Merge commit '20e6e440f056358f9887ada878a76d8e3d4ecc64'

2025-12-15 16:18:22 +01:00 · 2021-08-17 15:34:36 +00:00 · 2021-08-17 15:34:36 +00:00 · 3ea6f629ef
commit 3ea6f629ef
parent 782299dd16 20e6e440f0
10 changed files with 116329 additions and 23 deletions
--- a/database/Amm.dat
+++ b/database/Amm.dat
@ -181,7 +181,7 @@ Ntg = Ntg # N2
 	-Vm 7 # Pray et al., 1952, IEC 44. 1146
 H2Sg = H2Sg # H2S
 	-dw	 2.1e-9
-	-Vm  7.81  2.96  -0.46 # supcrt
+        -Vm  1.39  28.3  0  -7.22  -0.59 # ref. 1 + Hnedkovsky et al., 1996, JCT 28, 125
 # aqueous species
 H2O = OH- + H+
 	-analytic  293.29227  0.1360833  -10576.913  -123.73158  0  -6.996455e-5
@ -242,13 +242,20 @@ HS- + H+ = H2S
 	-delta_h -5.30	kcal
 	-analytical  -11.17  0.02386  3279.0
 	-dw	 2.1e-9
-	-Vm  7.81  2.96  -0.46 # supcrt
+        -Vm  1.39  28.3  0  -7.22  -0.59 # ref. 1 + Hnedkovsky et al., 1996, JCT 28, 125
+2H2S = (H2S)2 # activity correction for H2S solubility at high P, T
+	-analytical_expression   10.227  -0.01384  -2200
+	-Vm   36.41  -71.95  0  0  2.58
 H2Sg = HSg- + H+
 	-log_k	-6.994
 	-delta_h 5.30	kcal
-	-analytical  11.17  -0.02386  -3279.0
+	-analytical_expression  11.17  -0.02386  -3279.0
+	-gamma 3.5	0
 	-dw	 1.73e-9
 	-Vm  5.0119  4.9799  3.4765  -2.9849  1.4410 # supcrt
+2H2Sg = (H2Sg)2 # activity correction for H2S solubility at high P, T
+	-analytical_expression   10.227  -0.01384  -2200
+	-Vm   36.41  -71.95  0  0  2.58
 NO3- + 2 H+ + 2 e- = NO2- + H2O
 	-log_k	28.570
 	-delta_h -43.760 kcal
@ -1112,6 +1119,7 @@ Sylvite
 	-delta_h  8.5
 	# -analytic     3.984     0.0	 -919.55
 	Vm 37.5
+# Gases...
 CO2(g)
 	CO2 = CO2
 	-log_k	-1.468
@ -1127,8 +1135,6 @@ H2O(g)
 	-P_c  217.60
 	-Omega 0.344
 	-analytic   -16.5066 -2.0013E-3  2710.7  3.7646  0 2.24E-6
-
-# Gases from LLNL...
