mirror of
https://git.gfz-potsdam.de/naaice/iphreeqc.git
synced 2025-12-16 16:44:49 +01:00
9f3afe9851
however, mytest mu, sys_gas, and DanPhuong need to be fixed. DanPhuong runs on Windows? sys_gas is problem with ah2o=0/1. not sure about mu. git-svn-id: svn://136.177.114.72/svn_GW/phreeqc3/trunk@7074 1feff8c3-07ed-0310-ac33-dd36852eb9cd
559 lines
26 KiB
Plaintext
559 lines
26 KiB
Plaintext
Input file: ../examples/ex18
|
|
Output file: ex18.out
|
|
Database file: ../database/phreeqc.dat
|
|
|
|
------------------
|
|
Reading data base.
|
|
------------------
|
|
|
|
SOLUTION_MASTER_SPECIES
|
|
SOLUTION_SPECIES
|
|
PHASES
|
|
EXCHANGE_MASTER_SPECIES
|
|
EXCHANGE_SPECIES
|
|
SURFACE_MASTER_SPECIES
|
|
SURFACE_SPECIES
|
|
RATES
|
|
END
|
|
------------------------------------
|
|
Reading input data for simulation 1.
|
|
------------------------------------
|
|
|
|
TITLE Example 18.--Inverse modeling of Madison aquifer
|
|
SOLUTION 1 Recharge number 3
|
|
units mmol/kgw
|
|
temp 9.9
|
|
pe 0.
|
|
pH 7.55
|
|
Ca 1.2
|
|
Mg 1.01
|
|
Na 0.02
|
|
K 0.02
|
|
Fe(2) 0.001
|
|
Cl 0.02
|
|
S(6) 0.16
|
|
S(-2) 0
|
|
C(4) 4.30
|
|
isotope 13C -7.0 1.4
|
|
isotope 34S 9.7 0.9
|
|
SOLUTION 2 Mysse
|
|
units mmol/kgw
|
|
temp 63.
|
|
pH 6.61
|
|
pe 0.
|
|
redox S(6)/S(-2)
|
|
Ca 11.28
|
|
Mg 4.54
|
|
Na 31.89
|
|
K 2.54
|
|
Fe(2) 0.0004
|
|
Cl 17.85
|
|
S(6) 19.86
|
|
S(-2) 0.26
|
|
C(4) 6.87
|
|
isotope 13C -2.3 0.2
|
|
isotope 34S(6) 16.3 1.5
|
|
isotope 34S(-2) -22.1 7
|
|
INVERSE_MODELING 1
|
|
solutions 1 2
|
|
uncertainty 0.05
|
|
range
|
|
isotopes
|
|
13C
|
|
34S
|
|
balances
|
|
Fe(2) 1.0
|
|
ph 0.1
|
|
phases
|
|
Dolomite dis 13C 3.0 2
|
|
Calcite pre 13C -1.5 1
|
|
Anhydrite dis 34S 13.5 2
|
|
CH2O dis 13C -25.0 5
|
|
Goethite
|
|
Pyrite pre 34S -22. 2
|
|
CaX2 pre
|
|
Ca.75Mg.25X2 pre
|
|
MgX2 pre
|
|
NaX
|
|
Halite
|
|
Sylvite
|
|
PHASES
|
|
Sylvite
|
|
KCl = K+ + Cl-
|
|
log_k 0.0
|
|
CH2O
|
|
CH2O + H2O = CO2 + 4H+ + 4e-
|
|
log_k 0.0
|
|
EXCHANGE_SPECIES
|
|
0.75Ca+2 + 0.25Mg+2 + 2X- = Ca.75Mg.25X2
|
|
log_k 0.0
|
|
END
|
|
-----
|
|
TITLE
|
|
-----
|
|
|
|
Example 18.--Inverse modeling of Madison aquifer
|
|
|
|
-------------------------------------------
|
|
Beginning of initial solution calculations.
