+0
ThO2(fresh)
ThO2 = 1.000Th+4 - 4.000H+ + 2.000H2O
log_k 9.300 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.3E+0 0E+0 0E+0 0E+0 0E+0
ThO2(mcr)
ThO2 = 1.000Th+4 - 4.000H+ + 2.000H2O
log_k 3.000 #09RAN/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 3E+0 0E+0 0E+0 0E+0 0E+0
Thermonatrite
Na2(CO3):H2O = 2.000Na+ + 1.000CO3-2 + 1.000H2O
log_k 0.480 #84HAR/MOL
delta_h -12.040 #kJ/mol
# Enthalpy of formation: -1429.7 #kJ/mol #82VAN
-analytic -1.62931E+0 0E+0 6.28892E+2 0E+0 0E+0
Thernardite
Na2SO4 = 2.000Na+ + 1.000SO4-2
log_k -0.360
delta_h -2.200 #kJ/mol
# Enthalpy of formation: -1387.82 #kJ/mol #98CHA
-analytic -7.45423E-1 0E+0 1.14914E+2 0E+0 0E+0
Tiemannite
HgSe = 1.000Hg+2 - 1.000H+ + 1.000HSe-
log_k -45.430
delta_h 241.521 #kJ/mol
# Enthalpy of formation: -57.011 #kJ/mol
-analytic -3.1174E+0 0E+0 -1.26155E+4 0E+0 0E+0
Tobermorite-11A
Ca5Si6O16.5(OH):5H2O = 5.000Ca+2 - 10.000H+ + 6.000H4(SiO4) - 1.500H2O
log_k 65.580 #10BLA/BOU1
delta_h -372.499 #kJ/mol
# Enthalpy of formation: -10680.92 #kJ/mol #00ZUE/FEH
-analytic 3.21072E-1 0E+0 1.94569E+4 0E+0 0E+0
Tobermorite-14A
Ca5Si6O16.5(OH):10H2O = 5.000Ca+2 - 10.000H+ + 6.000H4(SiO4) + 3.500H2O
log_k 62.940 #10BLA/BOU1
delta_h -307.419 #kJ/mol
# Enthalpy of formation: -12175.15 #kJ/mol #10BLA/BOU1
-analytic 9.08258E+0 0E+0 1.60576E+4 0E+0 0E+0
Trevorite
Fe2NiO4 = 2.000Fe+3 + 1.000Ni+2 - 8.000H+ + 4.000H2O
log_k 9.400
delta_h -214.413 #kJ/mol
# Enthalpy of formation: -1081.173 #kJ/mol
-analytic -2.81635E+1 0E+0 1.11996E+4 0E+0 0E+0
Troilite
FeS = 1.000Fe+2 - 1.000H+ + 1.000HS-
log_k -5.310 #91DAV
delta_h 2.015 #kJ/mol
# Enthalpy of formation: -108.315 #kJ/mol
-analytic -4.95699E+0 0E+0 -1.05251E+2 0E+0 0E+0
Trona
Na3H(CO3)2:2H2O = 3.000Na+ + 1.000H+ + 2.000CO3-2 + 2.000H2O
log_k -11.380 #84HAR/MOL
delta_h 38.960 #kJ/mol
# Enthalpy of formation: -2682.1 #kJ/mol #82VAN
-analytic -4.55451E+0 0E+0 -2.03502E+3 0E+0 0E+0
Truscottite
Ca7Si12O29(OH)4:H2O = 7.000Ca+2 - 14.000H+ + 12.000H4(SiO4) - 14.000H2O
log_k 77.080
delta_h -479.088 #kJ/mol
# Enthalpy of formation: -16854.62 #kJ/mol #10BLA/BOU1
-analytic -6.85249E+0 0E+0 2.50245E+4 0E+0 0E+0
U(HPO4)2:4H2O(s)
U(HPO4)2:4H2O = 1.000U+4 - 2.000H+ + 2.000H2(PO4)- + 4.000H2O
log_k -16.070 #92GRE/FUG
delta_h -4.902 #kJ/mol
# Enthalpy of formation: -4334.819 #kJ/mol
-analytic -1.69288E+1 0E+0 2.56049E+2 0E+0 0E+0
U(OH)2(SO4)(cr)
U(OH)2(SO4) = 1.000U+4 - 2.000H+ + 1.000SO4-2 + 2.000H2O
