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Checking in examples and mytest. git-svn-id: svn://136.177.114.72/svn_GW/phreeqcpp/branches/ErrorHandling@5758 1feff8c3-07ed-0310-ac33-dd36852eb9cd
3014 lines
155 KiB
Plaintext
3014 lines
155 KiB
Plaintext
Input file: ../examples/ex14
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Output file: ex14.out
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Database file: ../database/wateq4f.dat
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------------------
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Reading data base.
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------------------
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SOLUTION_MASTER_SPECIES
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SOLUTION_SPECIES
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PHASES
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EXCHANGE_MASTER_SPECIES
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EXCHANGE_SPECIES
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SURFACE_MASTER_SPECIES
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SURFACE_SPECIES
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RATES
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END
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------------------------------------
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Reading input data for simulation 1.
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------------------------------------
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TITLE Example 14.--Transport with equilibrium_phases, exchange, and surface reactions
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***********
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PLEASE NOTE: This problem requires database file wateq4f.dat!
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Arsenic data of Archer and Nordstrom (2002) included in
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wateq4f.dat (PHREEQC Version 2.8).
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Results differ from WRIR 99-4259 because of revised data.
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***********
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SURFACE_SPECIES
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Hfo_wOH + Mg+2 = Hfo_wOMg+ + H+
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log_k -15.
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Hfo_wOH + Ca+2 = Hfo_wOCa+ + H+
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log_k -15.
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SOLUTION 1 Brine
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pH 5.713
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pe 4.0 O2(g) -0.7
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temp 25.
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units mol/kgw
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Ca .4655
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Mg .1609
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Na 5.402
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Cl 6.642 charge
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C .00396
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S .004725
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As .05 umol/kgw
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END
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-----
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TITLE
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-----
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Example 14.--Transport with equilibrium_phases, exchange, and surface reactions
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***********
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PLEASE NOTE: This problem requires database file wateq4f.dat!
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Arsenic data of Archer and Nordstrom (2002) included in
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wateq4f.dat (PHREEQC Version 2.8).
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Results differ from WRIR 99-4259 because of revised data.
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***********
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-------------------------------------------
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Beginning of initial solution calculations.
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-------------------------------------------
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Initial solution 1. Brine
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-----------------------------Solution composition------------------------------
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Elements Molality Moles
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As 5.000e-08 5.000e-08
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C 3.960e-03 3.960e-03
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Ca 4.655e-01 4.655e-01
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Cl 6.642e+00 6.642e+00 Charge balance
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Mg 1.609e-01 1.609e-01
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Na 5.402e+00 5.402e+00
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S 4.725e-03 4.725e-03
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----------------------------Description of solution----------------------------
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pH = 5.713
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pe = 14.962 Equilibrium with O2(g)
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Activity of water = 0.785
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Ionic strength = 7.269e+00
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Mass of water (kg) = 1.000e+00
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Total alkalinity (eq/kg) = 3.333e-03
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Total CO2 (mol/kg) = 3.960e-03
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Temperature (deg C) = 25.000
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Electrical balance (eq) = 1.245e-12
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Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
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Iterations = 10
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Total H = 1.110158e+02
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Total O = 5.553646e+01
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----------------------------Distribution of species----------------------------
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Log Log Log
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Species Molality Activity Molality Activity Gamma
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H+ 2.755e-06 1.936e-06 -5.560 -5.713 -0.153
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OH- 7.396e-10 4.056e-09 -9.131 -8.392 0.739
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H2O 5.551e+01 7.846e-01 1.744 -0.105 0.000
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As(3) 2.537e-33
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H3AsO3 2.536e-33 1.352e-32 -32.596 -31.869 0.727
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H2AsO3- 9.013e-37 4.943e-36 -36.045 -35.306 0.739
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H4AsO3+ 2.365e-39 1.297e-38 -38.626 -37.887 0.739
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HAsO3-2 0.000e+00 0.000e+00 -47.249 -44.293 2.956
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AsO3-3 0.000e+00 0.000e+00 -60.932 -54.280 6.652
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AsS(OH)(HS)- 0.000e+00 0.000e+00 -302.484 -301.745 0.739
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As3S4(HS)2- 0.000e+00 0.000e+00 -898.883 -898.144 0.739
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As(5) 5.000e-08
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H2AsO4- 4.997e-08 2.740e-07 -7.301 -6.562 0.739
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H3AsO4 1.986e-11 1.059e-10 -10.702 -9.975 0.727
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HAsO4-2 1.082e-11 9.791e-09 -10.966 -8.009 2.956
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AsO4-3 2.522e-21 1.132e-14 -20.598 -13.946 6.652
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C(-4) 0.000e+00
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CH4 0.000e+00 0.000e+00 -143.997 -143.270 0.727
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C(4) 3.960e-03
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HCO3- 1.045e-03 6.049e-04 -2.981 -3.218 -0.238
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CaHCO3+ 1.002e-03 5.494e-03 -2.999 -2.260 0.739
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MgHCO3+ 6.754e-04 3.704e-03 -3.170 -2.431 0.739
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CO2 6.296e-04 3.357e-03 -3.201 -2.474 0.727
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NaHCO3 6.026e-04 3.213e-03 -3.220 -2.493 0.727
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CaCO3 3.278e-06 1.748e-05 -5.484 -4.758 0.727
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MgCO3 1.372e-06 7.316e-06 -5.863 -5.136 0.727
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NaCO3- 4.698e-07 2.577e-06 -6.328 -5.589 0.739
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CO3-2 1.307e-07 1.465e-08 -6.884 -7.834 -0.950
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Ca 4.655e-01
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Ca+2 4.629e-01 7.121e-01 -0.335 -0.147 0.187
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CaSO4 1.606e-03 8.565e-03 -2.794 -2.067 0.727
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CaHCO3+ 1.002e-03 5.494e-03 -2.999 -2.260 0.739
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CaCO3 3.278e-06 1.748e-05 -5.484 -4.758 0.727
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CaHSO4+ 1.772e-08 9.716e-08 -7.752 -7.012 0.739
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CaOH+ 8.731e-09 4.788e-08 -8.059 -7.320 0.739
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Cl 6.642e+00
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Cl- 6.642e+00 3.947e+00 0.822 0.596 -0.226
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H(0) 0.000e+00
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H2 0.000e+00 0.000e+00 -45.226 -44.499 0.727
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Mg 1.609e-01
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Mg+2 1.588e-01 5.233e-01 -0.799 -0.281 0.518
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MgSO4 1.387e-03 7.395e-03 -2.858 -2.131 0.727
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MgHCO3+ 6.754e-04 3.704e-03 -3.170 -2.431 0.739
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MgCO3 1.372e-06 7.316e-06 -5.863 -5.136 0.727
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MgOH+ 1.404e-07 7.698e-07 -6.853 -6.114 0.739
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Na 5.402e+00
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Na+ 5.401e+00 9.445e+00 0.732 0.975 0.243
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NaHCO3 6.026e-04 3.213e-03 -3.220 -2.493 0.727
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NaSO4- 5.203e-04 2.854e-03 -3.284 -2.545 0.739
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NaCO3- 4.698e-07 2.577e-06 -6.328 -5.589 0.739
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O(0) 9.589e-05
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O2 4.795e-05 2.556e-04 -4.319 -3.592 0.727
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S(-2) 0.000e+00
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H2S 0.000e+00 0.000e+00 -140.704 -139.977 0.727
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HS- 0.000e+00 0.000e+00 -141.945 -141.206 0.739
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S5-2 0.000e+00 0.000e+00 -144.615 -145.088 -0.473
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S4-2 0.000e+00 0.000e+00 -144.764 -145.322 -0.558
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S6-2 0.000e+00 0.000e+00 -144.964 -145.374 -0.410
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S3-2 0.000e+00 0.000e+00 -148.095 -148.775 -0.680
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S2-2 0.000e+00 0.000e+00 -149.207 -150.021 -0.813
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S-2 0.000e+00 0.000e+00 -151.367 -148.411 2.956
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AsS(OH)(HS)- 0.000e+00 0.000e+00 -302.484 -301.745 0.739
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As3S4(HS)2- 0.000e+00 0.000e+00 -898.883 -898.144 0.739
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S(6) 4.725e-03
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CaSO4 1.606e-03 8.565e-03 -2.794 -2.067 0.727
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MgSO4 1.387e-03 7.395e-03 -2.858 -2.131 0.727
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SO4-2 1.211e-03 6.028e-05 -2.917 -4.220 -1.303
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NaSO4- 5.203e-04 2.854e-03 -3.284 -2.545 0.739
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CaHSO4+ 1.772e-08 9.716e-08 -7.752 -7.012 0.739
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HSO4- 2.069e-09 1.135e-08 -8.684 -7.945 0.739
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------------------------------Saturation indices-------------------------------
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Phase SI log IAP log KT
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Anhydrite -0.01 -4.37 -4.36 CaSO4
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Aragonite 0.35 -7.98 -8.34 CaCO3
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Arsenolite -62.04 -63.42 -1.38 As2O3
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Artinite -7.10 2.50 9.60 MgCO3:Mg(OH)2:3H2O
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As2O5(cr) -27.86 -19.63 8.23 As2O5
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As2S3(am) -458.96 -503.86 -44.90 As2S3
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As_native -81.04 -93.58 -12.53 As
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Brucite -5.91 10.93 16.84 Mg(OH)2
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Ca3(AsO4)2:4w -9.85 -28.76 -18.91 Ca3(AsO4)2:4H2O
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Calcite 0.50 -7.98 -8.48 CaCO3
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CH4(g) -140.41 -143.27 -2.86 CH4
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Claudetite -62.08 -63.42 -1.34 As2O3
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CO2(g) -1.01 -2.47 -1.47 CO2
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Dolomite 0.99 -16.10 -17.09 CaMg(CO3)2
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Dolomite(d) 0.44 -16.10 -16.54 CaMg(CO3)2
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Epsomite -3.10 -5.24 -2.14 MgSO4:7H2O
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Gypsum 0.00 -4.58 -4.58 CaSO4:2H2O
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H2(g) -41.35 -44.50 -3.15 H2
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H2O(g) -1.62 -0.11 1.51 H2O
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H2S(g) -138.98 -139.98 -1.00 H2S
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Halite -0.01 1.57 1.58 NaCl
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Huntite -2.36 -32.33 -29.97 CaMg3(CO3)4
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Hydromagnesite -13.19 -21.95 -8.76 Mg5(CO3)4(OH)2:4H2O
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Magnesite -0.09 -8.12 -8.03 MgCO3
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Mirabilite -2.21 -3.32 -1.11 Na2SO4:10H2O
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Nahcolite -1.70 -2.24 -0.55 NaHCO3
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Natron -5.63 -6.94 -1.31 Na2CO3:10H2O
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Nesquehonite -2.81 -8.43 -5.62 MgCO3:3H2O
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O2(g) -0.70 -3.59 -2.89 O2
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Orpiment -457.56 -503.86 -46.30 As2S3
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Portlandite -11.73 11.07 22.80 Ca(OH)2
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Realgar -179.20 -199.15 -19.94 AsS
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Sulfur -103.46 -118.49 -15.03 S
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Thenardite -2.09 -2.27 -0.18 Na2SO4
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Thermonatrite -6.11 -5.99 0.12 Na2CO3:H2O
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Trona -7.54 -8.34 -0.80 NaHCO3:Na2CO3:2H2O
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------------------
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End of simulation.
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------------------
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------------------------------------
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Reading input data for simulation 2.
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------------------------------------
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USE solution 1
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EQUILIBRIUM_PHASES 1
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Dolomite 0.0 1.6
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Calcite 0.0 0.1
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SAVE solution 1
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SELECTED_OUTPUT
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file ex14.sel
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reset false
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step
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USER_PUNCH
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heading m_Ca m_Mg m_Na umol_As pH
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10 PUNCH TOT("Ca"), TOT("Mg"), TOT("Na"), TOT("As")*1e6, -LA("H+")
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END
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-----------------------------------------
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Beginning of batch-reaction calculations.
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-----------------------------------------
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Reaction step 1.
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Using solution 1. Brine
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Using pure phase assemblage 1.