|
|
-------------------------------------------
|
|
|
|
Initial solution 1. Recharge number 3
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
C(4) 4.300e-03 4.300e-03
|
|
Ca 1.200e-03 1.200e-03
|
|
Cl 2.000e-05 2.000e-05
|
|
Fe(2) 1.000e-06 1.000e-06
|
|
K 2.000e-05 2.000e-05
|
|
Mg 1.010e-03 1.010e-03
|
|
Na 2.000e-05 2.000e-05
|
|
S(6) 1.600e-04 1.600e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.550
|
|
pe = 0.000
|
|
Specific Conductance (uS/cm, 9 oC) = 272
|
|
Density (g/cm3) = 0.99999
|
|
Volume (L) = 1.00058
|
|
Activity of water = 1.000
|
|
Ionic strength = 6.547e-03
|
|
Mass of water (kg) = 1.000e+00
|
|
Total alkalinity (eq/kg) = 4.016e-03
|
|
Total CO2 (mol/kg) = 4.300e-03
|
|
Temperature (deg C) = 9.90
|
|
Electrical balance (eq) = 1.061e-04
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 1.24
|
|
Iterations = 8
|
|
Total H = 1.110164e+02
|
|
Total O = 5.551946e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log mole V
|
|
Species Molality Activity Molality Activity Gamma cm3/mol
|
|
|
|
OH- 1.094e-07 1.005e-07 -6.961 -6.998 -0.037 -5.15
|
|
H+ 3.038e-08 2.818e-08 -7.517 -7.550 -0.033 0.00
|
|
H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.02
|
|
C(4) 4.300e-03
|
|
HCO3- 3.929e-03 3.622e-03 -2.406 -2.441 -0.035 23.26
|
|
CO2 2.970e-04 2.974e-04 -3.527 -3.527 0.001 35.36
|
|
MgHCO3+ 3.098e-05 2.848e-05 -4.509 -4.545 -0.036 4.94
|
|
CaHCO3+ 3.026e-05 2.793e-05 -4.519 -4.554 -0.035 8.97
|
|
CO3-2 5.766e-06 4.167e-06 -5.239 -5.380 -0.141 -6.15
|
|
CaCO3 4.729e-06 4.736e-06 -5.325 -5.325 0.001 -14.66
|
|
MgCO3 2.207e-06 2.210e-06 -5.656 -5.656 0.001 -17.07
|
|
FeHCO3+ 2.086e-07 1.919e-07 -6.681 -6.717 -0.036 (0)
|
|
NaHCO3 1.610e-07 1.612e-07 -6.793 -6.793 0.001 26.11
|
|
FeCO3 5.287e-08 5.295e-08 -7.277 -7.276 0.001 (0)
|
|
NaCO3- 6.888e-10 6.351e-10 -9.162 -9.197 -0.035 -3.74
|
|
Ca 1.200e-03
|
|
Ca+2 1.152e-03 8.322e-04 -2.939 -3.080 -0.141 -18.05
|
|
CaHCO3+ 3.026e-05 2.793e-05 -4.519 -4.554 -0.035 8.97
|
|
CaSO4 1.288e-05 1.290e-05 -4.890 -4.889 0.001 6.78
|
|
CaCO3 4.729e-06 4.736e-06 -5.325 -5.325 0.001 -14.66
|
|
CaOH+ 5.308e-09 4.900e-09 -8.275 -8.310 -0.035 (0)
|
|
CaHSO4+ 2.152e-12 1.980e-12 -11.667 -11.703 -0.036 (0)
|
|
Cl 2.000e-05
|
|
Cl- 2.000e-05 1.838e-05 -4.699 -4.736 -0.037 17.39
|
|
FeCl+ 1.461e-11 1.344e-11 -10.835 -10.872 -0.036 (0)
|
|
Fe(2) 1.000e-06
|
|
Fe+2 7.296e-07 5.297e-07 -6.137 -6.276 -0.139 -21.63
|
|
FeHCO3+ 2.086e-07 1.919e-07 -6.681 -6.717 -0.036 (0)