log_k -3.170 #92GRE/FUG
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -3.17E+0 0E+0 0E+0 0E+0 0E+0
U(SO4)2(cr)
U(SO4)2 = 1.000U+4 + 2.000SO4-2
log_k -11.680
delta_h -100.280 #kJ/mol
# Enthalpy of formation: -2309.6 #kJ/mol #92GRE/FUG
-analytic -2.92483E+1 0E+0 5.23798E+3 0E+0 0E+0
U(SO4)2:4H2O(cr)
U(SO4)2:4H2O = 1.000U+4 + 2.000SO4-2 + 4.000H2O
log_k -11.720
delta_h -70.000 #kJ/mol
# Enthalpy of formation: -3483.2 #kJ/mol #92GRE/FUG
-analytic -2.39835E+1 0E+0 3.65635E+3 0E+0 0E+0
U(SO4)2:8H2O(cr)
U(SO4)2:8H2O = 1.000U+4 + 2.000SO4-2 + 8.000H2O
log_k -12.770
delta_h -33.920 #kJ/mol
# Enthalpy of formation: -4662.6 #kJ/mol #92GRE/FUG
-analytic -1.87125E+1 0E+0 1.77176E+3 0E+0 0E+0
U(cr)
U = 1.000U+4 + 2.000H2O - 4.000H+ - 1.000O2
log_k 178.810
delta_h -1150.726 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #92GRE/FUG
-analytic -2.27882E+1 0E+0 6.01065E+4 0E+0 0E+0
U2O7Ba(cr)
U2O7Ba = 1.000Ba+2 + 2.000UO2+2 - 6.000H+ + 3.000H2O
log_k 21.390
delta_h -193.090 #kJ/mol
# Enthalpy of formation: -3237.2 #kJ/mol #92GRE/FUG
-analytic -1.24379E+1 0E+0 1.00858E+4 0E+0 0E+0
U2O7Ba2(cr)
U2O7Ba2 = 2.000Ba+2 + 2.000UO2+ - 6.000H+ + 3.000H2O
log_k 35.350
delta_h -237.344 #kJ/mol
# Enthalpy of formation: -3740 #kJ/mol #92GRE/FUG
-analytic -6.23082E+0 0E+0 1.23973E+4 0E+0 0E+0
U2O7Na2(s)
U2O7Na2 = 2.000Na+ + 2.000UO2+2 - 6.000H+ + 3.000H2O
log_k 22.600
delta_h -172.370 #kJ/mol
# Enthalpy of formation: -3203.8 #kJ/mol #92GRE/FUG
-analytic -7.59788E+0 0E+0 9.0035E+3 0E+0 0E+0
U3As4(s)
U3As4 = 3.000UO2+2 - 3.000H2O + 6.000H+ + 4.000AsO4-3 - 9.500O2
log_k 730.640
delta_h -4916.797 #kJ/mol
# Enthalpy of formation: -720 #kJ/mol #03GUI/FAN
-analytic -1.30745E+2 0E+0 2.56822E+5 0E+0 0E+0
UAs(s)
UAs = 1.000UO2+2 - 0.500H2O + 1.000H+ + 1.000AsO4-3 - 2.750O2
log_k 225.935
delta_h -1496.557 #kJ/mol
# Enthalpy of formation: -234.3 #kJ/mol #03GUI/FAN
-analytic -3.62501E+1 0E+0 7.81705E+4 0E+0 0E+0
UAs2(s)
UAs2 = 1.000UO2+2 - 2.000H2O + 4.000H+ + 2.000AsO4-3 - 4.000O2
log_k 278.200
delta_h -1923.084 #kJ/mol
# Enthalpy of formation: -252 #kJ/mol #03GUI/FAN
-analytic -5.87094E+1 0E+0 1.0045E+5 0E+0 0E+0
UO2(CO3)3Mg2:18H2O(s)
UO2(CO3)3Mg2:18H2O = 2.000Mg+2 + 1.000UO2+2 + 3.000CO3-2 + 18.000H2O
log_k -29.010
delta_h 40.570 #kJ/mol
# Enthalpy of formation: -9164.2 #kJ/mol #99CHE/EWI
-analytic -2.19025E+1 0E+0 -2.11912E+3 0E+0 0E+0
UO2(CO3)3Na4(cr)
UO2(CO3)3Na4 = 4.000Na+ + 1.000UO2+2 + 3.000CO3-2