 O2(g)
 	O2 = O2
 	-log_k   -2.8983
@ -1147,8 +1153,9 @@ N2(g)
 	-T_c  126.2; -P_c   33.50; -Omega 0.039
 H2S(g)
 	H2S  =  H+ + HS-
-	-log_k	   -7.9759
-	-analytic -97.354 -3.1576e-2 1.8285e3 37.44 28.56
+	log_k	   -7.93
+	-delta_h   9.1
+	-analytic -45.07  -0.02418  0  17.9205 # H2S solubilities, 0 - 300°C, 1 - 987 atm, Jiang et al., 2020, CG 555, 119816
 	-T_c  373.2; -P_c  88.20; -Omega 0.1
 CH4(g)
 	CH4 = CH4
@ -1180,7 +1187,9 @@ Mtg(g)
 	-T_c  190.6 ; -P_c   45.40 ; -Omega 0.008
 H2Sg(g)
 	H2Sg  =  H+ + HSg-
-	-analytic -97.354 -3.1576e-2 1.8285e3 37.44 28.56
+	log_k	   -7.93
+	-delta_h   9.1
+	-analytic -45.07  -0.02418  0  17.9205 # H2S solubilities, 0 - 300°C, 1 - 987 atm, Jiang et al., 2020, CG 555, 119816
 	-T_c  373.2 ; -P_c  88.20 ; -Omega 0.1
 Melanterite
 	FeSO4:7H2O = 7 H2O + Fe+2 + SO4-2
--- a/database/OtherDatabases/thermochemie/ThermoChimie_PhreeqC_SIT_electron_v10a.dat
+++ b/database/OtherDatabases/thermochemie/ThermoChimie_PhreeqC_SIT_electron_v10a.dat
--- a/database/OtherDatabases/thermochemie/ThermoChimie_PhreeqC_SIT_oxygen_v10a.dat
+++ b/database/OtherDatabases/thermochemie/ThermoChimie_PhreeqC_SIT_oxygen_v10a.dat
--- a/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_Davies_electron_v10a.dat
+++ b/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_Davies_electron_v10a.dat
--- a/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_Davies_oxygen_v10a.dat
+++ b/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_Davies_oxygen_v10a.dat
--- a/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_eDH_electron_v10a.dat
+++ b/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_eDH_electron_v10a.dat
--- a/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_eDH_oxygen_v10a.dat
+++ b/database/OtherDatabases/thermochemie/Thermochimie_PhreeqC_eDH_oxygen_v10a.dat
--- a/database/OtherDatabases/thermochemie/sit.dat
+++ b/database/OtherDatabases/thermochemie/sit.dat
--- a/database/phreeqc.dat
+++ b/database/phreeqc.dat
@ -181,7 +181,7 @@ Ntg = Ntg # N2
 	-Vm 7 # Pray et al., 1952, IEC 44. 1146
 H2Sg = H2Sg # H2S
 	-dw	 2.1e-9
-	-Vm  7.81  2.96  -0.46 # supcrt
+        -Vm  1.39  28.3  0  -7.22  -0.59 # ref. 1 + Hnedkovsky et al., 1996, JCT 28, 125
 # aqueous species
 H2O = OH- + H+
 	-analytic  293.29227  0.1360833  -10576.913  -123.73158  0  -6.996455e-5
@ -242,13 +242,20 @@ HS- + H+ = H2S
 	-delta_h -5.30	kcal
 	-analytical  -11.17  0.02386  3279.0
 	-dw	 2.1e-9
-	-Vm  7.81  2.96  -0.46 # supcrt
+        -Vm  1.39  28.3  0  -7.22  -0.59 # ref. 1 + Hnedkovsky et al., 1996, JCT 28, 125
+2H2S = (H2S)2 # activity correction for H2S solubility at high P, T
+	-analytical_expression   10.227  -0.01384  -2200
+	-Vm   36.41  -71.95  0  0  2.58
 H2Sg = HSg- + H+
 	-log_k	-6.994
 	-delta_h 5.30	kcal
-	-analytical  11.17  -0.02386  -3279.0
+	-analytical_expression  11.17  -0.02386  -3279.0
+	-gamma 3.5	0
 	-dw	 1.73e-9
 	-Vm  5.0119  4.9799  3.4765  -2.9849  1.4410 # supcrt
+2H2Sg = (H2Sg)2 # activity correction for H2S solubility at high P, T
+	-analytical_expression   10.227  -0.01384  -2200
+	-Vm   36.41  -71.95  0  0  2.58
 NO3- + 2 H+ + 2 e- = NO2- + H2O
 	-log_k	28.570
 	-delta_h -43.760 kcal
@ -1120,6 +1127,7 @@ Sylvite
 	-delta_h  8.5
 	# -analytic     3.984     0.0	 -919.55
 	Vm 37.5
+# Gases...
 CO2(g)
 	CO2 = CO2
 	-log_k	-1.468
@ -1135,8 +1143,6 @@ H2O(g)
 	-P_c  217.60
 	-Omega 0.344
 	-analytic   -16.5066 -2.0013E-3  2710.7  3.7646  0 2.24E-6
-
-# Gases from LLNL...