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-------------------------------Phase assemblage--------------------------------
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Moles in assemblage
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Phase SI log IAP log KT Initial Final Delta
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Calcite -0.00 -8.48 -8.48 1.000e-01 1.020e-01 1.982e-03
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Dolomite -0.00 -17.09 -17.09 1.600e+00 1.599e+00 -7.679e-04
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-----------------------------Solution composition------------------------------
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Elements Molality Moles
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As 5.000e-08 5.000e-08
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C 3.514e-03 3.514e-03
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Ca 4.643e-01 4.643e-01
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Cl 6.642e+00 6.642e+00
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Mg 1.617e-01 1.617e-01
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Na 5.402e+00 5.402e+00
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S 4.725e-03 4.725e-03
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----------------------------Description of solution----------------------------
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pH = 5.350 Charge balance
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pe = 15.325 Adjusted to redox equilibrium
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Activity of water = 0.785
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Ionic strength = 7.269e+00
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Mass of water (kg) = 1.000e+00
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Total alkalinity (eq/kg) = 2.441e-03
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Total CO2 (mol/kg) = 3.514e-03
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Temperature (deg C) = 25.000
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Electrical balance (eq) = 1.252e-12
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Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
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Iterations = 4
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Total H = 1.110158e+02
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Total O = 5.553513e+01
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----------------------------Distribution of species----------------------------
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Log Log Log
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Species Molality Activity Molality Activity Gamma
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H+ 6.361e-06 4.471e-06 -5.196 -5.350 -0.153
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OH- 3.204e-10 1.757e-09 -9.494 -8.755 0.739
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H2O 5.551e+01 7.846e-01 1.744 -0.105 0.000
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As(3) 5.853e-33
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H3AsO3 5.852e-33 3.120e-32 -32.233 -31.506 0.727
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H2AsO3- 9.010e-37 4.941e-36 -36.045 -35.306 0.739
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H4AsO3+ 1.260e-38 6.912e-38 -37.899 -37.160 0.739
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HAsO3-2 0.000e+00 0.000e+00 -47.613 -44.657 2.956
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AsO3-3 0.000e+00 0.000e+00 -61.659 -55.007 6.652
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AsS(OH)(HS)- 0.000e+00 0.000e+00 -301.031 -300.292 0.739
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As3S4(HS)2- 0.000e+00 0.000e+00 -893.799 -893.060 0.739
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As(5) 5.000e-08
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H2AsO4- 4.995e-08 2.739e-07 -7.301 -6.562 0.739
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H3AsO4 4.583e-11 2.443e-10 -10.339 -9.612 0.727
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HAsO4-2 4.687e-12 4.238e-09 -11.329 -8.373 2.956
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AsO4-3 4.733e-22 2.122e-15 -21.325 -14.673 6.652
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C(-4) 0.000e+00
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CH4 0.000e+00 0.000e+00 -143.767 -143.040 0.727
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C(4) 3.514e-03
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CO2 1.068e-03 5.694e-03 -2.971 -2.245 0.727
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HCO3- 7.680e-04 4.444e-04 -3.115 -3.352 -0.238
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CaHCO3+ 7.345e-04 4.028e-03 -3.134 -2.395 0.739
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MgHCO3+ 4.991e-04 2.737e-03 -3.302 -2.563 0.739
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NaHCO3 4.428e-04 2.361e-03 -3.354 -2.627 0.727
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CaCO3 1.041e-06 5.550e-06 -5.983 -5.256 0.727
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MgCO3 4.392e-07 2.341e-06 -6.357 -5.631 0.727
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NaCO3- 1.495e-07 8.199e-07 -6.825 -6.086 0.739
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CO3-2 4.158e-08 4.662e-09 -7.381 -8.331 -0.950
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Ca 4.643e-01
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Ca+2 4.619e-01 7.106e-01 -0.335 -0.148 0.187
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CaSO4 1.601e-03 8.538e-03 -2.796 -2.069 0.727
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CaHCO3+ 7.345e-04 4.028e-03 -3.134 -2.395 0.739
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CaCO3 1.041e-06 5.550e-06 -5.983 -5.256 0.727
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CaHSO4+ 4.078e-08 2.236e-07 -7.390 -6.650 0.739
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CaOH+ 3.774e-09 2.069e-08 -8.423 -7.684 0.739
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Cl 6.642e+00
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Cl- 6.642e+00 3.947e+00 0.822 0.596 -0.226
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H(0) 0.000e+00
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H2 0.000e+00 0.000e+00 -45.226 -44.499 0.727
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Mg 1.617e-01
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Mg+2 1.598e-01 5.263e-01 -0.796 -0.279 0.518
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MgSO4 1.394e-03 7.430e-03 -2.856 -2.129 0.727
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MgHCO3+ 4.991e-04 2.737e-03 -3.302 -2.563 0.739
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MgCO3 4.392e-07 2.341e-06 -6.357 -5.631 0.727
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MgOH+ 6.115e-08 3.353e-07 -7.214 -6.475 0.739
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Na 5.402e+00
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Na+ 5.401e+00 9.445e+00 0.732 0.975 0.243
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NaSO4- 5.199e-04 2.851e-03 -3.284 -2.545 0.739
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NaHCO3 4.428e-04 2.361e-03 -3.354 -2.627 0.727
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NaCO3- 1.495e-07 8.199e-07 -6.825 -6.086 0.739
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O(0) 9.589e-05
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O2 4.795e-05 2.556e-04 -4.319 -3.592 0.727
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S(-2) 0.000e+00
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H2S 0.000e+00 0.000e+00 -139.978 -139.251 0.727
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HS- 0.000e+00 0.000e+00 -141.582 -140.843 0.739
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S5-2 0.000e+00 0.000e+00 -144.616 -145.088 -0.473
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S4-2 0.000e+00 0.000e+00 -144.765 -145.322 -0.558
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S6-2 0.000e+00 0.000e+00 -144.964 -145.374 -0.410
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S3-2 0.000e+00 0.000e+00 -148.095 -148.775 -0.680
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S2-2 0.000e+00 0.000e+00 -149.208 -150.021 -0.813
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S-2 0.000e+00 0.000e+00 -151.367 -148.411 2.956
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AsS(OH)(HS)- 0.000e+00 0.000e+00 -301.031 -300.292 0.739
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As3S4(HS)2- 0.000e+00 0.000e+00 -893.799 -893.060 0.739
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S(6) 4.725e-03
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CaSO4 1.601e-03 8.538e-03 -2.796 -2.069 0.727
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MgSO4 1.394e-03 7.430e-03 -2.856 -2.129 0.727
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SO4-2 1.210e-03 6.022e-05 -2.917 -4.220 -1.303
|
|
NaSO4- 5.199e-04 2.851e-03 -3.284 -2.545 0.739
|
|
CaHSO4+ 4.078e-08 2.236e-07 -7.390 -6.650 0.739
|
|
HSO4- 4.774e-09 2.618e-08 -8.321 -7.582 0.739
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -0.01 -4.37 -4.36 CaSO4
|
|
Aragonite -0.14 -8.48 -8.34 CaCO3
|
|
Arsenolite -61.32 -62.70 -1.38 As2O3
|
|
Artinite -8.32 1.28 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -27.14 -18.91 8.23 As2O5
|
|
As2S3(am) -456.06 -500.96 -44.90 As2S3
|
|
As_native -80.68 -93.21 -12.53 As
|
|
Brucite -6.63 10.21 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -11.31 -30.21 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.00 -8.48 -8.48 CaCO3
|
|
CH4(g) -140.18 -143.04 -2.86 CH4
|
|
Claudetite -61.36 -62.70 -1.34 As2O3
|
|
CO2(g) -0.78 -2.24 -1.47 CO2
|
|
Dolomite -0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -3.10 -5.24 -2.14 MgSO4:7H2O
|
|
Gypsum 0.00 -4.58 -4.58 CaSO4:2H2O
|
|
H2(g) -41.35 -44.50 -3.15 H2
|
|
H2O(g) -1.62 -0.11 1.51 H2O
|
|
H2S(g) -138.25 -139.25 -1.00 H2S
|
|
Halite -0.01 1.57 1.58 NaCl
|
|
Huntite -4.34 -34.31 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -15.89 -24.65 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.58 -8.61 -8.03 MgCO3
|
|
Mirabilite -2.21 -3.32 -1.11 Na2SO4:10H2O
|
|
Nahcolite -1.83 -2.38 -0.55 NaHCO3
|
|
Natron -6.12 -7.43 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -3.31 -8.93 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -454.66 -500.96 -46.30 As2S3
|
|
Portlandite -12.46 10.34 22.80 Ca(OH)2
|
|
Realgar -178.11 -198.06 -19.94 AsS
|
|
Sulfur -102.74 -117.76 -15.03 S
|
|
Thenardite -2.09 -2.27 -0.18 Na2SO4
|
|
Thermonatrite -6.61 -6.49 0.12 Na2CO3:H2O
|
|
Trona -8.17 -8.97 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
------------------
|
|
End of simulation.
|
|
------------------
|
|
|
|
------------------------------------
|
|
Reading input data for simulation 3.
|
|
------------------------------------
|
|
|
|
PRINT
|
|
selected_output false
|
|
EXCHANGE 1
|
|
equilibrate with solution 1
|
|
X 1.0
|
|
SURFACE 1
|
|
equilibrate solution 1
|
|
Hfo_w 0.07 600. 30.
|
|
END
|
|
-------------------------------------------------------
|
|
Beginning of initial exchange-composition calculations.
|
|
-------------------------------------------------------
|
|
|
|
Exchange 1.
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
NaX 9.355e-01 9.355e-01 9.355e-01 0.000
|
|
CaX2 2.199e-02 4.398e-02 4.398e-02 0.000
|
|
MgX2 1.028e-02 2.055e-02 2.055e-02 0.000
|
|
HX 4.428e-06 4.428e-06 4.428e-06 0.000
|
|
|
|
------------------------------------------------------
|
|
Beginning of initial surface-composition calculations.
|
|
------------------------------------------------------
|
|
|
|
Surface 1.
|
|
|
|
Hfo
|
|
6.234e-02 Surface charge, eq
|
|
3.342e-01 sigma, C/m**2
|
|
4.729e-02 psi, V
|
|
-1.841e+00 -F*psi/RT
|
|
1.587e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH2+ 6.388e-02 0.913 6.388e-02 -1.195
|
|
Hfo_wOH 4.617e-03 0.066 4.616e-03 -2.336
|
|
Hfo_wSO4- 6.015e-04 0.009 6.015e-04 -3.221
|
|
Hfo_wHAsO4- 5.089e-04 0.007 5.089e-04 -3.293
|
|
Hfo_wH2AsO4 2.279e-04 0.003 2.279e-04 -3.642
|
|
Hfo_wOHAsO4-3 9.316e-05 0.001 9.316e-05 -4.031
|
|
Hfo_wOHSO4-2 6.805e-05 0.001 6.805e-05 -4.167
|
|
Hfo_wO- 7.643e-06 0.000 7.643e-06 -5.117
|
|
Hfo_wOCa+ 1.165e-13 0.000 1.165e-13 -12.934
|
|
Hfo_wOMg+ 8.626e-14 0.000 8.626e-14 -13.064
|
|
|
|
------------------
|
|
End of simulation.
|
|
------------------
|
|
|
|
------------------------------------
|
|
Reading input data for simulation 4.
|
|
------------------------------------
|
|
|
|
SOLUTION 0 20 x precipitation
|
|
pH 4.6
|
|
pe 4.0 O2(g) -0.7
|
|
temp 25.
|
|
units mmol/kgw
|
|
Ca .191625
|
|
Mg .035797
|
|
Na .122668
|
|
Cl .133704
|
|
C .01096
|
|
S .235153 charge
|
|
EQUILIBRIUM_PHASES 0
|
|
Dolomite 0.0 1.6
|
|
Calcite 0.0 0.1
|
|
CO2(g) -1.5 10.
|
|
SAVE solution 0
|
|
END
|
|
-------------------------------------------
|
|
Beginning of initial solution calculations.
|
|
-------------------------------------------
|
|
|
|
Initial solution 0. 20 x precipitation
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
C 1.096e-05 1.096e-05
|
|
Ca 1.916e-04 1.916e-04
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 3.580e-05 3.580e-05
|
|
Na 1.227e-04 1.227e-04
|
|
S 2.351e-04 2.351e-04 Charge balance
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 4.600
|
|
pe = 16.022 Equilibrium with O2(g)
|
|
Activity of water = 1.000
|
|
Ionic strength = 1.035e-03
|
|
Mass of water (kg) = 1.000e+00
|
|
Total alkalinity (eq/kg) = -2.630e-05
|
|
Total CO2 (mol/kg) = 1.096e-05
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = 8.170e-16
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
|
|
Iterations = 9
|
|
Total H = 1.110125e+02
|
|
Total O = 5.550769e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
H+ 2.600e-05 2.512e-05 -4.585 -4.600 -0.015
|
|
OH- 4.132e-10 3.985e-10 -9.384 -9.400 -0.016
|
|
H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -145.553 -145.553 0.000
|
|
C(4) 1.096e-05
|
|
CO2 1.076e-05 1.076e-05 -4.968 -4.968 0.000
|
|
HCO3- 1.975e-07 1.906e-07 -6.704 -6.720 -0.015
|
|
CaHCO3+ 4.049e-10 3.905e-10 -9.393 -9.408 -0.016
|
|
MgHCO3+ 6.905e-11 6.660e-11 -10.161 -10.177 -0.016
|
|
NaHCO3 1.267e-11 1.267e-11 -10.897 -10.897 0.000
|
|
CO3-2 4.105e-13 3.559e-13 -12.387 -12.449 -0.062
|
|
CaCO3 9.575e-14 9.577e-14 -13.019 -13.019 0.000
|
|
MgCO3 1.014e-14 1.014e-14 -13.994 -13.994 0.000
|
|
NaCO3- 8.122e-16 7.833e-16 -15.090 -15.106 -0.016
|
|
Ca 1.916e-04
|
|
Ca+2 1.853e-04 1.606e-04 -3.732 -3.794 -0.062
|
|
CaSO4 6.296e-06 6.297e-06 -5.201 -5.201 0.000
|
|
CaHSO4+ 9.608e-10 9.267e-10 -9.017 -9.033 -0.016
|
|
CaHCO3+ 4.049e-10 3.905e-10 -9.393 -9.408 -0.016
|
|
CaOH+ 1.100e-12 1.061e-12 -11.958 -11.974 -0.016
|
|
CaCO3 9.575e-14 9.577e-14 -13.019 -13.019 0.000
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.289e-04 -3.874 -3.890 -0.016
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.394 -44.394 0.000
|
|
Mg 3.580e-05
|
|
Mg+2 3.442e-05 2.986e-05 -4.463 -4.525 -0.062
|
|
MgSO4 1.375e-06 1.375e-06 -5.862 -5.862 0.000
|
|
MgHCO3+ 6.905e-11 6.660e-11 -10.161 -10.177 -0.016
|
|
MgOH+ 4.475e-12 4.316e-12 -11.349 -11.365 -0.016
|
|
MgCO3 1.014e-14 1.014e-14 -13.994 -13.994 0.000
|
|
Na 1.227e-04
|
|
Na+ 1.225e-04 1.182e-04 -3.912 -3.927 -0.016
|
|
NaSO4- 1.207e-07 1.164e-07 -6.918 -6.934 -0.016
|
|
NaHCO3 1.267e-11 1.267e-11 -10.897 -10.897 0.000
|
|
NaCO3- 8.122e-16 7.833e-16 -15.090 -15.106 -0.016
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.556e-04 -3.592 -3.592 0.000
|
|
S(-2) 0.000e+00
|
|
H2S 0.000e+00 0.000e+00 -137.238 -137.238 0.000
|
|
HS- 0.000e+00 0.000e+00 -139.564 -139.580 -0.016
|
|
S5-2 0.000e+00 0.000e+00 -144.517 -144.575 -0.058
|
|
S4-2 0.000e+00 0.000e+00 -144.749 -144.809 -0.059
|
|
S6-2 0.000e+00 0.000e+00 -144.804 -144.861 -0.057
|
|
S-2 0.000e+00 0.000e+00 -147.835 -147.898 -0.063
|
|
S3-2 0.000e+00 0.000e+00 -148.201 -148.262 -0.060
|
|
S2-2 0.000e+00 0.000e+00 -149.446 -149.508 -0.061
|
|
S(6) 2.351e-04
|
|
SO4-2 2.268e-04 1.965e-04 -3.644 -3.707 -0.062
|
|
CaSO4 6.296e-06 6.297e-06 -5.201 -5.201 0.000
|
|
MgSO4 1.375e-06 1.375e-06 -5.862 -5.862 0.000
|
|
HSO4- 4.975e-07 4.798e-07 -6.303 -6.319 -0.016
|
|
NaSO4- 1.207e-07 1.164e-07 -6.918 -6.934 -0.016
|
|
CaHSO4+ 9.608e-10 9.267e-10 -9.017 -9.033 -0.016
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -3.14 -7.50 -4.36 CaSO4
|
|
Aragonite -7.91 -16.24 -8.34 CaCO3
|
|
Artinite -21.90 -12.30 9.60 MgCO3:Mg(OH)2:3H2O
|
|
Brucite -12.16 4.68 16.84 Mg(OH)2
|
|
Calcite -7.76 -16.24 -8.48 CaCO3
|
|
CH4(g) -142.69 -145.55 -2.86 CH4
|
|
CO2(g) -3.50 -4.97 -1.47 CO2
|
|
Dolomite -16.13 -33.22 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -16.68 -33.22 -16.54 CaMg(CO3)2
|
|
Epsomite -6.09 -8.23 -2.14 MgSO4:7H2O
|
|
Gypsum -2.92 -7.50 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -136.24 -137.24 -1.00 H2S
|
|
Halite -9.40 -7.82 1.58 NaCl
|
|
Huntite -37.20 -67.16 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -54.46 -63.22 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -8.94 -16.97 -8.03 MgCO3
|
|
Mirabilite -10.45 -11.56 -1.11 Na2SO4:10H2O
|
|
Nahcolite -10.10 -10.65 -0.55 NaHCO3
|
|
Natron -18.99 -20.30 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -11.35 -16.97 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Portlandite -17.39 5.41 22.80 Ca(OH)2
|
|
Sulfur -100.83 -115.85 -15.03 S
|
|
Thenardite -11.38 -11.56 -0.18 Na2SO4
|
|
Thermonatrite -20.43 -20.30 0.12 Na2CO3:H2O
|
|
Trona -30.16 -30.95 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
-----------------------------------------
|
|
Beginning of batch-reaction calculations.