log_k -27.180 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.718E+1 0E+0 0E+0 0E+0 0E+0
UO2(HPO4):4H2O(cr)
UO2(HPO4):4H2O = 1.000UO2+2 - 1.000H+ + 1.000H2(PO4)- + 4.000H2O
log_k -4.640 #92GRE/FUG
delta_h 5.048 #kJ/mol
# Enthalpy of formation: -3469.968 #kJ/mol
-analytic -3.75563E+0 0E+0 -2.63675E+2 0E+0 0E+0
UO2(OH)2(beta)
UO2(OH)2 = 1.000UO2+2 - 2.000H+ + 2.000H2O
log_k 4.930
delta_h -56.860 #kJ/mol
# Enthalpy of formation: -1533.8 #kJ/mol #92GRE/FUG
-analytic -5.03143E+0 0E+0 2.97E+3 0E+0 0E+0
UO2(Ox):3H2O(s)
UO2(Ox):3H2O = 1.000UO2+2 + 1.000Ox-2 + 3.000H2O
log_k -8.930 #05HUM/AND
delta_h -5.160 #kJ/mol #05HUM/AND
# Enthalpy of formation: -2701.99 #kJ/mol
-analytic -9.83399E+0 0E+0 2.69525E+2 0E+0 0E+0
UO2(SO3)(cr)
UO2(SO3) = 1.000UO2+2 + 1.000SO3-2
log_k -15.830
delta_h 6.450 #kJ/mol
# Enthalpy of formation: -1661 #kJ/mol #92GRE/FUG
-analytic -1.47E+1 0E+0 -3.36906E+2 0E+0 0E+0
UO2(SO4)(cr)
UO2(SO4) = 1.000UO2+2 + 1.000SO4-2
log_k 1.890 #92GRE/FUG
delta_h -83.200 #kJ/mol
# Enthalpy of formation: -1845.14 #kJ/mol #92GRE/FUG
-analytic -1.2686E+1 0E+0 4.34583E+3 0E+0 0E+0
UO2(SO4):2.5H2O(cr)
UO2(SO4):2.5H2O = 1.000UO2+2 + 1.000SO4-2 + 2.500H2O
log_k -1.590
delta_h -35.915 #kJ/mol
# Enthalpy of formation: -2607 #kJ/mol #92GRE/FUG
-analytic -7.88203E+0 0E+0 1.87597E+3 0E+0 0E+0
UO2(SO4):3.5H2O(cr)
UO2(SO4):3.5H2O = 1.000UO2+2 + 1.000SO4-2 + 3.500H2O
log_k -1.590
delta_h -27.145 #kJ/mol
# Enthalpy of formation: -2901.6 #kJ/mol #92GRE/FUG
-analytic -6.34559E+0 0E+0 1.41788E+3 0E+0 0E+0
UO2(SO4):3H2O(cr)
UO2(SO4):3H2O = 1.000UO2+2 + 1.000SO4-2 + 3.000H2O
log_k -1.500 #92GRE/FUG
delta_h -34.330 #kJ/mol
# Enthalpy of formation: -2751.5 #kJ/mol #92GRE/FUG
-analytic -7.51435E+0 0E+0 1.79318E+3 0E+0 0E+0
UO2.25(s)
UO2.25 = 1.000U+4 - 4.000H+ + 2.000H2O + 0.125O2
log_k -11.748
delta_h -36.377 #kJ/mol
# Enthalpy of formation: -1128 #kJ/mol #92GRE/FUG
-analytic -1.81205E+1 0E+0 1.90011E+3 0E+0 0E+0
UO2.34(beta)
UO2.34 = 1.000U+4 - 4.000H+ + 2.000H2O + 0.170O2
log_k -13.987
delta_h -22.008 #kJ/mol
# Enthalpy of formation: -1141 #kJ/mol #03GUI/FAN
-analytic -1.78422E+1 0E+0 1.14953E+3 0E+0 0E+0
UO2.67(s)
UO2.67 = 1.000U+4 - 4.000H+ + 2.000H2O + 0.335O2
log_k -21.953
delta_h 25.618 #kJ/mol
# Enthalpy of formation: -1191.6 #kJ/mol #92GRE/FUG
-analytic -1.74652E+1 0E+0 -1.33813E+3 0E+0 0E+0
UO2:2H2O(am)
UO2:2H2O = 1.000U+4 - 4.000H+ + 4.000H2O
log_k 1.500 #03GUI/FAN