|
|
FeCO3 5.287e-08 5.295e-08 -7.277 -7.276 0.001 (0)
|
|
FeSO4 6.907e-09 6.917e-09 -8.161 -8.160 0.001 (0)
|
|
FeOH+ 1.965e-09 1.811e-09 -8.707 -8.742 -0.036 (0)
|
|
FeCl+ 1.461e-11 1.344e-11 -10.835 -10.872 -0.036 (0)
|
|
Fe(OH)2 1.369e-13 1.371e-13 -12.864 -12.863 0.001 (0)
|
|
FeHSO4+ 1.370e-15 1.260e-15 -14.863 -14.900 -0.036 (0)
|
|
Fe(OH)3- 1.677e-16 1.545e-16 -15.775 -15.811 -0.036 (0)
|
|
H(0) 1.316e-18
|
|
H2 6.579e-19 6.588e-19 -18.182 -18.181 0.001 28.63
|
|
K 2.000e-05
|
|
K+ 1.999e-05 1.837e-05 -4.699 -4.736 -0.037 8.22
|
|
KSO4- 1.042e-08 9.604e-09 -7.982 -8.018 -0.035 (0)
|
|
Mg 1.010e-03
|
|
Mg+2 9.661e-04 7.009e-04 -3.015 -3.154 -0.139 -20.96
|
|
MgHCO3+ 3.098e-05 2.848e-05 -4.509 -4.545 -0.036 4.94
|
|
MgSO4 1.070e-05 1.071e-05 -4.971 -4.970 0.001 5.11
|
|
MgCO3 2.207e-06 2.210e-06 -5.656 -5.656 0.001 -17.07
|
|
MgOH+ 2.324e-08 2.147e-08 -7.634 -7.668 -0.034 (0)
|
|
Na 2.000e-05
|
|
Na+ 1.983e-05 1.825e-05 -4.703 -4.739 -0.036 -2.09
|
|
NaHCO3 1.610e-07 1.612e-07 -6.793 -6.793 0.001 26.11
|
|
NaSO4- 8.811e-09 8.124e-09 -8.055 -8.090 -0.035 27.88
|
|
NaCO3- 6.888e-10 6.351e-10 -9.162 -9.197 -0.035 -3.74
|
|
O(0) 0.000e+00
|
|
O2 0.000e+00 0.000e+00 -61.151 -61.151 0.001 28.94
|
|
S(6) 1.600e-04
|
|
SO4-2 1.364e-04 9.822e-05 -3.865 -4.008 -0.143 10.72
|
|
CaSO4 1.288e-05 1.290e-05 -4.890 -4.889 0.001 6.78
|
|
MgSO4 1.070e-05 1.071e-05 -4.971 -4.970 0.001 5.11
|
|
KSO4- 1.042e-08 9.604e-09 -7.982 -8.018 -0.035 (0)
|
|
NaSO4- 8.811e-09 8.124e-09 -8.055 -8.090 -0.035 27.88
|
|
FeSO4 6.907e-09 6.917e-09 -8.161 -8.160 0.001 (0)
|
|
HSO4- 2.149e-10 1.978e-10 -9.668 -9.704 -0.036 33.81
|
|
CaHSO4+ 2.152e-12 1.980e-12 -11.667 -11.703 -0.036 (0)
|
|
FeHSO4+ 1.370e-15 1.260e-15 -14.863 -14.900 -0.036 (0)
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log K(283 K, 1 atm)
|
|
|
|
Anhydrite -3.01 -7.09 -4.08 CaSO4
|
|
Aragonite -0.20 -8.46 -8.25 CaCO3
|
|
Calcite -0.05 -8.46 -8.41 CaCO3
|
|
CH2O -33.73 -33.73 0.00 CH2O
|
|
CO2(g) -2.26 -3.53 -1.27 CO2
|
|
Dolomite -0.27 -16.99 -16.72 CaMg(CO3)2
|
|
Gypsum -2.50 -7.09 -4.59 CaSO4:2H2O
|
|
H2(g) -15.13 -18.18 -3.05 H2
|
|
H2O(g) -1.91 -0.00 1.91 H2O
|
|
Halite -11.02 -9.47 1.55 NaCl
|
|
Melanterite -7.87 -10.28 -2.41 FeSO4:7H2O
|
|
O2(g) -58.39 -61.15 -2.76 O2
|
|
Siderite -0.86 -11.66 -10.79 FeCO3
|
|
Sylvite -9.47 -9.47 0.00 KCl
|
|
|
|
|
|
Initial solution 2. Mysse
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
C(4) 6.870e-03 6.870e-03
|
|