|
|
-----------------------------------------
|
|
|
|
Reaction step 1.
|
|
|
|
Using solution 0. 20 x precipitation
|
|
Using pure phase assemblage 0.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.00 -8.48 -8.48 1.000e-01 9.966e-02 -3.443e-04
|
|
CO2(g) -1.50 -2.97 -1.47 1.000e+01 9.996e+00 -4.067e-03
|
|
Dolomite -0.00 -17.09 -17.09 1.600e+00 1.599e+00 -1.349e-03
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
C 7.120e-03 7.119e-03
|
|
Ca 1.885e-03 1.885e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.385e-03 1.384e-03
|
|
Na 1.227e-04 1.227e-04
|
|
S 2.351e-04 2.351e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.047 Charge balance
|
|
pe = 13.575 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.629e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.057e-03
|
|
Total CO2 (mol/kg) = 7.120e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = 2.213e-15
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
|
|
Iterations = 9
|
|
Total H = 1.110125e+02
|
|
Total O = 5.552495e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.234e-07 1.115e-07 -6.909 -6.953 -0.044
|
|
H+ 9.814e-08 8.977e-08 -7.008 -7.047 -0.039
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.556 -143.555 0.001
|
|
C(4) 7.120e-03
|
|
HCO3- 5.883e-03 5.333e-03 -2.230 -2.273 -0.043
|
|
CO2 1.074e-03 1.077e-03 -2.969 -2.968 0.001
|
|
CaHCO3+ 8.950e-05 8.087e-05 -4.048 -4.092 -0.044
|
|
MgHCO3+ 6.082e-05 5.496e-05 -4.216 -4.260 -0.044
|
|
CaCO3 5.537e-06 5.550e-06 -5.257 -5.256 0.001
|
|
CO3-2 4.124e-06 2.786e-06 -5.385 -5.555 -0.170
|
|
MgCO3 2.336e-06 2.341e-06 -5.631 -5.631 0.001
|
|
NaHCO3 3.310e-07 3.317e-07 -6.480 -6.479 0.001
|
|
NaCO3- 6.351e-09 5.738e-09 -8.197 -8.241 -0.044
|
|
Ca 1.885e-03
|
|
Ca+2 1.761e-03 1.189e-03 -2.754 -2.925 -0.171
|
|
CaHCO3+ 8.950e-05 8.087e-05 -4.048 -4.092 -0.044
|
|
CaSO4 2.881e-05 2.887e-05 -4.540 -4.539 0.001
|
|
CaCO3 5.537e-06 5.550e-06 -5.257 -5.256 0.001
|
|
CaOH+ 2.432e-09 2.198e-09 -8.614 -8.658 -0.044
|
|
CaHSO4+ 1.681e-11 1.518e-11 -10.775 -10.819 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.206e-04 -3.874 -3.919 -0.045
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 1.385e-03
|
|
Mg+2 1.296e-03 8.806e-04 -2.887 -3.055 -0.168
|
|
MgHCO3+ 6.082e-05 5.496e-05 -4.216 -4.260 -0.044
|
|
MgSO4 2.507e-05 2.513e-05 -4.601 -4.600 0.001
|
|
MgCO3 2.336e-06 2.341e-06 -5.631 -5.631 0.001
|
|
MgOH+ 3.941e-08 3.561e-08 -7.404 -7.448 -0.044
|
|
Na 1.227e-04
|
|
Na+ 1.223e-04 1.106e-04 -3.913 -3.956 -0.044
|
|
NaHCO3 3.310e-07 3.317e-07 -6.480 -6.479 0.001
|
|
NaSO4- 7.467e-08 6.747e-08 -7.127 -7.171 -0.044
|
|
NaCO3- 6.351e-09 5.738e-09 -8.197 -8.241 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.192 -142.236 -0.044
|
|
H2S 0.000e+00 0.000e+00 -142.342 -142.341 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.640 -144.784 -0.144
|
|
S4-2 0.000e+00 0.000e+00 -144.867 -145.018 -0.151
|
|
S6-2 0.000e+00 0.000e+00 -144.933 -145.070 -0.138
|
|
S-2 0.000e+00 0.000e+00 -147.931 -148.107 -0.176
|
|
S3-2 0.000e+00 0.000e+00 -148.312 -148.471 -0.159
|
|
S2-2 0.000e+00 0.000e+00 -149.552 -149.717 -0.165
|
|
S(6) 2.351e-04
|
|
SO4-2 1.811e-04 1.217e-04 -3.742 -3.915 -0.173
|
|
CaSO4 2.881e-05 2.887e-05 -4.540 -4.539 0.001
|
|
MgSO4 2.507e-05 2.513e-05 -4.601 -4.600 0.001
|
|
NaSO4- 7.467e-08 6.747e-08 -7.127 -7.171 -0.044
|
|
HSO4- 1.176e-09 1.062e-09 -8.930 -8.974 -0.044
|
|
CaHSO4+ 1.681e-11 1.518e-11 -10.775 -10.819 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.48 -6.84 -4.36 CaSO4
|
|
Aragonite -0.14 -8.48 -8.34 CaCO3
|
|
Artinite -7.17 2.43 9.60 MgCO3:Mg(OH)2:3H2O
|
|
Brucite -5.80 11.04 16.84 Mg(OH)2
|
|
Calcite -0.00 -8.48 -8.48 CaCO3
|
|
CH4(g) -140.69 -143.55 -2.86 CH4
|
|
CO2(g) -1.50 -2.97 -1.47 CO2
|
|
Dolomite -0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -4.83 -6.97 -2.14 MgSO4:7H2O
|
|
Gypsum -2.26 -6.84 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.34 -142.34 -1.00 H2S
|
|
Halite -9.46 -7.87 1.58 NaCl
|
|
Huntite -4.34 -34.31 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.64 -23.40 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.58 -8.61 -8.03 MgCO3
|
|
Mirabilite -10.71 -11.83 -1.11 Na2SO4:10H2O
|
|
Nahcolite -5.68 -6.23 -0.55 NaHCO3
|
|
Natron -12.16 -13.47 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.99 -8.61 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Portlandite -11.63 11.17 22.80 Ca(OH)2
|
|
Sulfur -105.93 -120.96 -15.03 S
|
|
Thenardite -11.65 -11.83 -0.18 Na2SO4
|
|
Thermonatrite -13.59 -13.47 0.12 Na2CO3:H2O
|
|
Trona -18.90 -19.70 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
------------------
|
|
End of simulation.
|
|
------------------
|
|
|
|
------------------------------------
|
|
Reading input data for simulation 5.
|
|
------------------------------------
|
|
|
|
PRINT
|
|
selected_output true
|
|
ADVECTION
|
|
cells 1
|
|
shifts 200
|
|
print_frequency 20
|
|
END
|
|
------------------------------------
|
|
Beginning of advection calculations.
|
|
------------------------------------
|
|
|
|
Beginning of advection time step 1, cumulative pore volumes 1.000000.
|
|
Beginning of advection time step 2, cumulative pore volumes 2.000000.
|
|
Beginning of advection time step 3, cumulative pore volumes 3.000000.
|
|
Beginning of advection time step 4, cumulative pore volumes 4.000000.
|
|
Beginning of advection time step 5, cumulative pore volumes 5.000000.
|
|
Beginning of advection time step 6, cumulative pore volumes 6.000000.
|
|
Beginning of advection time step 7, cumulative pore volumes 7.000000.
|
|
Beginning of advection time step 8, cumulative pore volumes 8.000000.
|
|
Beginning of advection time step 9, cumulative pore volumes 9.000000.
|
|
Beginning of advection time step 10, cumulative pore volumes 10.000000.
|
|
Beginning of advection time step 11, cumulative pore volumes 11.000000.
|
|
Beginning of advection time step 12, cumulative pore volumes 12.000000.
|
|
Beginning of advection time step 13, cumulative pore volumes 13.000000.
|
|
Beginning of advection time step 14, cumulative pore volumes 14.000000.
|
|
Beginning of advection time step 15, cumulative pore volumes 15.000000.
|
|
Beginning of advection time step 16, cumulative pore volumes 16.000000.
|
|
Beginning of advection time step 17, cumulative pore volumes 17.000000.
|
|
Beginning of advection time step 18, cumulative pore volumes 18.000000.
|
|
Beginning of advection time step 19, cumulative pore volumes 19.000000.
|
|
Beginning of advection time step 20, cumulative pore volumes 20.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite 0.00 -8.48 -8.48 5.212e-02 5.085e-02 -1.272e-03
|
|
Dolomite 0.00 -17.09 -17.09 1.576e+00 1.575e+00 -1.774e-04
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
-2.907e-03 Surface charge, eq
|
|
-1.559e-02 sigma, C/m**2
|
|
-5.497e-02 psi, V
|
|
2.140e+00 -F*psi/RT
|
|
8.498e+00 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 5.310e-02 0.759 5.310e-02 -1.275
|
|
Hfo_wO- 8.255e-03 0.118 8.256e-03 -2.083
|
|
Hfo_wOH2+ 7.823e-03 0.112 7.824e-03 -2.107
|
|
Hfo_wOHAsO4-3 8.244e-04 0.012 8.245e-04 -3.084
|
|
Hfo_wOHSO4-2 6.801e-07 0.000 6.802e-07 -6.167
|
|
Hfo_wHAsO4- 4.008e-07 0.000 4.008e-07 -6.397
|
|
Hfo_wSO4- 5.024e-08 0.000 5.024e-08 -7.299
|
|
Hfo_wH2AsO4 1.911e-09 0.000 1.911e-09 -8.719
|
|
Hfo_wOCa+ 4.391e-12 0.000 4.391e-12 -11.357
|
|
Hfo_wOMg+ 3.252e-12 0.000 3.252e-12 -11.488
|
|
Hfo_wH2AsO3 3.953e-34 0.000 3.953e-34 -33.403
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
NaX 6.110e-01 6.110e-01 6.110e-01 -0.000
|
|
CaX2 1.325e-01 2.651e-01 2.651e-01 -0.000
|
|
MgX2 6.194e-02 1.239e-01 1.239e-01 -0.000
|
|
HX 6.196e-07 6.196e-07 6.196e-07 -0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.542e-07 1.542e-07
|
|
C 8.747e-03 8.746e-03
|
|
Ca 1.972e-05 1.972e-05
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.279e-05 1.279e-05
|
|
Na 9.850e-03 9.850e-03
|
|
S 2.350e-04 2.350e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 9.051 Charge balance
|
|
pe = 11.571 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 1.065e-02
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 9.399e-03
|
|
Total CO2 (mol/kg) = 8.747e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -8.721e-05
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.44
|
|
Iterations = 13
|
|
Total H = 1.110124e+02
|
|
Total O = 5.552983e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.251e-05 1.125e-05 -4.903 -4.949 -0.046
|
|
H+ 9.756e-10 8.892e-10 -9.011 -9.051 -0.040
|
|
H2O 5.551e+01 9.997e-01 1.744 -0.000 0.000
|
|
As(3) 5.452e-38
|
|
H3AsO3 2.889e-38 2.896e-38 -37.539 -37.538 0.001
|
|
H2AsO3- 2.563e-38 2.305e-38 -37.591 -37.637 -0.046
|
|
HAsO3-2 0.000e+00 0.000e+00 -43.102 -43.286 -0.184
|
|
H4AsO3+ 0.000e+00 0.000e+00 -46.848 -46.894 -0.046
|
|
AsO3-3 0.000e+00 0.000e+00 -49.521 -49.935 -0.414
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -316.805 -316.851 -0.046
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -950.407 -950.453 -0.046
|
|
As(5) 1.542e-07
|
|
HAsO4-2 1.521e-07 9.955e-08 -6.818 -7.002 -0.184
|
|
H2AsO4- 1.423e-09 1.280e-09 -8.847 -8.893 -0.046
|
|
AsO4-3 6.505e-10 2.506e-10 -9.187 -9.601 -0.414
|
|
H3AsO4 2.265e-16 2.270e-16 -15.645 -15.644 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -145.426 -145.425 0.001
|
|
C(4) 8.747e-03
|
|
HCO3- 8.041e-03 7.259e-03 -2.095 -2.139 -0.044
|
|
CO3-2 5.765e-04 3.828e-04 -3.239 -3.417 -0.178
|
|
NaCO3- 6.950e-05 6.252e-05 -4.158 -4.204 -0.046
|
|
NaHCO3 3.571e-05 3.580e-05 -4.447 -4.446 0.001
|
|
CO2 1.448e-05 1.452e-05 -4.839 -4.838 0.001
|
|
CaCO3 5.536e-06 5.550e-06 -5.257 -5.256 0.001
|
|
MgCO3 2.336e-06 2.341e-06 -5.632 -5.631 0.001
|
|
CaHCO3+ 8.907e-07 8.011e-07 -6.050 -6.096 -0.046
|
|
MgHCO3+ 6.052e-07 5.444e-07 -6.218 -6.264 -0.046
|
|
Ca 1.972e-05
|
|
Ca+2 1.304e-05 8.653e-06 -4.885 -5.063 -0.178
|
|
CaCO3 5.536e-06 5.550e-06 -5.257 -5.256 0.001
|
|
CaHCO3+ 8.907e-07 8.011e-07 -6.050 -6.096 -0.046
|
|
CaSO4 2.584e-07 2.590e-07 -6.588 -6.587 0.001
|
|
CaOH+ 1.795e-09 1.614e-09 -8.746 -8.792 -0.046
|
|
CaHSO4+ 1.500e-15 1.349e-15 -14.824 -14.870 -0.046
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.200e-04 -3.874 -3.921 -0.047
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.396 -44.394 0.001
|
|
Mg 1.279e-05
|
|
Mg+2 9.592e-06 6.409e-06 -5.018 -5.193 -0.175
|
|
MgCO3 2.336e-06 2.341e-06 -5.632 -5.631 0.001
|
|
MgHCO3+ 6.052e-07 5.444e-07 -6.218 -6.264 -0.046
|
|
MgSO4 2.249e-07 2.254e-07 -6.648 -6.647 0.001
|
|
MgOH+ 2.909e-08 2.616e-08 -7.536 -7.582 -0.046
|
|
Na 9.850e-03
|
|
Na+ 9.738e-03 8.769e-03 -2.012 -2.057 -0.045
|
|
NaCO3- 6.950e-05 6.252e-05 -4.158 -4.204 -0.046
|
|
NaHCO3 3.571e-05 3.580e-05 -4.447 -4.446 0.001
|
|
NaSO4- 7.331e-06 6.594e-06 -5.135 -5.181 -0.046
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -144.104 -144.150 -0.046
|
|
S5-2 0.000e+00 0.000e+00 -144.544 -144.694 -0.149
|
|
S4-2 0.000e+00 0.000e+00 -144.771 -144.928 -0.157
|
|
S6-2 0.000e+00 0.000e+00 -144.837 -144.980 -0.143
|
|
H2S 0.000e+00 0.000e+00 -146.260 -146.259 0.001
|
|
S-2 0.000e+00 0.000e+00 -147.833 -148.017 -0.184
|
|
S3-2 0.000e+00 0.000e+00 -148.215 -148.381 -0.165
|
|
S2-2 0.000e+00 0.000e+00 -149.454 -149.627 -0.172
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -316.805 -316.851 -0.046
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -950.407 -950.453 -0.046
|
|
S(6) 2.350e-04
|
|
SO4-2 2.272e-04 1.500e-04 -3.644 -3.824 -0.180
|
|
NaSO4- 7.331e-06 6.594e-06 -5.135 -5.181 -0.046
|
|
CaSO4 2.584e-07 2.590e-07 -6.588 -6.587 0.001
|
|
MgSO4 2.249e-07 2.254e-07 -6.648 -6.647 0.001
|
|
HSO4- 1.442e-11 1.297e-11 -10.841 -10.887 -0.046
|
|
CaHSO4+ 1.500e-15 1.349e-15 -14.824 -14.870 -0.046
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -4.53 -8.89 -4.36 CaSO4
|
|
Aragonite -0.14 -8.48 -8.34 CaCO3
|
|
Arsenolite -73.70 -75.08 -1.38 As2O3
|
|
Artinite -5.30 4.30 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -39.52 -31.29 8.23 As2O5
|
|
As2S3(am) -489.78 -534.68 -44.90 As2S3
|
|
As_native -86.87 -99.40 -12.53 As
|
|
Brucite -3.93 12.91 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -15.49 -34.39 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite 0.00 -8.48 -8.48 CaCO3
|
|
CH4(g) -142.57 -145.43 -2.86 CH4
|
|
Claudetite -73.74 -75.08 -1.34 As2O3
|
|
CO2(g) -3.37 -4.84 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -6.88 -9.02 -2.14 MgSO4:7H2O
|
|
Gypsum -4.31 -8.89 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -145.26 -146.26 -1.00 H2S
|
|
Halite -7.56 -5.98 1.58 NaCl
|
|
Huntite -4.34 -34.31 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -12.77 -21.53 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.58 -8.61 -8.03 MgCO3
|
|
Mirabilite -6.83 -7.94 -1.11 Na2SO4:10H2O
|
|
Nahcolite -3.65 -4.20 -0.55 NaHCO3
|
|
Natron -6.22 -7.53 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.99 -8.61 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -488.38 -534.68 -46.30 As2S3
|
|
Portlandite -9.76 13.04 22.80 Ca(OH)2
|
|
Realgar -191.42 -211.36 -19.94 AsS
|
|
Sulfur -109.85 -124.87 -15.03 S
|
|
Thenardite -7.76 -7.94 -0.18 Na2SO4
|
|
Thermonatrite -7.66 -7.53 0.12 Na2CO3:H2O
|
|
Trona -10.93 -11.73 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 21, cumulative pore volumes 21.000000.