 O2(g)
 	O2 = O2
 	-log_k   -2.8983
@ -1155,8 +1161,9 @@ N2(g)
 	-T_c  126.2; -P_c   33.50; -Omega 0.039
 H2S(g)
 	H2S  =  H+ + HS-
-	-log_k	   -7.9759
-	-analytic -97.354 -3.1576e-2 1.8285e3 37.44 28.56
+	log_k	   -7.93
+	-delta_h   9.1
+	-analytic -45.07  -0.02418  0  17.9205 # H2S solubilities, 0 - 300°C, 1 - 987 atm, Jiang et al., 2020, CG 555, 119816
 	-T_c  373.2; -P_c  88.20; -Omega 0.1
 CH4(g)
 	CH4 = CH4
@ -1190,7 +1197,9 @@ Mtg(g)
 	-T_c  190.6 ; -P_c   45.40 ; -Omega 0.008
 H2Sg(g)
 	H2Sg  =  H+ + HSg-
-	-analytic -97.354 -3.1576e-2 1.8285e3 37.44 28.56
+	log_k	   -7.93
+	-delta_h   9.1
+	-analytic -45.07  -0.02418  0  17.9205 # H2S solubilities, 0 - 300°C, 1 - 987 atm, Jiang et al., 2020, CG 555, 119816
 	-T_c  373.2 ; -P_c  88.20 ; -Omega 0.1
 Melanterite
 	FeSO4:7H2O = 7 H2O + Fe+2 + SO4-2
@ -1484,7 +1493,7 @@ SURFACE_SPECIES
 	Hfo_wOH + CO3-2 + 2H+= Hfo_wHCO3 + H2O
 	-log_k	20.62
 #
-# Silicate: Swedlund, P.J. and Webster, J.G., 1999. Water Research, 33, 3413-3422.
+# Silicate: Swedlund, P.J. and Webster, J.G., 1999. Water Research 33, 3413-3422.
 #
 	Hfo_wOH + H4SiO4 = Hfo_wH3SiO4 + H2O        ; log_K   4.28 
 	Hfo_wOH + H4SiO4 = Hfo_wH2SiO4- + H+ + H2O  ; log_K  -3.22 
@ -1835,7 +1844,7 @@ END
 #     a0 = -gamma x for cations, = 0 for anions.
 # For details, consult ref. 1.
 #
-# ref. 1: Appelo, Parkhurst and Post, 2014. Geochim. Cosmochim. Acta 125, 49-67.
+# ref. 1: Appelo, Parkhurst and Post, 2014. Geochim. Cosmochim. Acta 125, 49–67. 