Ca 1.128e-02 1.128e-02
|
|
Cl 1.785e-02 1.785e-02
|
|
Fe(2) 4.000e-07 4.000e-07
|
|
K 2.540e-03 2.540e-03
|
|
Mg 4.540e-03 4.540e-03
|
|
Na 3.189e-02 3.189e-02
|
|
S(-2) 2.600e-04 2.600e-04
|
|
S(6) 1.986e-02 1.986e-02
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 6.610
|
|
pe = 0.000
|
|
Specific Conductance (uS/cm, 63 oC) = 10099
|
|
Density (g/cm3) = 0.98527
|
|
Volume (L) = 1.02100
|
|
Activity of water = 0.999
|
|
Ionic strength = 7.406e-02
|
|
Mass of water (kg) = 1.000e+00
|
|
Total alkalinity (eq/kg) = 5.255e-03
|
|
Total CO2 (mol/kg) = 6.870e-03
|
|
Temperature (deg C) = 63.00
|
|
Electrical balance (eq) = 3.246e-03
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 3.16
|
|
Iterations = 8
|
|
Total H = 1.110179e+02
|
|
Total O = 5.560448e+01
|
|
|
|
---------------------------------Redox couples---------------------------------
|
|
|
|
Redox couple pe Eh (volts)
|
|
|
|
S(-2)/S(6) -3.6474 -0.2433
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log mole V
|
|
Species Molality Activity Molality Activity Gamma cm3/mol
|
|
|
|
OH- 5.983e-07 4.608e-07 -6.223 -6.336 -0.113 -3.51
|
|
H+ 2.966e-07 2.455e-07 -6.528 -6.610 -0.082 0.00
|
|
H2O 5.551e+01 9.985e-01 1.744 -0.001 0.000 18.35
|
|
C(4) 6.870e-03
|
|
HCO3- 4.733e-03 3.758e-03 -2.325 -2.425 -0.100 25.47
|
|
CO2 1.789e-03 1.820e-03 -2.747 -2.740 0.007 23.72
|
|
CaHCO3+ 2.449e-04 1.960e-04 -3.611 -3.708 -0.097 10.78
|
|
MgHCO3+ 6.579e-05 5.112e-05 -4.182 -4.291 -0.110 6.21
|
|
CaCO3 1.638e-05 1.666e-05 -4.786 -4.778 0.007 -14.51
|
|
NaHCO3 1.360e-05 1.383e-05 -4.867 -4.859 0.007 33.01
|
|
NaCO3- 3.484e-06 2.766e-06 -5.458 -5.558 -0.100 -0.91
|
|
CO3-2 2.806e-06 1.115e-06 -5.552 -5.953 -0.401 -2.22
|
|
MgCO3 1.624e-06 1.652e-06 -5.789 -5.782 0.007 -17.09
|
|
FeHCO3+ 1.180e-08 9.261e-09 -7.928 -8.033 -0.105 (0)
|
|
FeCO3 6.481e-10 6.593e-10 -9.188 -9.181 0.007 (0)
|
|
Ca 1.128e-02
|
|
Ca+2 7.602e-03 3.036e-03 -2.119 -2.518 -0.399 -16.59
|
|
CaSO4 3.417e-03 3.476e-03 -2.466 -2.459 0.007 8.42
|
|
CaHCO3+ 2.449e-04 1.960e-04 -3.611 -3.708 -0.097 10.78
|
|
CaCO3 1.638e-05 1.666e-05 -4.786 -4.778 0.007 -14.51
|
|
CaHSO4+ 1.417e-08 1.112e-08 -7.849 -7.954 -0.105 (0)
|
|
CaOH+ 2.560e-09 2.049e-09 -8.592 -8.688 -0.097 (0)
|
|
Cl 1.785e-02
|
|
Cl- 1.785e-02 1.378e-02 -1.748 -1.861 -0.112 18.29
|
|
FeCl+ 5.977e-10 4.690e-10 -9.224 -9.329 -0.105 (0)
|
|
Fe(2) 4.000e-07
|
|
Fe(HS)2 2.820e-07 2.868e-07 -6.550 -6.542 0.007 (0)
|
|
Fe+2 6.004e-08 2.465e-08 -7.222 -7.608 -0.387 -22.14