|
|
Beginning of advection time step 22, cumulative pore volumes 22.000000.
|
|
Beginning of advection time step 23, cumulative pore volumes 23.000000.
|
|
Beginning of advection time step 24, cumulative pore volumes 24.000000.
|
|
Beginning of advection time step 25, cumulative pore volumes 25.000000.
|
|
Beginning of advection time step 26, cumulative pore volumes 26.000000.
|
|
Beginning of advection time step 27, cumulative pore volumes 27.000000.
|
|
Beginning of advection time step 28, cumulative pore volumes 28.000000.
|
|
Beginning of advection time step 29, cumulative pore volumes 29.000000.
|
|
Beginning of advection time step 30, cumulative pore volumes 30.000000.
|
|
Beginning of advection time step 31, cumulative pore volumes 31.000000.
|
|
Beginning of advection time step 32, cumulative pore volumes 32.000000.
|
|
Beginning of advection time step 33, cumulative pore volumes 33.000000.
|
|
Beginning of advection time step 34, cumulative pore volumes 34.000000.
|
|
Beginning of advection time step 35, cumulative pore volumes 35.000000.
|
|
Beginning of advection time step 36, cumulative pore volumes 36.000000.
|
|
Beginning of advection time step 37, cumulative pore volumes 37.000000.
|
|
Beginning of advection time step 38, cumulative pore volumes 38.000000.
|
|
Beginning of advection time step 39, cumulative pore volumes 39.000000.
|
|
Beginning of advection time step 40, cumulative pore volumes 40.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite 0.00 -8.48 -8.48 2.832e-02 2.720e-02 -1.117e-03
|
|
Dolomite 0.00 -17.09 -17.09 1.573e+00 1.573e+00 -5.221e-05
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
-1.480e-03 Surface charge, eq
|
|
-7.936e-03 sigma, C/m**2
|
|
-3.318e-02 psi, V
|
|
1.291e+00 -F*psi/RT
|
|
3.638e+00 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 5.308e-02 0.758 5.308e-02 -1.275
|
|
Hfo_wOH2+ 8.547e-03 0.122 8.548e-03 -2.068
|
|
Hfo_wO- 7.550e-03 0.108 7.551e-03 -2.122
|
|
Hfo_wOHAsO4-3 8.229e-04 0.012 8.229e-04 -3.085
|
|
Hfo_wOHSO4-2 3.772e-06 0.000 3.772e-06 -5.423
|
|
Hfo_wHAsO4- 4.779e-07 0.000 4.779e-07 -6.321
|
|
Hfo_wSO4- 3.045e-07 0.000 3.046e-07 -6.516
|
|
Hfo_wH2AsO4 2.490e-09 0.000 2.490e-09 -8.604
|
|
Hfo_wOCa+ 1.877e-12 0.000 1.877e-12 -11.727
|
|
Hfo_wOMg+ 1.390e-12 0.000 1.390e-12 -11.857
|
|
Hfo_wH2AsO3 5.152e-34 0.000 5.152e-34 -33.288
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
NaX 4.267e-01 4.267e-01 4.267e-01 -0.000
|
|
CaX2 1.954e-01 3.907e-01 3.907e-01 -0.000
|
|
MgX2 9.130e-02 1.826e-01 1.826e-01 -0.000
|
|
HX 1.203e-06 1.203e-06 1.203e-06 -0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 3.060e-08 3.059e-08
|
|
C 8.341e-03 8.341e-03
|
|
Ca 4.111e-05 4.111e-05
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 2.852e-05 2.851e-05
|
|
Na 8.966e-03 8.965e-03
|
|
S 2.347e-04 2.347e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 8.644 Charge balance
|
|
pe = 11.978 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.555e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 8.564e-03
|
|
Total CO2 (mol/kg) = 8.341e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -6.232e-05
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.34
|
|
Iterations = 11
|
|
Total H = 1.110124e+02
|
|
Total O = 5.552861e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 4.877e-06 4.408e-06 -5.312 -5.356 -0.044
|
|
H+ 2.481e-09 2.270e-09 -8.605 -8.644 -0.039
|
|
H2O 5.551e+01 9.997e-01 1.744 -0.000 0.000
|
|
As(3) 5.069e-38
|
|
H3AsO3 3.767e-38 3.775e-38 -37.424 -37.423 0.001
|
|
H2AsO3- 1.302e-38 1.177e-38 -37.885 -37.929 -0.044
|
|
HAsO3-2 0.000e+00 0.000e+00 -43.810 -43.985 -0.176
|
|
H4AsO3+ 0.000e+00 0.000e+00 -46.328 -46.372 -0.044
|
|
AsO3-3 0.000e+00 0.000e+00 -50.646 -51.041 -0.395
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -315.455 -315.499 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -945.541 -945.585 -0.044
|
|
As(5) 3.060e-08
|
|
HAsO4-2 2.983e-08 1.991e-08 -7.525 -7.701 -0.176
|
|
H2AsO4- 7.228e-10 6.533e-10 -9.141 -9.185 -0.044
|
|
AsO4-3 4.875e-11 1.963e-11 -10.312 -10.707 -0.395
|
|
H3AsO4 2.953e-16 2.959e-16 -15.530 -15.529 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -145.019 -145.018 0.001
|
|
C(4) 8.341e-03
|
|
HCO3- 8.013e-03 7.267e-03 -2.096 -2.139 -0.042
|
|
CO3-2 2.219e-04 1.501e-04 -3.654 -3.824 -0.170
|
|
CO2 3.702e-05 3.711e-05 -4.432 -4.431 0.001
|
|
NaHCO3 3.284e-05 3.292e-05 -4.484 -4.483 0.001
|
|
NaCO3- 2.491e-05 2.251e-05 -4.604 -4.648 -0.044
|
|
CaCO3 5.537e-06 5.550e-06 -5.257 -5.256 0.001
|
|
MgCO3 2.336e-06 2.341e-06 -5.631 -5.631 0.001
|
|
CaHCO3+ 2.263e-06 2.045e-06 -5.645 -5.689 -0.044
|
|
MgHCO3+ 1.538e-06 1.390e-06 -5.813 -5.857 -0.044
|
|
Ca 4.111e-05
|
|
Ca+2 3.264e-05 2.207e-05 -4.486 -4.656 -0.170
|
|
CaCO3 5.537e-06 5.550e-06 -5.257 -5.256 0.001
|
|
CaHCO3+ 2.263e-06 2.045e-06 -5.645 -5.689 -0.044
|
|
CaSO4 6.701e-07 6.716e-07 -6.174 -6.173 0.001
|
|
CaOH+ 1.784e-09 1.613e-09 -8.749 -8.792 -0.044
|
|
CaHSO4+ 9.883e-15 8.933e-15 -14.005 -14.049 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.207e-04 -3.874 -3.918 -0.045
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 2.852e-05
|
|
Mg+2 2.403e-05 1.635e-05 -4.619 -4.787 -0.167
|
|
MgCO3 2.336e-06 2.341e-06 -5.631 -5.631 0.001
|
|
MgHCO3+ 1.538e-06 1.390e-06 -5.813 -5.857 -0.044
|
|
MgSO4 5.832e-07 5.845e-07 -6.234 -6.233 0.001
|
|
MgOH+ 2.891e-08 2.613e-08 -7.539 -7.583 -0.044
|
|
Na 8.966e-03
|
|
Na+ 8.901e-03 8.054e-03 -2.051 -2.094 -0.043
|
|
NaHCO3 3.284e-05 3.292e-05 -4.484 -4.483 0.001
|
|
NaCO3- 2.491e-05 2.251e-05 -4.604 -4.648 -0.044
|
|
NaSO4- 6.812e-06 6.158e-06 -5.167 -5.211 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -143.691 -143.735 -0.044
|
|
S5-2 0.000e+00 0.000e+00 -144.543 -144.686 -0.144
|
|
S4-2 0.000e+00 0.000e+00 -144.770 -144.920 -0.151
|
|
S6-2 0.000e+00 0.000e+00 -144.835 -144.972 -0.137
|
|
H2S 0.000e+00 0.000e+00 -145.438 -145.438 0.001
|
|
S-2 0.000e+00 0.000e+00 -147.834 -148.009 -0.176
|
|
S3-2 0.000e+00 0.000e+00 -148.215 -148.373 -0.158
|
|
S2-2 0.000e+00 0.000e+00 -149.455 -149.619 -0.165
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -315.455 -315.499 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -945.541 -945.585 -0.044
|
|
S(6) 2.347e-04
|
|
SO4-2 2.266e-04 1.525e-04 -3.645 -3.817 -0.172
|
|
NaSO4- 6.812e-06 6.158e-06 -5.167 -5.211 -0.044
|
|
CaSO4 6.701e-07 6.716e-07 -6.174 -6.173 0.001
|
|
MgSO4 5.832e-07 5.845e-07 -6.234 -6.233 0.001
|
|
HSO4- 3.725e-11 3.367e-11 -10.429 -10.473 -0.044
|
|
CaHSO4+ 9.883e-15 8.933e-15 -14.005 -14.049 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -4.11 -8.47 -4.36 CaSO4
|
|
Aragonite -0.14 -8.48 -8.34 CaCO3
|
|
Arsenolite -73.47 -74.85 -1.38 As2O3
|
|
Artinite -5.71 3.89 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -39.29 -31.06 8.23 As2O5
|
|
As2S3(am) -487.08 -531.98 -44.90 As2S3
|
|
As_native -86.76 -99.29 -12.53 As
|
|
Brucite -4.34 12.50 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -16.48 -35.38 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite 0.00 -8.48 -8.48 CaCO3
|
|
CH4(g) -142.16 -145.02 -2.86 CH4
|
|
Claudetite -73.51 -74.85 -1.34 As2O3
|
|
CO2(g) -2.96 -4.43 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -6.46 -8.60 -2.14 MgSO4:7H2O
|
|
Gypsum -3.89 -8.47 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -144.44 -145.44 -1.00 H2S
|
|
Halite -7.59 -6.01 1.58 NaCl
|
|
Huntite -4.34 -34.31 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -13.18 -21.94 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.58 -8.61 -8.03 MgCO3
|
|
Mirabilite -6.89 -8.01 -1.11 Na2SO4:10H2O
|
|
Nahcolite -3.68 -4.23 -0.55 NaHCO3
|
|
Natron -6.70 -8.01 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.99 -8.61 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -485.68 -531.98 -46.30 As2S3
|
|
Portlandite -10.17 12.63 22.80 Ca(OH)2
|
|
Realgar -190.48 -210.42 -19.94 AsS
|
|
Sulfur -109.03 -124.05 -15.03 S
|
|
Thenardite -7.83 -8.00 -0.18 Na2SO4
|
|
Thermonatrite -8.14 -8.01 0.12 Na2CO3:H2O
|
|
Trona -11.45 -12.24 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 41, cumulative pore volumes 41.000000.
|
|
Beginning of advection time step 42, cumulative pore volumes 42.000000.
|
|
Beginning of advection time step 43, cumulative pore volumes 43.000000.
|
|
Beginning of advection time step 44, cumulative pore volumes 44.000000.
|
|
Beginning of advection time step 45, cumulative pore volumes 45.000000.
|
|
Beginning of advection time step 46, cumulative pore volumes 46.000000.
|
|
Beginning of advection time step 47, cumulative pore volumes 47.000000.
|
|
Beginning of advection time step 48, cumulative pore volumes 48.000000.
|
|
Beginning of advection time step 49, cumulative pore volumes 49.000000.
|
|
Beginning of advection time step 50, cumulative pore volumes 50.000000.
|
|
Beginning of advection time step 51, cumulative pore volumes 51.000000.
|
|
Beginning of advection time step 52, cumulative pore volumes 52.000000.
|
|
Beginning of advection time step 53, cumulative pore volumes 53.000000.
|
|
Beginning of advection time step 54, cumulative pore volumes 54.000000.
|
|
Beginning of advection time step 55, cumulative pore volumes 55.000000.
|
|
Beginning of advection time step 56, cumulative pore volumes 56.000000.
|
|
Beginning of advection time step 57, cumulative pore volumes 57.000000.
|
|
Beginning of advection time step 58, cumulative pore volumes 58.000000.
|
|
Beginning of advection time step 59, cumulative pore volumes 59.000000.