 # ref. 2: Procedures from ref. 1 using data compiled by Laliberté, 2009, J. Chem. Eng. Data 54, 1725.
 # ref. 3: Appelo, 2017, Cem. Concr. Res. 101, 102-113.
 #
--- a/database/pitzer.dat
+++ b/database/pitzer.dat
@ -31,7 +31,7 @@ Sr		Sr+2	 0	Sr		87.62
 Hdg		Hdg	 0	Hdg		2.016 # H2 gas
 Oxg		Oxg	 0	Oxg		32 # Oxygen gas
 Mtg		Mtg	 0.0	Mtg		16.032 # CH4 gas
-Sg		H2Sg	 1.0	H2Sg		34.08
+Sg		H2Sg	 1.0	H2Sg		34.08 # H2S gas
 Ntg		Ntg	 0	Ntg		28.0134 # N2 gas

 SOLUTION_SPECIES
@ -103,7 +103,7 @@ Ntg = Ntg # N2
 	-Vm 7 # Pray et al., 1952, IEC 44. 1146
 H2Sg = H2Sg # H2S
 	-dw	 2.1e-9
-	-Vm  7.81  2.96  -0.46 # supcrt
+        -Vm  1.39  28.3  0  -7.22  -0.59 # ref. 1 + Hnedkovsky et al., 1996, JCT 28, 125
 # aqueous species
 H2O = OH- + H+
 	-analytic  293.29227  0.1360833  -10576.913  -123.73158  0  -6.996455e-5
@ -133,6 +133,9 @@ H2Sg = HSg- + H+
 	-analytical  11.17   -0.02386  -3279.0
 	-dw	 1.73e-9
 	-Vm 5.0119   4.9799   3.4765   -2.9849 1.4410 # supcrt
+2H2Sg = (H2Sg)2 # activity correction for H2S solubility at high P, T
+        -analytical   10.227  -0.01384  -2200
+	-Vm   36.41  -71.95  0  0  2.58
 B(OH)3 + H2O = B(OH)4- + H+
 	log_k	   -9.239
 	delta_h 0   kcal
@ -268,7 +271,7 @@ Dolomite
 	CaMg(CO3)2 = Ca+2 + Mg+2 + 2 CO3-2
 	log_k	   -17.09
 	delta_h -9.436 kcal
-	-analytic  -120.63  -0.1051  0  54.509 # 50–175°C: Bénézeth et al., 2018, GCA 224, 262-275.
+	-analytic  -120.63  -0.1051  0  54.509 # 50–175°C, Bénézeth et al., 2018, GCA 224, 262-275.
 	-Vm 64.5
 Enstatite
 	MgSiO3 + 2 H+  = - H2O + Mg+2 + H4SiO4 # llnl.dat
@ -482,7 +485,7 @@ Mtg(g)
 	T_c  190.6 ; -P_c   45.40 ; -Omega 0.008
 H2Sg(g)
 	H2Sg  =  H+ + HSg-
-	-analytic -9.7354e+001 -3.1576e-002 1.8285e+003 3.7440e+001 2.8560e+001
+	-analytic -45.07  -0.02418  0  17.9205 # H2S solubilities, 0 - 300°C, 1 - 987 atm, Jiang et al., 2020, CG 555, 119816
 	T_c  373.2 ; -P_c  88.20 ; -Omega 0.1
 PITZER
 -B0
@ -671,12 +674,17 @@ PITZER
  Ca+2      CO2       0.183
  Ca+2      H4SiO4    0.238    # ref. 3
  Cl-       CO2      -0.005
+  Cl-       H2Sg     -0.005
+  Cl-       (H2Sg)2  -0.005
  CO2       CO2      -1.34e-2   348   0.803 # new VM("CO2"), CO2 solubilities at high P, 0 - 150°C
  CO2       HSO4-    -0.003
  CO2       K+        0.051
  CO2       Mg+2      0.183
  CO2       Na+       0.085
-  CO2       SO4-2     0.075    # Rumpf and Maurer, 1993.
+  CO2       SO4-2     0.075              # Rumpf and Maurer, 1993.
+  H2Sg      Na+       0.1047  0  -0.0413 # Xia et al., 2000, Ind. Eng. Chem. Res. 39, 1064
+  H2Sg      SO4-2     0  0  0.679
+  (H2Sg)2   Na+       0.0123  0  0.256
  H4SiO4    K+        0.0298   # ref. 3
  H4SiO4    Li+       0.143    # ref. 3
  H4SiO4    Mg+2      0.238  -1788   -9.023  0.0103    # ref. 3
@ -688,6 +696,10 @@ PITZER
  Cl-       H4SiO4    K+        -0.0153  # ref. 3
  Cl-       H4SiO4    Li+       -0.0196  # ref. 3
  CO2       Na+       SO4-2     -0.015
+  H2Sg      Cl-       Na+       -0.0123  # Xia et al., 2000, Ind. Eng. Chem. Res. 39, 1064
+  H2Sg      Na+       SO4-2      0.157
+  (H2Sg)2   Cl-       Na+        0.0119
+  (H2Sg)2   Na+       SO4-2     -0.167
 -PSI
  B(OH)4-     Cl-     Na+       -0.0073
  B3O3(OH)4-  Cl-     Na+       -0.024