|
|
FeSO4 3.990e-08 4.059e-08 -7.399 -7.392 0.007 (0)
|
|
FeHCO3+ 1.180e-08 9.261e-09 -7.928 -8.033 -0.105 (0)
|
|
Fe(HS)3- 4.548e-09 3.569e-09 -8.342 -8.447 -0.105 (0)
|
|
FeCO3 6.481e-10 6.593e-10 -9.188 -9.181 0.007 (0)
|
|
FeCl+ 5.977e-10 4.690e-10 -9.224 -9.329 -0.105 (0)
|
|
FeOH+ 4.984e-10 3.934e-10 -9.302 -9.405 -0.103 (0)
|
|
Fe(OH)2 2.512e-13 2.555e-13 -12.600 -12.593 0.007 (0)
|
|
FeHSO4+ 1.150e-13 9.026e-14 -12.939 -13.045 -0.105 (0)
|
|
Fe(OH)3- 6.811e-17 5.376e-17 -16.167 -16.270 -0.103 (0)
|
|
H(0) 1.182e-09
|
|
H2 5.912e-10 6.013e-10 -9.228 -9.221 0.007 28.58
|
|
K 2.540e-03
|
|
K+ 2.393e-03 1.848e-03 -2.621 -2.733 -0.112 9.94
|
|
KSO4- 1.472e-04 1.169e-04 -3.832 -3.932 -0.100 (0)
|
|
Mg 4.540e-03
|
|
MgSO4 2.378e-03 2.419e-03 -2.624 -2.616 0.007 6.77
|
|
Mg+2 2.095e-03 8.660e-04 -2.679 -3.062 -0.384 -22.15
|
|
MgHCO3+ 6.579e-05 5.112e-05 -4.182 -4.291 -0.110 6.21
|
|
MgCO3 1.624e-06 1.652e-06 -5.789 -5.782 0.007 -17.09
|
|
MgOH+ 3.331e-07 2.683e-07 -6.477 -6.571 -0.094 (0)
|
|
Na 3.189e-02
|
|
Na+ 3.092e-02 2.434e-02 -1.510 -1.614 -0.104 0.18
|
|
NaSO4- 9.512e-04 7.552e-04 -3.022 -3.122 -0.100 25.83
|
|
NaHCO3 1.360e-05 1.383e-05 -4.867 -4.859 0.007 33.01
|
|
NaCO3- 3.484e-06 2.766e-06 -5.458 -5.558 -0.100 -0.91
|
|
O(0) 0.000e+00
|
|
O2 0.000e+00 0.000e+00 -63.070 -63.062 0.007 32.51
|
|
S(-2) 2.600e-04
|
|
HS- 1.483e-04 1.143e-04 -3.829 -3.942 -0.113 21.39
|
|
H2S 1.111e-04 1.130e-04 -3.954 -3.947 0.007 37.26
|
|
Fe(HS)2 2.820e-07 2.868e-07 -6.550 -6.542 0.007 (0)
|
|
Fe(HS)3- 4.548e-09 3.569e-09 -8.342 -8.447 -0.105 (0)
|
|
S-2 1.457e-09 5.656e-10 -8.837 -9.247 -0.411 (0)
|
|
S(6) 1.986e-02
|
|
SO4-2 1.297e-02 5.000e-03 -1.887 -2.301 -0.414 15.14
|
|
CaSO4 3.417e-03 3.476e-03 -2.466 -2.459 0.007 8.42
|
|
MgSO4 2.378e-03 2.419e-03 -2.624 -2.616 0.007 6.77
|
|
NaSO4- 9.512e-04 7.552e-04 -3.022 -3.122 -0.100 25.83
|
|
KSO4- 1.472e-04 1.169e-04 -3.832 -3.932 -0.100 (0)
|
|
HSO4- 3.888e-07 3.046e-07 -6.410 -6.516 -0.106 36.61
|
|
FeSO4 3.990e-08 4.059e-08 -7.399 -7.392 0.007 (0)
|
|
CaHSO4+ 1.417e-08 1.112e-08 -7.849 -7.954 -0.105 (0)
|
|
FeHSO4+ 1.150e-13 9.026e-14 -12.939 -13.045 -0.105 (0)
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log K(336 K, 1 atm)
|
|
|
|
Anhydrite -0.09 -4.82 -4.73 CaSO4
|
|
Aragonite 0.20 -8.47 -8.67 CaCO3
|
|
Calcite 0.32 -8.47 -8.79 CaCO3
|
|
CH2O -14.59 -14.59 0.00 CH2O
|
|
CO2(g) -0.95 -2.74 -1.79 CO2
|
|
Dolomite 0.39 -17.49 -17.87 CaMg(CO3)2
|
|