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 1.5E+0 0E+0 0E+0 0E+0 0E+0
UO3(alfa)
UO3 = 1.000UO2+2 - 2.000H+ + 1.000H2O
log_k 9.520
delta_h -92.420 #kJ/mol
# Enthalpy of formation: -1212.41 #kJ/mol #03GUI/FAN
-analytic -6.67127E+0 0E+0 4.82743E+3 0E+0 0E+0
UO3(beta)
UO3 = 1.000UO2+2 - 2.000H+ + 1.000H2O
log_k 8.300
delta_h -84.530 #kJ/mol
# Enthalpy of formation: -1220.3 #kJ/mol #92GRE/FUG
-analytic -6.509E+0 0E+0 4.4153E+3 0E+0 0E+0
UO3Na(s)
UO3Na = 1.000Na+ + 1.000UO2+ - 2.000H+ + 1.000H2O
log_k 8.340
delta_h -56.397 #kJ/mol
# Enthalpy of formation: -1494.9 #kJ/mol #92GRE/FUG
-analytic -1.54032E+0 0E+0 2.94582E+3 0E+0 0E+0
UO4Ba(s)
UO4Ba = 1.000Ba+2 + 1.000UO2+2 - 4.000H+ + 2.000H2O
log_k 17.640
delta_h -131.660 #kJ/mol
# Enthalpy of formation: -1993.8 #kJ/mol #92GRE/FUG
-analytic -5.42581E+0 0E+0 6.87707E+3 0E+0 0E+0
UO4Ca(cr)
UO4Ca = 1.000Ca+2 + 1.000UO2+2 - 4.000H+ + 2.000H2O
log_k 15.930
delta_h -131.360 #kJ/mol
# Enthalpy of formation: -2002.3 #kJ/mol #92GRE/FUG
-analytic -7.08325E+0 0E+0 6.8614E+3 0E+0 0E+0
UO4Li2(s)
UO4Li2 = 2.000Li+ + 1.000UO2+2 - 4.000H+ + 2.000H2O
log_k 27.940
delta_h -179.400 #kJ/mol
# Enthalpy of formation: -1968.2 #kJ/mol #92GRE/FUG
-analytic -3.48948E+0 0E+0 9.3707E+3 0E+0 0E+0
UO4Mg(cr)
UO4Mg = 1.000Mg+2 + 1.000UO2+2 - 4.000H+ + 2.000H2O
log_k 23.230
delta_h -200.360 #kJ/mol
# Enthalpy of formation: -1857.3 #kJ/mol #92GRE/FUG
-analytic -1.18715E+1 0E+0 1.04655E+4 0E+0 0E+0
UO4Na2(alfa)
UO4Na2 = 2.000Na+ + 1.000UO2+2 - 4.000H+ + 2.000H2O
log_k 30.030
delta_h -173.640 #kJ/mol
# Enthalpy of formation: -1897.7 #kJ/mol #92GRE/FUG
-analytic -3.90378E-1 0E+0 9.06984E+3 0E+0 0E+0
UO4Na3(cr)
UO4Na3 = 3.000Na+ + 1.000UO2+ - 4.000H+ + 2.000H2O
log_k 56.280
delta_h -293.807 #kJ/mol
# Enthalpy of formation: -2024 #kJ/mol #92GRE/FUG
-analytic 4.8073E+0 0E+0 1.53466E+4 0E+0 0E+0
UO4Sr(alfa)
UO4Sr = 1.000Sr+2 + 1.000UO2+2 - 4.000H+ + 2.000H2O
log_k 19.160
delta_h -151.960 #kJ/mol
# Enthalpy of formation: -1989.6 #kJ/mol #92GRE/FUG
-analytic -7.46221E+0 0E+0 7.93741E+3 0E+0 0E+0
UO6Ba3(cr)
UO6Ba3 = 3.000Ba+2 + 1.000UO2+2 - 8.000H+ + 4.000H2O
log_k 92.700
delta_h -556.320 #kJ/mol
# Enthalpy of formation: -3210.4 #kJ/mol #92GRE/FUG
-analytic -4.76294E+0 0E+0 2.90586E+4 0E+0 0E+0
US2(cr)
US2 = 1.000U+4 - 2.000H+ + 2.000HS-
log_k -2.430
delta_h -103.400 #kJ/mol
# Enthalpy of formation: -520.4 #kJ/mol #92GRE/FUG
-analytic -2.05449E+1 0E+0 5.40095E+3 0E+0 0E+0
USe2(beta)