|
|
Beginning of advection time step 60, cumulative pore volumes 60.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite 0.00 -8.48 -8.48 7.030e-03 6.028e-03 -1.002e-03
|
|
Dolomite 0.00 -17.09 -17.09 1.573e+00 1.573e+00 1.267e-05
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
-2.886e-04 Surface charge, eq
|
|
-1.547e-03 sigma, C/m**2
|
|
-7.102e-03 psi, V
|
|
2.764e-01 -F*psi/RT
|
|
1.318e+00 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 5.296e-02 0.757 5.296e-02 -1.276
|
|
Hfo_wOH2+ 9.213e-03 0.132 9.213e-03 -2.036
|
|
Hfo_wO- 6.974e-03 0.100 6.975e-03 -2.156
|
|
Hfo_wOHAsO4-3 8.225e-04 0.012 8.226e-04 -3.085
|
|
Hfo_wOHSO4-2 2.832e-05 0.000 2.833e-05 -4.548
|
|
Hfo_wSO4- 2.470e-06 0.000 2.470e-06 -5.607
|
|
Hfo_wHAsO4- 5.574e-07 0.000 5.574e-07 -6.254
|
|
Hfo_wH2AsO4 3.138e-09 0.000 3.138e-09 -8.503
|
|
Hfo_wOCa+ 6.903e-13 0.000 6.904e-13 -12.161
|
|
Hfo_wOMg+ 5.113e-13 0.000 5.114e-13 -12.291
|
|
Hfo_wH2AsO3 6.492e-34 0.000 6.492e-34 -33.188
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
NaX 2.571e-01 2.571e-01 2.571e-01 -0.000
|
|
CaX2 2.531e-01 5.063e-01 5.063e-01 -0.000
|
|
MgX2 1.183e-01 2.366e-01 2.366e-01 -0.000
|
|
HX 2.343e-06 2.343e-06 2.343e-06 -0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 4.506e-09 4.505e-09
|
|
C 8.097e-03 8.096e-03
|
|
Ca 1.123e-04 1.123e-04
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 8.089e-05 8.089e-05
|
|
Na 8.229e-03 8.229e-03
|
|
S 2.318e-04 2.318e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 8.170 Charge balance
|
|
pe = 12.453 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.032e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 8.078e-03
|
|
Total CO2 (mol/kg) = 8.097e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -5.959e-05
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.35
|
|
Iterations = 11
|
|
Total H = 1.110124e+02
|
|
Total O = 5.552787e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.632e-06 1.479e-06 -5.787 -5.830 -0.043
|
|
H+ 7.382e-09 6.767e-09 -8.132 -8.170 -0.038
|
|
H2O 5.551e+01 9.997e-01 1.744 -0.000 0.000
|
|
As(3) 5.308e-38
|
|
H3AsO3 4.758e-38 4.768e-38 -37.323 -37.322 0.001
|
|
H2AsO3- 5.505e-39 4.988e-39 -38.259 -38.302 -0.043
|
|
HAsO3-2 0.000e+00 0.000e+00 -44.661 -44.832 -0.171
|
|
H4AsO3+ 0.000e+00 0.000e+00 -45.753 -45.796 -0.043
|
|
AsO3-3 0.000e+00 0.000e+00 -51.977 -52.363 -0.385
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -313.942 -313.985 -0.043
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -940.051 -940.093 -0.043
|
|
As(5) 4.506e-09
|
|
HAsO4-2 4.198e-09 2.830e-09 -8.377 -8.548 -0.171
|
|
H2AsO4- 3.055e-10 2.768e-10 -9.515 -9.558 -0.043
|
|
AsO4-3 2.274e-12 9.362e-13 -11.643 -12.029 -0.385
|
|
H3AsO4 3.729e-16 3.737e-16 -15.428 -15.427 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -144.551 -144.551 0.001
|
|
C(4) 8.097e-03
|
|
HCO3- 7.859e-03 7.144e-03 -2.105 -2.146 -0.041
|
|
CO2 1.085e-04 1.087e-04 -3.965 -3.964 0.001
|
|
CO3-2 7.251e-05 4.951e-05 -4.140 -4.305 -0.166
|
|
NaHCO3 2.977e-05 2.983e-05 -4.526 -4.525 0.001
|
|
NaCO3- 7.555e-06 6.846e-06 -5.122 -5.165 -0.043
|
|
CaHCO3+ 6.728e-06 6.097e-06 -5.172 -5.215 -0.043
|
|
CaCO3 5.538e-06 5.550e-06 -5.257 -5.256 0.001
|
|
MgHCO3+ 4.572e-06 4.143e-06 -5.340 -5.383 -0.043
|
|
MgCO3 2.337e-06 2.341e-06 -5.631 -5.631 0.001
|
|
Ca 1.123e-04
|
|
Ca+2 9.805e-05 6.691e-05 -4.009 -4.175 -0.166
|
|
CaHCO3+ 6.728e-06 6.097e-06 -5.172 -5.215 -0.043
|
|
CaCO3 5.538e-06 5.550e-06 -5.257 -5.256 0.001
|
|
CaSO4 2.008e-06 2.013e-06 -5.697 -5.696 0.001
|
|
CaOH+ 1.810e-09 1.640e-09 -8.742 -8.785 -0.043
|
|
CaHSO4+ 8.806e-14 7.979e-14 -13.055 -13.098 -0.043
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.210e-04 -3.874 -3.917 -0.044
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 8.089e-05
|
|
Mg+2 7.221e-05 4.956e-05 -4.141 -4.305 -0.163
|
|
MgHCO3+ 4.572e-06 4.143e-06 -5.340 -5.383 -0.043
|
|
MgCO3 2.337e-06 2.341e-06 -5.631 -5.631 0.001
|
|
MgSO4 1.748e-06 1.752e-06 -5.757 -5.757 0.001
|
|
MgOH+ 2.934e-08 2.658e-08 -7.533 -7.575 -0.043
|
|
Na 8.229e-03
|
|
Na+ 8.186e-03 7.425e-03 -2.087 -2.129 -0.042
|
|
NaHCO3 2.977e-05 2.983e-05 -4.526 -4.525 0.001
|
|
NaCO3- 7.555e-06 6.846e-06 -5.122 -5.165 -0.043
|
|
NaSO4- 6.192e-06 5.611e-06 -5.208 -5.251 -0.043
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.561e-04 -3.592 -3.592 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -143.223 -143.266 -0.043
|
|
H2S 0.000e+00 0.000e+00 -144.495 -144.494 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.550 -144.691 -0.141
|
|
S4-2 0.000e+00 0.000e+00 -144.778 -144.925 -0.148
|
|
S6-2 0.000e+00 0.000e+00 -144.843 -144.977 -0.135
|
|
S-2 0.000e+00 0.000e+00 -147.843 -148.014 -0.171
|
|
S3-2 0.000e+00 0.000e+00 -148.223 -148.378 -0.155
|
|
S2-2 0.000e+00 0.000e+00 -149.463 -149.624 -0.161
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -313.942 -313.985 -0.043
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -940.051 -940.093 -0.043
|
|
S(6) 2.318e-04
|
|
SO4-2 2.219e-04 1.508e-04 -3.654 -3.822 -0.168
|
|
NaSO4- 6.192e-06 5.611e-06 -5.208 -5.251 -0.043
|
|
CaSO4 2.008e-06 2.013e-06 -5.697 -5.696 0.001
|
|
MgSO4 1.748e-06 1.752e-06 -5.757 -5.757 0.001
|
|
HSO4- 1.095e-10 9.919e-11 -9.961 -10.004 -0.043
|
|
CaHSO4+ 8.806e-14 7.979e-14 -13.055 -13.098 -0.043
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -3.64 -8.00 -4.36 CaSO4
|
|
Aragonite -0.14 -8.48 -8.34 CaCO3
|
|
Arsenolite -73.26 -74.64 -1.38 As2O3
|
|
Artinite -6.18 3.42 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -39.08 -30.85 8.23 As2O5
|
|
As2S3(am) -484.05 -528.95 -44.90 As2S3
|
|
As_native -86.66 -99.19 -12.53 As
|
|
Brucite -4.81 12.03 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -17.68 -36.58 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite 0.00 -8.48 -8.48 CaCO3
|
|
CH4(g) -141.69 -144.55 -2.86 CH4
|
|
Claudetite -73.30 -74.64 -1.34 As2O3
|
|
CO2(g) -2.50 -3.96 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -5.99 -8.13 -2.14 MgSO4:7H2O
|
|
Gypsum -3.42 -8.00 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -143.50 -144.49 -1.00 H2S
|
|
Halite -7.63 -6.05 1.58 NaCl
|
|
Huntite -4.34 -34.31 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -13.65 -22.41 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.58 -8.61 -8.03 MgCO3
|
|
Mirabilite -6.97 -8.08 -1.11 Na2SO4:10H2O
|
|
Nahcolite -3.73 -4.28 -0.55 NaHCO3
|
|
Natron -7.25 -8.57 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.99 -8.61 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -482.65 -528.95 -46.30 As2S3
|
|
Portlandite -10.64 12.16 22.80 Ca(OH)2
|
|
Realgar -189.44 -209.38 -19.94 AsS
|
|
Sulfur -108.08 -123.11 -15.03 S
|
|
Thenardite -7.90 -8.08 -0.18 Na2SO4
|
|
Thermonatrite -8.69 -8.56 0.12 Na2CO3:H2O
|
|
Trona -12.04 -12.84 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 61, cumulative pore volumes 61.000000.
|
|
Beginning of advection time step 62, cumulative pore volumes 62.000000.
|
|
Beginning of advection time step 63, cumulative pore volumes 63.000000.
|
|
Beginning of advection time step 64, cumulative pore volumes 64.000000.
|
|
Beginning of advection time step 65, cumulative pore volumes 65.000000.
|
|
Beginning of advection time step 66, cumulative pore volumes 66.000000.
|
|
Beginning of advection time step 67, cumulative pore volumes 67.000000.
|
|
Beginning of advection time step 68, cumulative pore volumes 68.000000.
|
|
Beginning of advection time step 69, cumulative pore volumes 69.000000.
|
|
Beginning of advection time step 70, cumulative pore volumes 70.000000.
|
|
Beginning of advection time step 71, cumulative pore volumes 71.000000.
|
|
Beginning of advection time step 72, cumulative pore volumes 72.000000.
|
|
Beginning of advection time step 73, cumulative pore volumes 73.000000.
|
|
Beginning of advection time step 74, cumulative pore volumes 74.000000.
|
|
Beginning of advection time step 75, cumulative pore volumes 75.000000.
|
|
Beginning of advection time step 76, cumulative pore volumes 76.000000.
|
|
Beginning of advection time step 77, cumulative pore volumes 77.000000.
|
|
Beginning of advection time step 78, cumulative pore volumes 78.000000.
|
|
Beginning of advection time step 79, cumulative pore volumes 79.000000.
|
|
Beginning of advection time step 80, cumulative pore volumes 80.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.01 -8.49 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite -0.00 -17.09 -17.09 1.568e+00 1.568e+00 -3.004e-04
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
9.677e-04 Surface charge, eq
|
|
5.188e-03 sigma, C/m**2
|
|
2.356e-02 psi, V
|
|
-9.170e-01 -F*psi/RT
|
|
3.997e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 5.250e-02 0.750 5.251e-02 -1.280
|
|
Hfo_wOH2+ 1.019e-02 0.146 1.019e-02 -1.992
|
|
Hfo_wO- 6.199e-03 0.089 6.199e-03 -2.208
|
|
Hfo_wOHAsO4-3 8.223e-04 0.012 8.224e-04 -3.085
|
|
Hfo_wOHSO4-2 2.636e-04 0.004 2.636e-04 -3.579
|
|
Hfo_wSO4- 2.564e-05 0.000 2.564e-05 -4.591
|
|
Hfo_wHAsO4- 6.933e-07 0.000 6.933e-07 -6.159
|
|
Hfo_wH2AsO4 4.353e-09 0.000 4.353e-09 -8.361
|
|
Hfo_wOCa+ 2.176e-13 0.000 2.176e-13 -12.662
|
|
Hfo_wOMg+ 1.711e-13 0.000 1.712e-13 -12.767
|
|
Hfo_wH2AsO3 9.007e-34 0.000 9.007e-34 -33.045
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 2.972e-01 5.944e-01 5.944e-01 0.000
|
|
MgX2 1.475e-01 2.950e-01 2.950e-01 0.000
|
|
NaX 1.106e-01 1.106e-01 1.106e-01 0.000
|
|
HX 4.756e-06 4.756e-06 4.756e-06 0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 5.470e-10 5.469e-10
|
|
C 7.720e-03 7.720e-03
|
|
Ca 4.118e-04 4.117e-04
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 3.198e-04 3.198e-04
|
|
Na 6.400e-03 6.399e-03
|
|
S 2.072e-04 2.072e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.604 Charge balance
|
|
pe = 13.018 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 8.663e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 7.379e-03
|
|
Total CO2 (mol/kg) = 7.720e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -6.390e-05
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.41
|
|
Iterations = 12
|
|
Total H = 1.110123e+02
|
|
Total O = 5.552664e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 4.429e-07 4.020e-07 -6.354 -6.396 -0.042
|
|
H+ 2.712e-08 2.490e-08 -7.567 -7.604 -0.037
|
|
H2O 5.551e+01 9.997e-01 1.744 -0.000 0.000
|
|
As(3) 6.868e-38
|
|
H3AsO3 6.659e-38 6.672e-38 -37.177 -37.176 0.001
|
|
H2AsO3- 2.090e-39 1.897e-39 -38.680 -38.722 -0.042
|
|
H4AsO3+ 0.000e+00 0.000e+00 -45.043 -45.085 -0.042
|
|
HAsO3-2 0.000e+00 0.000e+00 -45.650 -45.818 -0.168
|
|
AsO3-3 0.000e+00 0.000e+00 -53.536 -53.914 -0.378
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -312.228 -312.270 -0.042
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -933.774 -933.816 -0.042
|
|
As(5) 5.470e-10
|
|
HAsO4-2 4.309e-10 2.926e-10 -9.366 -9.534 -0.168
|
|
H2AsO4- 1.160e-10 1.053e-10 -9.936 -9.978 -0.042
|
|
AsO4-3 6.288e-14 2.631e-14 -13.202 -13.580 -0.378
|
|
H3AsO4 5.219e-16 5.230e-16 -15.282 -15.282 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -144.019 -144.018 0.001
|
|
C(4) 7.720e-03
|
|
HCO3- 7.261e-03 6.611e-03 -2.139 -2.180 -0.041
|
|
CO2 3.694e-04 3.702e-04 -3.432 -3.432 0.001
|
|
CaHCO3+ 2.398e-05 2.177e-05 -4.620 -4.662 -0.042
|
|
NaHCO3 2.149e-05 2.153e-05 -4.668 -4.667 0.001
|
|
CO3-2 1.812e-05 1.245e-05 -4.742 -4.905 -0.163
|
|
MgHCO3+ 1.730e-05 1.571e-05 -4.762 -4.804 -0.042
|
|
CaCO3 5.375e-06 5.385e-06 -5.270 -5.269 0.001
|
|
MgCO3 2.408e-06 2.413e-06 -5.618 -5.617 0.001
|
|
NaCO3- 1.479e-06 1.343e-06 -5.830 -5.872 -0.042
|
|
Ca 4.118e-04
|
|
Ca+2 3.757e-04 2.581e-04 -3.425 -3.588 -0.163
|
|
CaHCO3+ 2.398e-05 2.177e-05 -4.620 -4.662 -0.042
|
|
CaSO4 6.687e-06 6.700e-06 -5.175 -5.174 0.001
|
|
CaCO3 5.375e-06 5.385e-06 -5.270 -5.269 0.001
|
|
CaOH+ 1.895e-09 1.720e-09 -8.722 -8.764 -0.042
|
|
CaHSO4+ 1.077e-12 9.772e-13 -11.968 -12.010 -0.042
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.212e-04 -3.874 -3.917 -0.043
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 3.198e-04
|
|
Mg+2 2.939e-04 2.030e-04 -3.532 -3.692 -0.161
|
|
MgHCO3+ 1.730e-05 1.571e-05 -4.762 -4.804 -0.042
|
|
MgSO4 6.180e-06 6.192e-06 -5.209 -5.208 0.001
|
|
MgCO3 2.408e-06 2.413e-06 -5.618 -5.617 0.001
|
|
MgOH+ 3.261e-08 2.960e-08 -7.487 -7.529 -0.042
|
|
Na 6.400e-03
|
|
Na+ 6.373e-03 5.791e-03 -2.196 -2.237 -0.042
|
|
NaHCO3 2.149e-05 2.153e-05 -4.668 -4.667 0.001
|
|
NaSO4- 4.160e-06 3.776e-06 -5.381 -5.423 -0.042
|
|
NaCO3- 1.479e-06 1.343e-06 -5.830 -5.872 -0.042
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.561e-04 -3.592 -3.592 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.722 -142.764 -0.042
|
|
H2S 0.000e+00 0.000e+00 -143.427 -143.426 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.617 -144.755 -0.139
|
|
S4-2 0.000e+00 0.000e+00 -144.844 -144.989 -0.145
|
|
S6-2 0.000e+00 0.000e+00 -144.908 -145.041 -0.133
|
|
S-2 0.000e+00 0.000e+00 -147.910 -148.078 -0.168
|
|
S3-2 0.000e+00 0.000e+00 -148.290 -148.442 -0.152
|
|
S2-2 0.000e+00 0.000e+00 -149.530 -149.688 -0.158
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -312.228 -312.270 -0.042
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -933.774 -933.816 -0.042
|
|
S(6) 2.072e-04
|
|
SO4-2 1.902e-04 1.301e-04 -3.721 -3.886 -0.165
|
|
CaSO4 6.687e-06 6.700e-06 -5.175 -5.174 0.001
|
|
MgSO4 6.180e-06 6.192e-06 -5.209 -5.208 0.001
|
|
NaSO4- 4.160e-06 3.776e-06 -5.381 -5.423 -0.042
|
|
HSO4- 3.469e-10 3.149e-10 -9.460 -9.502 -0.042
|
|
CaHSO4+ 1.077e-12 9.772e-13 -11.968 -12.010 -0.042
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -3.11 -7.47 -4.36 CaSO4
|
|
Aragonite -0.16 -8.49 -8.34 CaCO3
|
|
Arsenolite -72.97 -74.35 -1.38 As2O3
|
|
Artinite -6.68 2.92 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -38.79 -30.56 8.23 As2O5
|
|
As2S3(am) -480.55 -525.45 -44.90 As2S3
|
|
As_native -86.51 -99.04 -12.53 As
|
|
Brucite -5.32 11.52 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.02 -37.92 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.01 -8.49 -8.48 CaCO3
|
|
CH4(g) -141.16 -144.02 -2.86 CH4
|
|
Claudetite -73.01 -74.35 -1.34 As2O3
|
|
CO2(g) -1.96 -3.43 -1.47 CO2
|
|
Dolomite -0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -5.44 -7.58 -2.14 MgSO4:7H2O
|
|
Gypsum -2.89 -7.47 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -142.43 -143.43 -1.00 H2S
|
|
Halite -7.74 -6.15 1.58 NaCl
|
|
Huntite -4.32 -34.28 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.11 -22.87 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.57 -8.60 -8.03 MgCO3
|
|
Mirabilite -7.25 -8.36 -1.11 Na2SO4:10H2O
|
|
Nahcolite -3.87 -4.42 -0.55 NaHCO3
|
|
Natron -8.07 -9.38 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.98 -8.60 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -479.15 -525.45 -46.30 As2S3
|
|
Portlandite -11.18 11.62 22.80 Ca(OH)2
|
|
Realgar -188.22 -208.17 -19.94 AsS
|
|
Sulfur -107.02 -122.04 -15.03 S
|
|
Thenardite -8.18 -8.36 -0.18 Na2SO4
|
|
Thermonatrite -9.50 -9.38 0.12 Na2CO3:H2O
|
|
Trona -13.00 -13.80 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 81, cumulative pore volumes 81.000000.