FeS(ppt) -1.03 -4.94 -3.92 FeS
|
|
Gypsum -0.15 -4.82 -4.67 CaSO4:2H2O
|
|
H2(g) -6.08 -9.22 -3.14 H2
|
|
H2O(g) -0.65 -0.00 0.65 H2O
|
|
H2S(g) -2.62 -10.55 -7.94 H2S
|
|
Halite -5.13 -3.47 1.66 NaCl
|
|
Mackinawite -0.29 -4.94 -4.65 FeS
|
|
Melanterite -8.06 -9.91 -1.85 FeSO4:7H2O
|
|
O2(g) -59.99 -63.06 -3.07 O2
|
|
Pyrite 7.98 -9.57 -17.54 FeS2
|
|
Siderite -2.47 -13.56 -11.10 FeCO3
|
|
Sulfur -2.12 1.98 4.09 S
|
|
Sylvite -4.59 -4.59 0.00 KCl
|
|
|
|
|
|
---------------------------------------------
|
|
Beginning of inverse modeling 1 calculations.
|
|
---------------------------------------------
|
|
|
|
Using Cl1 standard precision optimization routine.
|
|
|
|
Solution 1: Recharge number 3
|
|
|
|
Input Delta Input+Delta
|
|
pH 7.550e+00 + 0.000e+00 = 7.550e+00
|
|
Alkalinity 4.016e-03 + 0.000e+00 = 4.016e-03
|
|
C(-4) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
C(4) 4.300e-03 + 0.000e+00 = 4.300e-03
|
|
Ca 1.200e-03 + -5.305e-05 = 1.147e-03
|
|
Cl 2.000e-05 + 0.000e+00 = 2.000e-05
|
|
Fe(2) 1.000e-06 + 0.000e+00 = 1.000e-06
|
|
Fe(3) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
H(0) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
K 2.000e-05 + 0.000e+00 = 2.000e-05
|
|
Mg 1.010e-03 + 0.000e+00 = 1.010e-03
|
|
Na 2.000e-05 + 0.000e+00 = 2.000e-05
|
|
O(0) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
S(-2) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
S(6) 1.600e-04 + 0.000e+00 = 1.600e-04
|
|
X 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
13C(-4) -7 + 0 = -7
|
|
13C(4) -7 + 0 = -7
|
|
34S(-2) 9.7 + 0 = 9.7
|
|
34S(6) 9.7 + 0 = 9.7
|
|
|
|
Solution 2: Mysse
|
|
|
|
Input Delta Input+Delta
|
|
pH 6.610e+00 + 0.000e+00 = 6.610e+00
|
|
Alkalinity 5.255e-03 + 0.000e+00 = 5.255e-03
|
|
C(-4) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
C(4) 6.870e-03 + 0.000e+00 = 6.870e-03
|
|
Ca 1.128e-02 + 0.000e+00 = 1.128e-02
|
|
Cl 1.785e-02 + 0.000e+00 = 1.785e-02
|
|
Fe(2) 4.000e-07 + 0.000e+00 = 4.000e-07
|
|
Fe(3) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
H(0) 1.182e-09 + 0.000e+00 = 1.182e-09
|
|
K 2.540e-03 + 0.000e+00 = 2.540e-03
|
|
Mg 4.540e-03 + 0.000e+00 = 4.540e-03
|
|
Na 3.189e-02 + -1.260e-03 = 3.063e-02
|
|
O(0) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
S(-2) 2.600e-04 + 0.000e+00 = 2.600e-04
|
|
S(6) 1.986e-02 + 9.930e-04 = 2.085e-02
|
|
X 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
13C(-4) -2.3 + 0 = -2.3
|
|
13C(4) -2.3 + 0 = -2.3
|
|