USe2 = 1.000U+4 - 2.000H+ + 2.000HSe-
log_k 2.820
delta_h -135.600 #kJ/mol
# Enthalpy of formation: -427 #kJ/mol #92GRE/FUG
-analytic -2.09361E+1 0E+0 7.08287E+3 0E+0 0E+0
Uraninite
UO2 = 1.000U+4 - 4.000H+ + 2.000H2O
log_k -4.850
delta_h -77.860 #kJ/mol
# Enthalpy of formation: -1085 #kJ/mol #92GRE/FUG
-analytic -1.84905E+1 0E+0 4.06691E+3 0E+0 0E+0
Uranophane
Ca(UO2)2(SiO3OH)2:5H2O = 1.000Ca+2 + 2.000UO2+2 - 6.000H+ + 2.000H4(SiO4) + 5.000H2O
log_k 9.420 #92NGU/SIL
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic 9.42E+0 0E+0 0E+0 0E+0 0E+0
Vaesite
NiS2 = 1.000Ni+2 + 2.000HS- - 1.000H2O + 0.500O2
log_k -60.960
delta_h 320.151 #kJ/mol
# Enthalpy of formation: -128 #kJ/mol #05GAM/BUG
-analytic -4.87203E+0 0E+0 -1.67226E+4 0E+0 0E+0
Valentinite
Sb2O3 = 2.000Sb(OH)3 - 3.000H2O
log_k -8.480 #52GAY/GAR in 76BAE/MES
delta_h 18.500 #kJ/mol
# Enthalpy of formation: -708.77 #kJ/mol #62MAH in 03ZOT/SHI
-analytic -5.23894E+0 0E+0 -9.66321E+2 0E+0 0E+0
Vaterite
CaCO3 = 1.000Ca+2 + 1.000CO3-2
log_k -7.900
delta_h -14.930 #kJ/mol
# Enthalpy of formation: -1203.3 #kJ/mol #87GAR/PAR
-analytic -1.05156E+1 0E+0 7.79847E+2 0E+0 0E+0
Vermiculite-Ca
Ca0.43Mg3Si3.14Al0.86O10(OH)2 = 0.430Ca+2 + 3.000Mg+2 + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) - 0.560H2O
log_k 39.550
delta_h -377.538 #kJ/mol
# Enthalpy of formation: -6148.06 #kJ/mol #15BLA/VIE
-analytic -2.65917E+1 0E+0 1.97202E+4 0E+0 0E+0
Vermiculite-K
K0.86Mg3.00Si3.14Al0.86O10(OH)2 = 3.000Mg+2 + 0.860K+ + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) - 0.560H2O
log_k 37.440
delta_h -335.539 #kJ/mol
# Enthalpy of formation: -6173.41 #kJ/mol #15BLA/VIE
-analytic -2.13438E+1 0E+0 1.75264E+4 0E+0 0E+0
Vermiculite-Mg
Mg0.43Mg3Si3.14Al0.86O10(OH)2 = 3.430Mg+2 + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) - 0.560H2O
log_k 38.040
delta_h -379.808 #kJ/mol
# Enthalpy of formation: -6113.11 #kJ/mol #15BLA/VIE
-analytic -2.84994E+1 0E+0 1.98387E+4 0E+0 0E+0
Vermiculite-Na
Na0.86Mg3.00Si3.14Al0.86O10(OH)2 = 3.000Mg+2 + 0.860Na+ + 0.860Al+3 - 9.440H+ + 3.140H4(SiO4) - 0.560H2O
log_k 38.390
delta_h -355.541 #kJ/mol
# Enthalpy of formation: -6143.26 #kJ/mol #15BLA/VIE
-analytic -2.3898E+1 0E+0 1.85712E+4 0E+0 0E+0
Vermiculite_SO
(Ca0.445)(Si2.778Al1.222)(Al0.216Fe0.226Fe0.028Mg2.475)O10(OH)2 = 0.445Ca+2 + 2.475Mg+2 + 0.226Fe+3 + 1.438Al+3 + 2.778H4(SiO4) + 0.028Fe+2 + 0.888H2O - 10.888H+
log_k 45.910
delta_h -463.877 #kJ/mol