|
|
Beginning of advection time step 82, cumulative pore volumes 82.000000.
|
|
Beginning of advection time step 83, cumulative pore volumes 83.000000.
|
|
Beginning of advection time step 84, cumulative pore volumes 84.000000.
|
|
Beginning of advection time step 85, cumulative pore volumes 85.000000.
|
|
Beginning of advection time step 86, cumulative pore volumes 86.000000.
|
|
Beginning of advection time step 87, cumulative pore volumes 87.000000.
|
|
Beginning of advection time step 88, cumulative pore volumes 88.000000.
|
|
Beginning of advection time step 89, cumulative pore volumes 89.000000.
|
|
Beginning of advection time step 90, cumulative pore volumes 90.000000.
|
|
Beginning of advection time step 91, cumulative pore volumes 91.000000.
|
|
Beginning of advection time step 92, cumulative pore volumes 92.000000.
|
|
Beginning of advection time step 93, cumulative pore volumes 93.000000.
|
|
Beginning of advection time step 94, cumulative pore volumes 94.000000.
|
|
Beginning of advection time step 95, cumulative pore volumes 95.000000.
|
|
Beginning of advection time step 96, cumulative pore volumes 96.000000.
|
|
Beginning of advection time step 97, cumulative pore volumes 97.000000.
|
|
Beginning of advection time step 98, cumulative pore volumes 98.000000.
|
|
Beginning of advection time step 99, cumulative pore volumes 99.000000.
|
|
Beginning of advection time step 100, cumulative pore volumes 100.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.02 -8.50 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite -0.00 -17.09 -17.09 1.565e+00 1.565e+00 -5.456e-05
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
2.005e-03 Surface charge, eq
|
|
1.075e-02 sigma, C/m**2
|
|
4.415e-02 psi, V
|
|
-1.719e+00 -F*psi/RT
|
|
1.793e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 5.116e-02 0.731 5.116e-02 -1.291
|
|
Hfo_wOH2+ 1.176e-02 0.168 1.177e-02 -1.929
|
|
Hfo_wO- 5.096e-03 0.073 5.097e-03 -2.293
|
|
Hfo_wOHSO4-2 1.038e-03 0.015 1.038e-03 -2.984
|
|
Hfo_wOHAsO4-3 8.220e-04 0.012 8.221e-04 -3.085
|
|
Hfo_wSO4- 1.197e-04 0.002 1.197e-04 -3.922
|
|
Hfo_wHAsO4- 9.734e-07 0.000 9.735e-07 -6.012
|
|
Hfo_wH2AsO4 7.244e-09 0.000 7.244e-09 -8.140
|
|
Hfo_wOCa+ 1.086e-13 0.000 1.086e-13 -12.964
|
|
Hfo_wOMg+ 8.842e-14 0.000 8.843e-14 -13.053
|
|
Hfo_wH2AsO3 1.499e-33 0.000 1.499e-33 -32.824
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 3.218e-01 6.437e-01 6.437e-01 0.000
|
|
MgX2 1.654e-01 3.308e-01 3.308e-01 0.000
|
|
NaX 2.548e-02 2.548e-02 2.548e-02 0.000
|
|
HX 7.530e-06 7.530e-06 7.530e-06 0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.811e-10 1.810e-10
|
|
C 7.229e-03 7.228e-03
|
|
Ca 1.222e-03 1.222e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 9.867e-04 9.866e-04
|
|
Na 2.461e-03 2.461e-03
|
|
S 1.889e-04 1.888e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.182 Charge balance
|
|
pe = 13.440 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 8.921e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.402e-03
|
|
Total CO2 (mol/kg) = 7.229e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -3.426e-05
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.26
|
|
Iterations = 9
|
|
Total H = 1.110123e+02
|
|
Total O = 5.552510e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.678e-07 1.522e-07 -6.775 -6.818 -0.043
|
|
H+ 7.172e-08 6.577e-08 -7.144 -7.182 -0.038
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
As(3) 1.151e-37
|
|
H3AsO3 1.137e-37 1.140e-37 -36.944 -36.943 0.001
|
|
H2AsO3- 1.353e-39 1.227e-39 -38.869 -38.911 -0.043
|
|
H4AsO3+ 0.000e+00 0.000e+00 -44.388 -44.430 -0.043
|
|
HAsO3-2 0.000e+00 0.000e+00 -46.259 -46.429 -0.170
|
|
AsO3-3 0.000e+00 0.000e+00 -54.564 -54.947 -0.383
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.908 -310.951 -0.043
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -928.973 -929.016 -0.043
|
|
As(5) 1.811e-10
|
|
HAsO4-2 1.060e-10 7.159e-11 -9.975 -10.145 -0.170
|
|
H2AsO4- 7.507e-11 6.806e-11 -10.125 -10.167 -0.043
|
|
AsO4-3 5.890e-15 2.437e-15 -14.230 -14.613 -0.383
|
|
H3AsO4 8.914e-16 8.932e-16 -15.050 -15.049 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.662 -143.662 0.001
|
|
C(4) 7.229e-03
|
|
HCO3- 6.259e-03 5.692e-03 -2.204 -2.245 -0.041
|
|
CO2 8.402e-04 8.419e-04 -3.076 -3.075 0.001
|
|
CaHCO3+ 6.233e-05 5.651e-05 -4.205 -4.248 -0.043
|
|
MgHCO3+ 4.658e-05 4.223e-05 -4.332 -4.374 -0.043
|
|
NaHCO3 7.110e-06 7.125e-06 -5.148 -5.147 0.001
|
|
CO3-2 5.932e-06 4.058e-06 -5.227 -5.392 -0.165
|
|
CaCO3 5.281e-06 5.292e-06 -5.277 -5.276 0.001
|
|
MgCO3 2.450e-06 2.455e-06 -5.611 -5.610 0.001
|
|
NaCO3- 1.856e-07 1.682e-07 -6.732 -6.774 -0.043
|
|
Ca 1.222e-03
|
|
Ca+2 1.138e-03 7.784e-04 -2.944 -3.109 -0.165
|
|
CaHCO3+ 6.233e-05 5.651e-05 -4.205 -4.248 -0.043
|
|
CaSO4 1.640e-05 1.644e-05 -4.785 -4.784 0.001
|
|
CaCO3 5.281e-06 5.292e-06 -5.277 -5.276 0.001
|
|
CaOH+ 2.166e-09 1.964e-09 -8.664 -8.707 -0.043
|
|
CaHSO4+ 6.986e-12 6.334e-12 -11.156 -11.198 -0.043
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.210e-04 -3.874 -3.917 -0.043
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 9.867e-04
|
|
Mg+2 9.219e-04 6.340e-04 -3.035 -3.198 -0.163
|
|
MgHCO3+ 4.658e-05 4.223e-05 -4.332 -4.374 -0.043
|
|
MgSO4 1.570e-05 1.573e-05 -4.804 -4.803 0.001
|
|
MgCO3 2.450e-06 2.455e-06 -5.611 -5.610 0.001
|
|
MgOH+ 3.860e-08 3.499e-08 -7.413 -7.456 -0.043
|
|
Na 2.461e-03
|
|
Na+ 2.453e-03 2.226e-03 -2.610 -2.652 -0.042
|
|
NaHCO3 7.110e-06 7.125e-06 -5.148 -5.147 0.001
|
|
NaSO4- 1.302e-06 1.181e-06 -5.885 -5.928 -0.043
|
|
NaCO3- 1.856e-07 1.682e-07 -6.732 -6.774 -0.043
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.561e-04 -3.592 -3.592 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.389 -142.432 -0.043
|
|
H2S 0.000e+00 0.000e+00 -142.673 -142.672 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.705 -144.845 -0.140
|
|
S4-2 0.000e+00 0.000e+00 -144.932 -145.079 -0.147
|
|
S6-2 0.000e+00 0.000e+00 -144.997 -145.131 -0.134
|
|
S-2 0.000e+00 0.000e+00 -147.998 -148.168 -0.170
|
|
S3-2 0.000e+00 0.000e+00 -148.378 -148.532 -0.154
|
|
S2-2 0.000e+00 0.000e+00 -149.618 -149.778 -0.160
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.908 -310.951 -0.043
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -928.973 -929.016 -0.043
|
|
S(6) 1.889e-04
|
|
SO4-2 1.554e-04 1.058e-04 -3.808 -3.975 -0.167
|
|
CaSO4 1.640e-05 1.644e-05 -4.785 -4.784 0.001
|
|
MgSO4 1.570e-05 1.573e-05 -4.804 -4.803 0.001
|
|
NaSO4- 1.302e-06 1.181e-06 -5.885 -5.928 -0.043
|
|
HSO4- 7.465e-10 6.768e-10 -9.127 -9.170 -0.043
|
|
CaHSO4+ 6.986e-12 6.334e-12 -11.156 -11.198 -0.043
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.72 -7.08 -4.36 CaSO4
|
|
Aragonite -0.16 -8.50 -8.34 CaCO3
|
|
Arsenolite -72.51 -73.89 -1.38 As2O3
|
|
Artinite -7.02 2.58 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -38.33 -30.10 8.23 As2O5
|
|
As2S3(am) -477.83 -522.73 -44.90 As2S3
|
|
As_native -86.28 -98.81 -12.53 As
|
|
Brucite -5.67 11.17 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.65 -38.55 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.02 -8.50 -8.48 CaCO3
|
|
CH4(g) -140.80 -143.66 -2.86 CH4
|
|
Claudetite -72.55 -73.89 -1.34 As2O3
|
|
CO2(g) -1.61 -3.07 -1.47 CO2
|
|
Dolomite -0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -5.03 -7.17 -2.14 MgSO4:7H2O
|
|
Gypsum -2.50 -7.08 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.68 -142.67 -1.00 H2S
|
|
Halite -8.15 -6.57 1.58 NaCl
|
|
Huntite -4.30 -34.27 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.43 -23.19 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.56 -8.59 -8.03 MgCO3
|
|
Mirabilite -8.17 -9.28 -1.11 Na2SO4:10H2O
|
|
Nahcolite -4.35 -4.90 -0.55 NaHCO3
|
|
Natron -9.39 -10.70 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.97 -8.59 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -476.43 -522.73 -46.30 As2S3
|
|
Portlandite -11.55 11.25 22.80 Ca(OH)2
|
|
Realgar -187.23 -207.18 -19.94 AsS
|
|
Sulfur -106.26 -121.29 -15.03 S
|
|
Thenardite -9.10 -9.28 -0.18 Na2SO4
|
|
Thermonatrite -10.82 -10.70 0.12 Na2CO3:H2O
|
|
Trona -14.80 -15.59 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 101, cumulative pore volumes 101.000000.
|
|
Beginning of advection time step 102, cumulative pore volumes 102.000000.
|
|
Beginning of advection time step 103, cumulative pore volumes 103.000000.
|
|
Beginning of advection time step 104, cumulative pore volumes 104.000000.
|
|
Beginning of advection time step 105, cumulative pore volumes 105.000000.
|
|
Beginning of advection time step 106, cumulative pore volumes 106.000000.
|
|
Beginning of advection time step 107, cumulative pore volumes 107.000000.
|
|
Beginning of advection time step 108, cumulative pore volumes 108.000000.
|
|
Beginning of advection time step 109, cumulative pore volumes 109.000000.
|
|
Beginning of advection time step 110, cumulative pore volumes 110.000000.
|
|
Beginning of advection time step 111, cumulative pore volumes 111.000000.