34S(-2) -22.1 + 0 = -22.1
|
|
34S(6) 16.3 + 0 = 16.3
|
|
|
|
Isotopic composition of phases:
|
|
13C Dolomite 3 + 0 = 3
|
|
13C Calcite -1.5 + 0 = -1.5
|
|
34S Anhydrite 13.5 + -0.654266 = 12.8457
|
|
13C CH2O -25 + 3.58938 = -21.4106
|
|
34S Pyrite -22 + 2 = -20
|
|
|
|
Solution fractions: Minimum Maximum
|
|
Solution 1 1.000e+00 9.999e-01 1.000e+00
|
|
Solution 2 1.000e+00 1.000e+00 1.000e+00
|
|
|
|
Phase mole transfers: Minimum Maximum
|
|
Dolomite 1.118e-02 1.022e-02 1.193e-02 CaMg(CO3)2
|
|
Calcite -2.393e-02 -2.567e-02 -2.144e-02 CaCO3
|
|
Anhydrite 2.288e-02 2.077e-02 2.348e-02 CaSO4
|
|
CH2O 4.142e-03 3.006e-03 5.278e-03 CH2O
|
|
Goethite 9.653e-04 6.541e-04 1.276e-03 FeOOH
|
|
Pyrite -9.659e-04 -1.276e-03 -6.561e-04 FeS2
|
|
MgX2 -7.650e-03 -8.574e-03 -6.972e-03 MgX2
|
|
NaX 1.530e-02 1.394e-02 1.715e-02 NaX
|
|
Halite 1.531e-02 1.429e-02 1.633e-02 NaCl
|
|
Sylvite 2.520e-03 2.392e-03 2.648e-03 KCl
|
|
|
|
Redox mole transfers:
|
|
Fe(3) 9.653e-04
|
|
H(0) -1.182e-09
|
|
S(-2) -2.192e-03
|
|
|
|
Sum of residuals (epsilons in documentation): 2.686e+00
|
|
Sum of delta/uncertainty limit: 4.719e+00
|
|
Maximum fractional error in element concentration: 5.000e-02
|
|
|
|
Model contains minimum number of phases.
|
|
===============================================================================
|
|
|
|
|
|
Solution 1: Recharge number 3
|
|
|
|
Input Delta Input+Delta
|
|
pH 7.550e+00 + 0.000e+00 = 7.550e+00
|
|
Alkalinity 4.016e-03 + 1.061e-04 = 4.122e-03
|
|
C(-4) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
C(4) 4.300e-03 + 1.135e-04 = 4.414e-03
|
|
Ca 1.200e-03 + 0.000e+00 = 1.200e-03
|
|
Cl 2.000e-05 + 0.000e+00 = 2.000e-05
|
|
Fe(2) 1.000e-06 + 0.000e+00 = 1.000e-06
|
|
Fe(3) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
H(0) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
K 2.000e-05 + 0.000e+00 = 2.000e-05
|
|
Mg 1.010e-03 + 0.000e+00 = 1.010e-03
|
|
Na 2.000e-05 + 0.000e+00 = 2.000e-05
|
|
O(0) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
S(-2) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
S(6) 1.600e-04 + 0.000e+00 = 1.600e-04
|
|
X 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
13C(-4) -7 + 0 = -7
|
|
13C(4) -7 + 0 = -7
|
|
34S(-2) 9.7 + 0 = 9.7
|
|
34S(6) 9.7 + 0 = 9.7
|
|
|
|
Solution 2: Mysse
|
|
|
|
Input Delta Input+Delta
|
|
pH 6.610e+00 + 5.901e-02 = 6.669e+00
|
|
Alkalinity 5.255e-03 + 0.000e+00 = 5.255e-03
|
|
C(-4) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