# Enthalpy of formation: -6034.41 #kJ/mol #13GAI/BLA
-analytic -3.53576E+1 0E+0 2.42299E+4 0E+0 0E+0
Vivianite
Fe3(PO4)2:8H2O = 3.000Fe+2 - 4.000H+ + 2.000H2(PO4)- + 8.000H2O
log_k 3.120
delta_h -9.561 #kJ/mol
# Enthalpy of formation: -5152.279 #kJ/mol
-analytic 1.44499E+0 0E+0 4.99405E+2 0E+0 0E+0
Wairakite
CaAl2Si4O12:2H2O = 1.000Ca+2 + 2.000Al+3 - 8.000H+ + 4.000H4(SiO4) - 2.000H2O
log_k 14.440
delta_h -246.216 #kJ/mol
# Enthalpy of formation: -6646.7 #kJ/mol #96KIS/NAV
-analytic -2.86951E+1 0E+0 1.28607E+4 0E+0 0E+0
Witherite
Ba(CO3) = 1.000Ba+2 + 1.000CO3-2
log_k -8.560 #86BUS/PLU
delta_h 2.941 #kJ/mol #86BUS/PLU
# Enthalpy of formation: -1212.971 #kJ/mol
-analytic -8.04476E+0 0E+0 -1.53619E+2 0E+0 0E+0
Xonotlite
Ca6Si6O17(OH)2 = 6.000Ca+2 - 12.000H+ + 6.000H4(SiO4) - 5.000H2O
log_k 91.340 #10BLA/BOU1
delta_h -573.864 #kJ/mol
# Enthalpy of formation: -10022.15 #kJ/mol #56NEW
-analytic -9.19651E+0 0E+0 2.9975E+4 0E+0 0E+0
Zeolite_CaP
Ca2Al4Si4O16:9H2O = 2.000Ca+2 + 4.000Al+3 - 16.000H+ + 4.000H4(SiO4) + 9.000H2O
log_k 45.150 #09BLA
delta_h -527.736 #kJ/mol
# Enthalpy of formation: -11129.11 #kJ/mol #09BLA
-analytic -4.73052E+1 0E+0 2.75655E+4 0E+0 0E+0
Zn(SeO4):6H2O(s)
Zn(SeO4):6H2O = 1.000Zn+2 + 1.000SeO4-2 + 6.000H2O
log_k -1.538 #05OLI/NOL
delta_h -13.330 #kJ/mol
# Enthalpy of formation: -2458.54 #kJ/mol #05OLI/NOL
-analytic -3.87331E+0 0E+0 6.96273E+2 0E+0 0E+0
Zn3(AsO4)2(s)
Zn3(AsO4)2 = 3.000Zn+2 + 2.000AsO4-3
log_k -27.450
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -2.745E+1 0E+0 0E+0 0E+0 0E+0
ZnB2O4(s)
ZnB2O4 = 1.000Zn+2 + 2.000B(OH)4- - 4.000H2O
log_k -10.190 #91BAL/NOR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -1.019E+1 0E+0 0E+0 0E+0 0E+0
Zr(HPO4)2(alfa)
Zr(HPO4)2 = - 2.000H+ + 2.000H2(PO4)- + 1.000Zr+4
log_k -32.270
delta_h -47.500 #kJ/mol
# Enthalpy of formation: -3166.2 #kJ/mol #05BRO/CUR
-analytic -4.05916E+1 0E+0 2.48109E+3 0E+0 0E+0
Zr(HPO4)2:H2O(cr)
Zr(HPO4)2:H2O = - 2.000H+ + 2.000H2(PO4)- + 1.000Zr+4 + 1.000H2O
log_k -27.080 #05BRO/CUR
delta_h -33.430 #kJ/mol
# Enthalpy of formation: -3466.1 #kJ/mol #05BRO/CUR
-analytic -3.29367E+1 0E+0 1.74617E+3 0E+0 0E+0
Zr(OH)4(am,aged)
Zr(OH)4 = - 4.000H+ + 1.000Zr+4 + 4.000H2O
log_k -5.550 #Recalculated from 04EKB/KAL in 05BRO/CUR
# delta_h 0.000 #kJ/mol
# Enthalpy of formation: #kJ/mol
-analytic -5.55E+0 0E+0 0E+0 0E+0 0E+0
Zr(OH)4(am,fresh)
Zr(OH)4 = - 4.000H+ + 1.000Zr+4 + 4.000H2O
log_k -3.240 #05BRO/CUR