|
|
Beginning of advection time step 112, cumulative pore volumes 112.000000.
|
|
Beginning of advection time step 113, cumulative pore volumes 113.000000.
|
|
Beginning of advection time step 114, cumulative pore volumes 114.000000.
|
|
Beginning of advection time step 115, cumulative pore volumes 115.000000.
|
|
Beginning of advection time step 116, cumulative pore volumes 116.000000.
|
|
Beginning of advection time step 117, cumulative pore volumes 117.000000.
|
|
Beginning of advection time step 118, cumulative pore volumes 118.000000.
|
|
Beginning of advection time step 119, cumulative pore volumes 119.000000.
|
|
Beginning of advection time step 120, cumulative pore volumes 120.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.02 -8.50 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite 0.00 -17.09 -17.09 1.565e+00 1.565e+00 1.153e-06
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
2.333e-03 Surface charge, eq
|
|
1.251e-02 sigma, C/m**2
|
|
4.866e-02 psi, V
|
|
-1.894e+00 -F*psi/RT
|
|
1.505e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 5.018e-02 0.717 5.018e-02 -1.299
|
|
Hfo_wOH2+ 1.268e-02 0.181 1.268e-02 -1.897
|
|
Hfo_wO- 4.548e-03 0.065 4.548e-03 -2.342
|
|
Hfo_wOHSO4-2 1.569e-03 0.022 1.569e-03 -2.804
|
|
Hfo_wOHAsO4-3 8.218e-04 0.012 8.219e-04 -3.085
|
|
Hfo_wSO4- 1.988e-04 0.003 1.988e-04 -3.702
|
|
Hfo_wHAsO4- 1.176e-06 0.000 1.176e-06 -5.930
|
|
Hfo_wH2AsO4 9.617e-09 0.000 9.618e-09 -8.017
|
|
Hfo_wOCa+ 9.482e-14 0.000 9.482e-14 -13.023
|
|
Hfo_wOMg+ 7.699e-14 0.000 7.699e-14 -13.114
|
|
Hfo_wH2AsO3 1.990e-33 0.000 1.990e-33 -32.701
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 3.292e-01 6.584e-01 6.584e-01 -0.000
|
|
MgX2 1.687e-01 3.373e-01 3.373e-01 -0.000
|
|
NaX 4.301e-03 4.301e-03 4.301e-03 -0.000
|
|
HX 8.461e-06 8.461e-06 8.461e-06 -0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.623e-10 1.623e-10
|
|
C 7.117e-03 7.117e-03
|
|
Ca 1.709e-03 1.709e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.376e-03 1.376e-03
|
|
Na 4.854e-04 4.853e-04
|
|
S 2.190e-04 2.189e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.065 Charge balance
|
|
pe = 13.557 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.464e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.091e-03
|
|
Total CO2 (mol/kg) = 7.117e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -5.811e-06
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.05
|
|
Iterations = 10
|
|
Total H = 1.110124e+02
|
|
Total O = 5.552488e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.285e-07 1.162e-07 -6.891 -6.935 -0.044
|
|
H+ 9.412e-08 8.614e-08 -7.026 -7.065 -0.038
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
As(3) 1.553e-37
|
|
H3AsO3 1.539e-37 1.542e-37 -36.813 -36.812 0.001
|
|
H2AsO3- 1.402e-39 1.268e-39 -38.853 -38.897 -0.044
|
|
H4AsO3+ 0.000e+00 0.000e+00 -44.138 -44.182 -0.044
|
|
HAsO3-2 0.000e+00 0.000e+00 -46.357 -46.532 -0.175
|
|
AsO3-3 0.000e+00 0.000e+00 -54.774 -55.167 -0.393
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.353 -310.397 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -927.077 -927.121 -0.044
|
|
As(5) 1.623e-10
|
|
HAsO4-2 8.450e-11 5.650e-11 -10.073 -10.248 -0.175
|
|
H2AsO4- 7.779e-11 7.035e-11 -10.109 -10.153 -0.044
|
|
AsO4-3 3.632e-15 1.468e-15 -14.440 -14.833 -0.393
|
|
H3AsO4 1.206e-15 1.209e-15 -14.918 -14.918 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.570 -143.570 0.001
|
|
C(4) 7.117e-03
|
|
HCO3- 5.922e-03 5.373e-03 -2.228 -2.270 -0.042
|
|
CO2 1.039e-03 1.041e-03 -2.984 -2.983 0.001
|
|
CaHCO3+ 8.197e-05 7.412e-05 -4.086 -4.130 -0.044
|
|
MgHCO3+ 6.106e-05 5.522e-05 -4.214 -4.258 -0.044
|
|
CaCO3 5.289e-06 5.300e-06 -5.277 -5.276 0.001
|
|
CO3-2 4.317e-06 2.925e-06 -5.365 -5.534 -0.169
|
|
MgCO3 2.446e-06 2.452e-06 -5.612 -5.611 0.001
|
|
NaHCO3 1.320e-06 1.323e-06 -5.879 -5.878 0.001
|
|
NaCO3- 2.638e-08 2.385e-08 -7.579 -7.622 -0.044
|
|
Ca 1.709e-03
|
|
Ca+2 1.597e-03 1.082e-03 -2.797 -2.966 -0.169
|
|
CaHCO3+ 8.197e-05 7.412e-05 -4.086 -4.130 -0.044
|
|
CaSO4 2.473e-05 2.478e-05 -4.607 -4.606 0.001
|
|
CaCO3 5.289e-06 5.300e-06 -5.277 -5.276 0.001
|
|
CaOH+ 2.304e-09 2.083e-09 -8.638 -8.681 -0.044
|
|
CaHSO4+ 1.383e-11 1.251e-11 -10.859 -10.903 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.207e-04 -3.874 -3.918 -0.044
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 1.376e-03
|
|
Mg+2 1.289e-03 8.783e-04 -2.890 -3.056 -0.167
|
|
MgHCO3+ 6.106e-05 5.522e-05 -4.214 -4.258 -0.044
|
|
MgSO4 2.359e-05 2.364e-05 -4.627 -4.626 0.001
|
|
MgCO3 2.446e-06 2.452e-06 -5.612 -5.611 0.001
|
|
MgOH+ 4.093e-08 3.701e-08 -7.388 -7.432 -0.044
|
|
Na 4.854e-04
|
|
Na+ 4.837e-04 4.379e-04 -3.315 -3.359 -0.043
|
|
NaHCO3 1.320e-06 1.323e-06 -5.879 -5.878 0.001
|
|
NaSO4- 2.787e-07 2.520e-07 -6.555 -6.599 -0.044
|
|
NaCO3- 2.638e-08 2.385e-08 -7.579 -7.622 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.236 -142.279 -0.044
|
|
H2S 0.000e+00 0.000e+00 -142.403 -142.402 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.666 -144.810 -0.143
|
|
S4-2 0.000e+00 0.000e+00 -144.893 -145.044 -0.150
|
|
S6-2 0.000e+00 0.000e+00 -144.959 -145.096 -0.137
|
|
S-2 0.000e+00 0.000e+00 -147.958 -148.133 -0.175
|
|
S3-2 0.000e+00 0.000e+00 -148.339 -148.497 -0.158
|
|
S2-2 0.000e+00 0.000e+00 -149.578 -149.743 -0.164
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.353 -310.397 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -927.077 -927.121 -0.044
|
|
S(6) 2.190e-04
|
|
SO4-2 1.704e-04 1.148e-04 -3.769 -3.940 -0.171
|
|
CaSO4 2.473e-05 2.478e-05 -4.607 -4.606 0.001
|
|
MgSO4 2.359e-05 2.364e-05 -4.627 -4.626 0.001
|
|
NaSO4- 2.787e-07 2.520e-07 -6.555 -6.599 -0.044
|
|
HSO4- 1.064e-09 9.618e-10 -8.973 -9.017 -0.044
|
|
CaHSO4+ 1.383e-11 1.251e-11 -10.859 -10.903 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.55 -6.91 -4.36 CaSO4
|
|
Aragonite -0.16 -8.50 -8.34 CaCO3
|
|
Arsenolite -72.24 -73.62 -1.38 As2O3
|
|
Artinite -7.12 2.48 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -38.06 -29.83 8.23 As2O5
|
|
As2S3(am) -476.76 -521.66 -44.90 As2S3
|
|
As_native -86.15 -98.68 -12.53 As
|
|
Brucite -5.77 11.07 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.66 -38.56 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.02 -8.50 -8.48 CaCO3
|
|
CH4(g) -140.71 -143.57 -2.86 CH4
|
|
Claudetite -72.28 -73.62 -1.34 As2O3
|
|
CO2(g) -1.51 -2.98 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -4.86 -7.00 -2.14 MgSO4:7H2O
|
|
Gypsum -2.33 -6.91 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.41 -142.40 -1.00 H2S
|
|
Halite -8.86 -7.28 1.58 NaCl
|
|
Huntite -4.30 -34.27 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.53 -23.29 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.56 -8.59 -8.03 MgCO3
|
|
Mirabilite -9.54 -10.66 -1.11 Na2SO4:10H2O
|
|
Nahcolite -5.08 -5.63 -0.55 NaHCO3
|
|
Natron -10.94 -12.25 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.97 -8.59 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -475.36 -521.66 -46.30 As2S3
|
|
Portlandite -11.64 11.16 22.80 Ca(OH)2
|
|
Realgar -186.83 -206.78 -19.94 AsS
|
|
Sulfur -105.99 -121.02 -15.03 S
|
|
Thenardite -10.48 -10.66 -0.18 Na2SO4
|
|
Thermonatrite -12.38 -12.25 0.12 Na2CO3:H2O
|
|
Trona -17.08 -17.88 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 121, cumulative pore volumes 121.000000.
|
|
Beginning of advection time step 122, cumulative pore volumes 122.000000.
|
|
Beginning of advection time step 123, cumulative pore volumes 123.000000.
|
|
Beginning of advection time step 124, cumulative pore volumes 124.000000.
|
|
Beginning of advection time step 125, cumulative pore volumes 125.000000.
|
|
Beginning of advection time step 126, cumulative pore volumes 126.000000.
|
|
Beginning of advection time step 127, cumulative pore volumes 127.000000.
|
|
Beginning of advection time step 128, cumulative pore volumes 128.000000.
|
|
Beginning of advection time step 129, cumulative pore volumes 129.000000.
|
|
Beginning of advection time step 130, cumulative pore volumes 130.000000.
|
|
Beginning of advection time step 131, cumulative pore volumes 131.000000.
|
|
Beginning of advection time step 132, cumulative pore volumes 132.000000.
|
|
Beginning of advection time step 133, cumulative pore volumes 133.000000.
|
|
Beginning of advection time step 134, cumulative pore volumes 134.000000.
|
|
Beginning of advection time step 135, cumulative pore volumes 135.000000.
|
|
Beginning of advection time step 136, cumulative pore volumes 136.000000.
|
|
Beginning of advection time step 137, cumulative pore volumes 137.000000.
|
|
Beginning of advection time step 138, cumulative pore volumes 138.000000.
|
|
Beginning of advection time step 139, cumulative pore volumes 139.000000.