C(4) 6.870e-03 + -2.602e-04 = 6.610e-03
|
|
Ca 1.128e-02 + 0.000e+00 = 1.128e-02
|
|
Cl 1.785e-02 + 0.000e+00 = 1.785e-02
|
|
Fe(2) 4.000e-07 + 0.000e+00 = 4.000e-07
|
|
Fe(3) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
H(0) 1.182e-09 + 0.000e+00 = 1.182e-09
|
|
K 2.540e-03 + 0.000e+00 = 2.540e-03
|
|
Mg 4.540e-03 + 0.000e+00 = 4.540e-03
|
|
Na 3.189e-02 + -1.260e-03 = 3.063e-02
|
|
O(0) 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
S(-2) 2.600e-04 + 0.000e+00 = 2.600e-04
|
|
S(6) 1.986e-02 + 9.930e-04 = 2.085e-02
|
|
X 0.000e+00 + 0.000e+00 = 0.000e+00
|
|
13C(-4) -2.3 + 0 = -2.3
|
|
13C(4) -2.3 + 0 = -2.3
|
|
34S(-2) -22.1 + 0 = -22.1
|
|
34S(6) 16.3 + 0 = 16.3
|
|
|
|
Isotopic composition of phases:
|
|
13C Dolomite 3 + 2 = 5
|
|
13C Calcite -1.5 + -1 = -2.5
|
|
34S Anhydrite 13.5 + -0.119632 = 13.3804
|
|
13C CH2O -25 + 5 = -20
|
|
34S Pyrite -22 + 2 = -20
|
|
|
|
Solution fractions: Minimum Maximum
|
|
Solution 1 1.000e+00 1.000e+00 1.000e+00
|
|
Solution 2 1.000e+00 1.000e+00 1.000e+00
|
|
|
|
Phase mole transfers: Minimum Maximum
|
|
Dolomite 5.443e-03 4.995e-03 5.838e-03 CaMg(CO3)2
|
|
Calcite -1.214e-02 -1.333e-02 -1.099e-02 CaCO3
|
|
Anhydrite 2.252e-02 2.077e-02 2.297e-02 CaSO4
|
|
CH2O 3.455e-03 3.006e-03 4.297e-03 CH2O
|
|
Goethite 7.820e-04 6.541e-04 1.015e-03 FeOOH
|
|
Pyrite -7.826e-04 -1.014e-03 -6.561e-04 FeS2
|
|
Ca.75Mg.25X2 -7.650e-03 -8.574e-03 -6.972e-03 Ca.75Mg.25X2
|
|
NaX 1.530e-02 1.394e-02 1.715e-02 NaX
|
|
Halite 1.531e-02 1.429e-02 1.633e-02 NaCl
|
|
Sylvite 2.520e-03 2.392e-03 2.648e-03 KCl
|
|
|
|
Redox mole transfers:
|
|
Fe(3) 7.820e-04
|
|
H(0) -1.182e-09
|
|
S(-2) -1.825e-03
|
|
|
|
Sum of residuals (epsilons in documentation): 4.218e+00
|
|
Sum of delta/uncertainty limit: 8.254e+00
|
|
Maximum fractional error in element concentration: 5.000e-02
|
|
|
|
Model contains minimum number of phases.
|
|
===============================================================================
|
|
|
|
|
|
Summary of inverse modeling:
|
|
|
|
Number of models found: 2
|
|
Number of minimal models found: 2
|
|
Number of infeasible sets of phases saved: 28
|
|
Number of calls to cl1: 80
|
|
------------------
|
|
End of simulation.
|
|
------------------
|
|
|
|
------------------------------------
|
|
Reading input data for simulation 2.
|
|
------------------------------------
|
|
|
|
-----------------------------
|
|
End of Run after 0.2 Seconds.
|
|
-----------------------------
|
|
|