delta_h -89.620 #kJ/mol
# Enthalpy of formation: -1662.2 #kJ/mol #05BRO/CUR
-analytic -1.89407E+1 0E+0 4.68117E+3 0E+0 0E+0
Zr(SO4)2(cr)
Zr(SO4)2 = 2.000SO4-2 + 1.000Zr+4
log_k 1.240
delta_h -181.980 #kJ/mol
# Enthalpy of formation: -2245.2 #kJ/mol #05BRO/CUR
-analytic -3.06415E+1 0E+0 9.50546E+3 0E+0 0E+0
Zr(SO4)2:4H2O(s)
Zr(SO4)2:4H2O = 2.000SO4-2 + 1.000Zr+4 + 4.000H2O
log_k -7.650
delta_h -99.600 #kJ/mol
# Enthalpy of formation: -3470.9 #kJ/mol #05BRO/CUR
-analytic -2.50991E+1 0E+0 5.20246E+3 0E+0 0E+0
Zr(cr)
Zr = 1.000Zr+4 + 2.000H2O - 4.000H+ - 1.000O2
log_k 178.570
delta_h -1168.026 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #05BRO/CUR
-analytic -2.60591E+1 0E+0 6.10102E+4 0E+0 0E+0
ZrBr4(cr)
ZrBr4 = 4.000Br- + 1.000Zr+4
log_k 38.520
delta_h -334.640 #kJ/mol
# Enthalpy of formation: -759.5 #kJ/mol #05BRO/CUR
-analytic -2.01063E+1 0E+0 1.74794E+4 0E+0 0E+0
ZrCl(s)
ZrCl = 1.000Cl- + 1.000Zr+4 + 1.500H2O - 3.000H+ - 0.750O2
log_k 133.725
delta_h -904.025 #kJ/mol
# Enthalpy of formation: -291.2 #kJ/mol #05BRO/CUR
-analytic -2.46531E+1 0E+0 4.72204E+4 0E+0 0E+0
ZrCl2(s)
ZrCl2 = 2.000Cl- + 1.000Zr+4 + 1.000H2O - 2.000H+ - 0.500O2
log_k 94.640
delta_h -679.623 #kJ/mol
# Enthalpy of formation: -542.8 #kJ/mol #05BRO/CUR
-analytic -2.44247E+1 0E+0 3.54991E+4 0E+0 0E+0
ZrCl3(s)
ZrCl3 = 3.000Cl- + 1.000Zr+4 + 0.500H2O - 1.000H+ - 0.250O2
log_k 62.215
delta_h -489.522 #kJ/mol
# Enthalpy of formation: -760.1 #kJ/mol #05BRO/CUR
-analytic -2.35454E+1 0E+0 2.55695E+4 0E+0 0E+0
ZrCl4(s)
ZrCl4 = 4.000Cl- + 1.000Zr+4
log_k 28.600
delta_h -296.020 #kJ/mol
# Enthalpy of formation: -980.8 #kJ/mol #05BRO/CUR
-analytic -2.32604E+1 0E+0 1.54622E+4 0E+0 0E+0
ZrF2(s)
ZrF2 = 2.000F- + 1.000Zr+4 + 1.000H2O - 2.000H+ - 0.500O2
log_k 75.600
delta_h -602.963 #kJ/mol
# Enthalpy of formation: -956 #kJ/mol #97VIS/COR
-analytic -3.00344E+1 0E+0 3.14949E+4 0E+0 0E+0
ZrF3(s)
ZrF3 = 3.000F- + 1.000Zr+4 + 0.500H2O - 1.000H+ - 0.250O2
log_k 24.295
delta_h -321.432 #kJ/mol
# Enthalpy of formation: -1433 #kJ/mol #97VIS/COR
-analytic -3.20173E+1 0E+0 1.67895E+4 0E+0 0E+0
ZrF4(beta)
ZrF4 = 4.000F- + 1.000Zr+4
log_k -27.250
delta_h -38.600 #kJ/mol
# Enthalpy of formation: -1911.3 #kJ/mol #05BRO/CUR
-analytic -3.40124E+1 0E+0 2.01622E+3 0E+0 0E+0
ZrI4(cr)
ZrI4 = 4.000I- + 1.000Zr+4
log_k 44.590
delta_h -346.720 #kJ/mol
# Enthalpy of formation: -488.9 #kJ/mol #05BRO/CUR
-analytic -1.61526E+1 0E+0 1.81104E+4 0E+0 0E+0
ZrO2(cr)
ZrO2 = - 4.000H+ + 1.000Zr+4 + 2.000H2O
log_k -7.000
delta_h -79.560 #kJ/mol
# Enthalpy of formation: -1100.6 #kJ/mol #05BRO/CUR
-analytic -2.09383E+1 0E+0 4.1557E+3 0E+0 0E+0
ZrSiO4(s)
ZrSiO4 = - 4.000H+ + 1.000H4(SiO4) + 1.000Zr+4
log_k -14.360
delta_h -35.494 #kJ/mol
# Enthalpy of formation: -2034.2 #kJ/mol #05BRO/CUR
-analytic -2.05783E+1 0E+0 1.85398E+3 0E+0 0E+0
illite-FeIII
K0.85Fe0.25Al2.6Si3.15O10(OH)2 = 0.850K+ + 0.250Fe+3 + 2.600Al+3 - 9.400H+ + 3.150H4(SiO4) - 0.600H2O
log_k 12.370
delta_h -262.282 #kJ/mol
# Enthalpy of formation: -5795.39 #kJ/mol #15BLA/VIE
-analytic -3.35798E+1 0E+0 1.36999E+4 0E+0 0E+0
# PMATCH GASES
CH4(g)
CH4 = 2.000H+ + 1.000CO3-2 + 1.000H2O - 2.000O2
log_k 130.910
delta_h -861.919 #kJ/mol
# Enthalpy of formation: -74.873 #kJ/mol #98CHA
-analytic -2.00915E+1 0E+0 4.50211E+4 0E+0 0E+0
CO(g)
CO = 2.000H+ + 1.000CO3-2 - 1.000H2O - 0.500O2
log_k 28.350
delta_h -272.803 #kJ/mol
# Enthalpy of formation: -110.53 #kJ/mol #89COX/WAG
-analytic -1.9443E+1 0E+0 1.42495E+4 0E+0 0E+0
CO2(g)
CO2 = 2.000H+ + 1.000CO3-2 - 1.000H2O
log_k -18.150
delta_h 4.110 #kJ/mol
# Enthalpy of formation: -393.51 #kJ/mol #89COX/WAG
-analytic -1.743E+1 0E+0 -2.1468E+2 0E+0 0E+0
Cl2(g)
Cl2 = 2.000Cl- - 1.000H2O + 2.000H+ + 0.500O2
log_k 2.990
delta_h -54.397 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -6.53993E+0 0E+0 2.84135E+3 0E+0 0E+0
H2(g)
H2 = 1.000H2O - 0.500O2
log_k 42.990
delta_h -279.763 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol #89COX/WAG
-analytic -6.0223E+0 0E+0 1.4613E+4 0E+0 0E+0
H2O(g)
H2O = 1.000H2O
log_k 1.500
delta_h -44.004 #kJ/mol
# Enthalpy of formation: -241.826 #kJ/mol #89COX/WAG
-analytic -6.20916E+0 0E+0 2.29849E+3 0E+0 0E+0
H2S(g)
H2S = 1.000H+ + 1.000HS-
log_k -8.000
delta_h 4.300 #kJ/mol
# Enthalpy of formation: -20.6 #kJ/mol #89COX/WAG
-analytic -7.24667E+0 0E+0 -2.24604E+2 0E+0 0E+0
HCl(g)
HCl = 1.000H+ + 1.000Cl-
log_k 6.290
delta_h -74.770 #kJ/mol
# Enthalpy of formation: -92.31 #kJ/mol #89COX/WAG
-analytic -6.80912E+0 0E+0 3.9055E+3 0E+0 0E+0
O2(g)
O2 = 1.000O2
log_k -2.900
delta_h -12.134 #kJ/mol
# Enthalpy of formation: 0 #kJ/mol
-analytic -5.02578E+0 0E+0 6.33802E+2 0E+0 0E+0
SO2(g)
SO2 = 2.000H+ + 1.000SO3-2 - 1.000H2O
log_k -8.940
delta_h -48.420 #kJ/mol
# Enthalpy of formation: -296.81 #kJ/mol #89COX/WAG
-analytic -1.74228E+1 0E+0 2.52915E+3 0E+0 0E+0
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