|
|
Beginning of advection time step 140, cumulative pore volumes 140.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.02 -8.50 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite 0.00 -17.09 -17.09 1.565e+00 1.565e+00 2.132e-06
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
2.378e-03 Surface charge, eq
|
|
1.275e-02 sigma, C/m**2
|
|
4.912e-02 psi, V
|
|
-1.912e+00 -F*psi/RT
|
|
1.478e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 4.994e-02 0.713 4.994e-02 -1.302
|
|
Hfo_wOH2+ 1.289e-02 0.184 1.289e-02 -1.890
|
|
Hfo_wO- 4.431e-03 0.063 4.431e-03 -2.353
|
|
Hfo_wOHSO4-2 1.698e-03 0.024 1.698e-03 -2.770
|
|
Hfo_wOHAsO4-3 8.218e-04 0.012 8.218e-04 -3.085
|
|
Hfo_wSO4- 2.198e-04 0.003 2.198e-04 -3.658
|
|
Hfo_wHAsO4- 1.226e-06 0.000 1.227e-06 -5.911
|
|
Hfo_wH2AsO4 1.025e-08 0.000 1.025e-08 -7.989
|
|
Hfo_wOCa+ 9.387e-14 0.000 9.387e-14 -13.027
|
|
Hfo_wOMg+ 7.538e-14 0.000 7.538e-14 -13.123
|
|
Hfo_wH2AsO3 2.120e-33 0.000 2.120e-33 -32.674
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 3.314e-01 6.627e-01 6.627e-01 0.000
|
|
MgX2 1.679e-01 3.358e-01 3.358e-01 0.000
|
|
NaX 1.435e-03 1.435e-03 1.435e-03 0.000
|
|
HX 8.602e-06 8.602e-06 8.602e-06 0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.640e-10 1.639e-10
|
|
C 7.115e-03 7.115e-03
|
|
Ca 1.806e-03 1.805e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.438e-03 1.438e-03
|
|
Na 1.658e-04 1.658e-04
|
|
S 2.323e-04 2.323e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.048 Charge balance
|
|
pe = 13.574 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.599e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.055e-03
|
|
Total CO2 (mol/kg) = 7.115e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -6.682e-07
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.01
|
|
Iterations = 10
|
|
Total H = 1.110125e+02
|
|
Total O = 5.552492e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.236e-07 1.117e-07 -6.908 -6.952 -0.044
|
|
H+ 9.795e-08 8.960e-08 -7.009 -7.048 -0.039
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
As(3) 1.662e-37
|
|
H3AsO3 1.648e-37 1.651e-37 -36.783 -36.782 0.001
|
|
H2AsO3- 1.444e-39 1.305e-39 -38.841 -38.885 -0.044
|
|
H4AsO3+ 0.000e+00 0.000e+00 -44.091 -44.135 -0.044
|
|
HAsO3-2 0.000e+00 0.000e+00 -46.361 -46.537 -0.176
|
|
AsO3-3 0.000e+00 0.000e+00 -54.793 -55.189 -0.396
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.231 -310.275 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.677 -926.720 -0.044
|
|
As(5) 1.640e-10
|
|
HAsO4-2 8.383e-11 5.591e-11 -10.077 -10.253 -0.176
|
|
H2AsO4- 8.012e-11 7.240e-11 -10.096 -10.140 -0.044
|
|
AsO4-3 3.475e-15 1.397e-15 -14.459 -14.855 -0.396
|
|
H3AsO4 1.291e-15 1.294e-15 -14.889 -14.888 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.557 -143.556 0.001
|
|
C(4) 7.115e-03
|
|
HCO3- 5.882e-03 5.333e-03 -2.230 -2.273 -0.043
|
|
CO2 1.072e-03 1.075e-03 -2.970 -2.969 0.001
|
|
CaHCO3+ 8.579e-05 7.752e-05 -4.067 -4.111 -0.044
|
|
MgHCO3+ 6.320e-05 5.711e-05 -4.199 -4.243 -0.044
|
|
CaCO3 5.318e-06 5.330e-06 -5.274 -5.273 0.001
|
|
CO3-2 4.130e-06 2.792e-06 -5.384 -5.554 -0.170
|
|
MgCO3 2.433e-06 2.438e-06 -5.614 -5.613 0.001
|
|
NaHCO3 4.474e-07 4.484e-07 -6.349 -6.348 0.001
|
|
NaCO3- 8.600e-09 7.772e-09 -8.065 -8.109 -0.044
|
|
Ca 1.806e-03
|
|
Ca+2 1.687e-03 1.140e-03 -2.773 -2.943 -0.170
|
|
CaHCO3+ 8.579e-05 7.752e-05 -4.067 -4.111 -0.044
|
|
CaSO4 2.733e-05 2.739e-05 -4.563 -4.562 0.001
|
|
CaCO3 5.318e-06 5.330e-06 -5.274 -5.273 0.001
|
|
CaOH+ 2.336e-09 2.111e-09 -8.632 -8.676 -0.044
|
|
CaHSO4+ 1.591e-11 1.437e-11 -10.798 -10.842 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.206e-04 -3.874 -3.919 -0.045
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 1.438e-03
|
|
Mg+2 1.346e-03 9.152e-04 -2.871 -3.038 -0.168
|
|
MgHCO3+ 6.320e-05 5.711e-05 -4.199 -4.243 -0.044
|
|
MgSO4 2.578e-05 2.584e-05 -4.589 -4.588 0.001
|
|
MgCO3 2.433e-06 2.438e-06 -5.614 -5.613 0.001
|
|
MgOH+ 4.103e-08 3.708e-08 -7.387 -7.431 -0.044
|
|
Na 1.658e-04
|
|
Na+ 1.653e-04 1.495e-04 -3.782 -3.825 -0.043
|
|
NaHCO3 4.474e-07 4.484e-07 -6.349 -6.348 0.001
|
|
NaSO4- 9.987e-08 9.025e-08 -7.001 -7.045 -0.044
|
|
NaCO3- 8.600e-09 7.772e-09 -8.065 -8.109 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.198 -142.242 -0.044
|
|
H2S 0.000e+00 0.000e+00 -142.349 -142.348 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.645 -144.789 -0.144
|
|
S4-2 0.000e+00 0.000e+00 -144.872 -145.023 -0.151
|
|
S6-2 0.000e+00 0.000e+00 -144.937 -145.075 -0.138
|
|
S-2 0.000e+00 0.000e+00 -147.936 -148.112 -0.176
|
|
S3-2 0.000e+00 0.000e+00 -148.317 -148.476 -0.159
|
|
S2-2 0.000e+00 0.000e+00 -149.557 -149.722 -0.165
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.231 -310.275 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.677 -926.720 -0.044
|
|
S(6) 2.323e-04
|
|
SO4-2 1.791e-04 1.204e-04 -3.747 -3.919 -0.172
|
|
CaSO4 2.733e-05 2.739e-05 -4.563 -4.562 0.001
|
|
MgSO4 2.578e-05 2.584e-05 -4.589 -4.588 0.001
|
|
NaSO4- 9.987e-08 9.025e-08 -7.001 -7.045 -0.044
|
|
HSO4- 1.161e-09 1.049e-09 -8.935 -8.979 -0.044
|
|
CaHSO4+ 1.591e-11 1.437e-11 -10.798 -10.842 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.50 -6.86 -4.36 CaSO4
|
|
Aragonite -0.16 -8.50 -8.34 CaCO3
|
|
Arsenolite -72.18 -73.56 -1.38 As2O3
|
|
Artinite -7.14 2.46 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -38.00 -29.78 8.23 As2O5
|
|
As2S3(am) -476.53 -521.43 -44.90 As2S3
|
|
As_native -86.12 -98.65 -12.53 As
|
|
Brucite -5.78 11.06 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.63 -38.54 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.02 -8.50 -8.48 CaCO3
|
|
CH4(g) -140.70 -143.56 -2.86 CH4
|
|
Claudetite -72.22 -73.56 -1.34 As2O3
|
|
CO2(g) -1.50 -2.97 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -4.82 -6.96 -2.14 MgSO4:7H2O
|
|
Gypsum -2.28 -6.86 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.35 -142.35 -1.00 H2S
|
|
Halite -9.33 -7.74 1.58 NaCl
|
|
Huntite -4.31 -34.28 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.55 -23.31 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.56 -8.59 -8.03 MgCO3
|
|
Mirabilite -10.46 -11.57 -1.11 Na2SO4:10H2O
|
|
Nahcolite -5.55 -6.10 -0.55 NaHCO3
|
|
Natron -11.89 -13.21 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.97 -8.59 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -475.13 -521.43 -46.30 As2S3
|
|
Portlandite -11.65 11.15 22.80 Ca(OH)2
|
|
Realgar -186.75 -206.69 -19.94 AsS
|
|
Sulfur -105.94 -120.96 -15.03 S
|
|
Thenardite -11.39 -11.57 -0.18 Na2SO4
|
|
Thermonatrite -13.33 -13.20 0.12 Na2CO3:H2O
|
|
Trona -18.51 -19.30 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 141, cumulative pore volumes 141.000000.
|
|
Beginning of advection time step 142, cumulative pore volumes 142.000000.
|
|
Beginning of advection time step 143, cumulative pore volumes 143.000000.
|
|
Beginning of advection time step 144, cumulative pore volumes 144.000000.
|
|
Beginning of advection time step 145, cumulative pore volumes 145.000000.
|
|
Beginning of advection time step 146, cumulative pore volumes 146.000000.
|
|
Beginning of advection time step 147, cumulative pore volumes 147.000000.
|
|
Beginning of advection time step 148, cumulative pore volumes 148.000000.
|
|
Beginning of advection time step 149, cumulative pore volumes 149.000000.
|
|
Beginning of advection time step 150, cumulative pore volumes 150.000000.
|
|
Beginning of advection time step 151, cumulative pore volumes 151.000000.
|
|
Beginning of advection time step 152, cumulative pore volumes 152.000000.
|
|
Beginning of advection time step 153, cumulative pore volumes 153.000000.
|
|
Beginning of advection time step 154, cumulative pore volumes 154.000000.
|
|
Beginning of advection time step 155, cumulative pore volumes 155.000000.
|
|
Beginning of advection time step 156, cumulative pore volumes 156.000000.
|
|
Beginning of advection time step 157, cumulative pore volumes 157.000000.
|
|
Beginning of advection time step 158, cumulative pore volumes 158.000000.
|
|
Beginning of advection time step 159, cumulative pore volumes 159.000000.
|
|
Beginning of advection time step 160, cumulative pore volumes 160.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.02 -8.50 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite 0.00 -17.09 -17.09 1.565e+00 1.565e+00 1.465e-06
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
2.383e-03 Surface charge, eq
|
|
1.278e-02 sigma, C/m**2
|
|
4.916e-02 psi, V
|
|
-1.914e+00 -F*psi/RT
|
|
1.476e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 4.990e-02 0.713 4.990e-02 -1.302
|
|
Hfo_wOH2+ 1.292e-02 0.185 1.292e-02 -1.889
|
|
Hfo_wO- 4.414e-03 0.063 4.415e-03 -2.355
|
|
Hfo_wOHSO4-2 1.717e-03 0.025 1.717e-03 -2.765
|
|
Hfo_wOHAsO4-3 8.218e-04 0.012 8.218e-04 -3.085
|
|
Hfo_wSO4- 2.229e-04 0.003 2.229e-04 -3.652
|
|
Hfo_wHAsO4- 1.234e-06 0.000 1.234e-06 -5.909
|
|
Hfo_wH2AsO4 1.034e-08 0.000 1.034e-08 -7.985
|
|
Hfo_wOCa+ 9.423e-14 0.000 9.423e-14 -13.026
|
|
Hfo_wOMg+ 7.486e-14 0.000 7.487e-14 -13.126
|
|
Hfo_wH2AsO3 2.139e-33 0.000 2.139e-33 -32.670
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 3.327e-01 6.654e-01 6.654e-01 0.000
|
|
MgX2 1.668e-01 3.335e-01 3.335e-01 0.000
|
|
NaX 1.101e-03 1.101e-03 1.101e-03 0.000
|
|
HX 8.612e-06 8.612e-06 8.612e-06 0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.645e-10 1.645e-10
|
|
C 7.117e-03 7.116e-03
|
|
Ca 1.825e-03 1.825e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.438e-03 1.438e-03
|
|
Na 1.276e-04 1.276e-04
|
|
S 2.347e-04 2.347e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.046 Charge balance
|
|
pe = 13.576 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.619e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.052e-03
|
|
Total CO2 (mol/kg) = 7.117e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = -6.135e-08
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00
|
|
Iterations = 10
|
|
Total H = 1.110125e+02
|
|
Total O = 5.552494e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.231e-07 1.112e-07 -6.910 -6.954 -0.044
|
|
H+ 9.840e-08 9.000e-08 -7.007 -7.046 -0.039
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
As(3) 1.678e-37
|
|
H3AsO3 1.664e-37 1.667e-37 -36.779 -36.778 0.001
|
|
H2AsO3- 1.451e-39 1.312e-39 -38.838 -38.882 -0.044
|
|
H4AsO3+ 0.000e+00 0.000e+00 -44.085 -44.129 -0.044
|
|
HAsO3-2 0.000e+00 0.000e+00 -46.360 -46.536 -0.176
|
|
AsO3-3 0.000e+00 0.000e+00 -54.795 -55.191 -0.396
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.213 -310.257 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.619 -926.663 -0.044
|
|
As(5) 1.645e-10
|
|
HAsO4-2 8.392e-11 5.595e-11 -10.076 -10.252 -0.176
|
|
H2AsO4- 8.055e-11 7.279e-11 -10.094 -10.138 -0.044
|
|
AsO4-3 3.465e-15 1.392e-15 -14.460 -14.856 -0.396
|
|
H3AsO4 1.304e-15 1.307e-15 -14.885 -14.884 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.555 -143.554 0.001
|
|
C(4) 7.117e-03
|
|
HCO3- 5.878e-03 5.330e-03 -2.231 -2.273 -0.043
|
|
CO2 1.076e-03 1.079e-03 -2.968 -2.967 0.001
|
|
CaHCO3+ 8.665e-05 7.829e-05 -4.062 -4.106 -0.044
|
|
MgHCO3+ 6.315e-05 5.707e-05 -4.200 -4.244 -0.044
|
|
CaCO3 5.347e-06 5.358e-06 -5.272 -5.271 0.001
|
|
CO3-2 4.110e-06 2.777e-06 -5.386 -5.556 -0.170
|
|
MgCO3 2.420e-06 2.425e-06 -5.616 -5.615 0.001
|
|
NaHCO3 3.441e-07 3.449e-07 -6.463 -6.462 0.001
|
|
NaCO3- 6.585e-09 5.951e-09 -8.181 -8.225 -0.044
|
|
Ca 1.825e-03
|
|
Ca+2 1.706e-03 1.152e-03 -2.768 -2.939 -0.171
|
|
CaHCO3+ 8.665e-05 7.829e-05 -4.062 -4.106 -0.044
|
|
CaSO4 2.787e-05 2.793e-05 -4.555 -4.554 0.001
|
|
CaCO3 5.347e-06 5.358e-06 -5.272 -5.271 0.001
|
|
CaOH+ 2.350e-09 2.123e-09 -8.629 -8.673 -0.044
|
|
CaHSO4+ 1.630e-11 1.473e-11 -10.788 -10.832 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.206e-04 -3.874 -3.919 -0.045
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 1.438e-03
|
|
Mg+2 1.347e-03 9.151e-04 -2.871 -3.039 -0.168
|
|
MgHCO3+ 6.315e-05 5.707e-05 -4.200 -4.244 -0.044
|
|
MgSO4 2.601e-05 2.607e-05 -4.585 -4.584 0.001
|
|
MgCO3 2.420e-06 2.425e-06 -5.616 -5.615 0.001
|
|
MgOH+ 4.085e-08 3.691e-08 -7.389 -7.433 -0.044
|
|
Na 1.276e-04
|
|
Na+ 1.272e-04 1.151e-04 -3.895 -3.939 -0.044
|
|
NaHCO3 3.441e-07 3.449e-07 -6.463 -6.462 0.001
|
|
NaSO4- 7.756e-08 7.009e-08 -7.110 -7.154 -0.044
|
|
NaCO3- 6.585e-09 5.951e-09 -8.181 -8.225 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.192 -142.236 -0.044
|
|
H2S 0.000e+00 0.000e+00 -142.341 -142.340 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.641 -144.785 -0.144
|
|
S4-2 0.000e+00 0.000e+00 -144.868 -145.019 -0.151
|
|
S6-2 0.000e+00 0.000e+00 -144.933 -145.071 -0.138
|
|
S-2 0.000e+00 0.000e+00 -147.932 -148.108 -0.176
|
|
S3-2 0.000e+00 0.000e+00 -148.313 -148.472 -0.159
|
|
S2-2 0.000e+00 0.000e+00 -149.553 -149.718 -0.165
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.213 -310.257 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.619 -926.663 -0.044
|
|
S(6) 2.347e-04
|
|
SO4-2 1.808e-04 1.215e-04 -3.743 -3.915 -0.172
|
|
CaSO4 2.787e-05 2.793e-05 -4.555 -4.554 0.001
|
|
MgSO4 2.601e-05 2.607e-05 -4.585 -4.584 0.001
|
|
NaSO4- 7.756e-08 7.009e-08 -7.110 -7.154 -0.044
|
|
HSO4- 1.177e-09 1.063e-09 -8.929 -8.973 -0.044
|
|
CaHSO4+ 1.630e-11 1.473e-11 -10.788 -10.832 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.49 -6.85 -4.36 CaSO4
|
|
Aragonite -0.16 -8.50 -8.34 CaCO3
|
|
Arsenolite -72.18 -73.56 -1.38 As2O3
|
|
Artinite -7.14 2.46 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -38.00 -29.77 8.23 As2O5
|
|
As2S3(am) -476.50 -521.40 -44.90 As2S3
|
|
As_native -86.11 -98.64 -12.53 As
|
|
Brucite -5.79 11.05 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.62 -38.53 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.02 -8.50 -8.48 CaCO3
|
|
CH4(g) -140.69 -143.55 -2.86 CH4
|
|
Claudetite -72.22 -73.56 -1.34 As2O3
|
|
CO2(g) -1.50 -2.97 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -4.81 -6.95 -2.14 MgSO4:7H2O
|
|
Gypsum -2.27 -6.85 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.34 -142.34 -1.00 H2S
|
|
Halite -9.44 -7.86 1.58 NaCl
|
|
Huntite -4.31 -34.28 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.57 -23.33 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.57 -8.59 -8.03 MgCO3
|
|
Mirabilite -10.68 -11.79 -1.11 Na2SO4:10H2O
|
|
Nahcolite -5.66 -6.21 -0.55 NaHCO3
|
|
Natron -12.12 -13.44 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.97 -8.60 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -475.10 -521.40 -46.30 As2S3
|
|
Portlandite -11.65 11.15 22.80 Ca(OH)2
|
|
Realgar -186.74 -206.68 -19.94 AsS
|
|
Sulfur -105.93 -120.96 -15.03 S
|
|
Thenardite -11.61 -11.79 -0.18 Na2SO4
|
|
Thermonatrite -13.56 -13.43 0.12 Na2CO3:H2O
|
|
Trona -18.85 -19.65 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 161, cumulative pore volumes 161.000000.
|
|
Beginning of advection time step 162, cumulative pore volumes 162.000000.
|
|
Beginning of advection time step 163, cumulative pore volumes 163.000000.
|
|
Beginning of advection time step 164, cumulative pore volumes 164.000000.
|
|
Beginning of advection time step 165, cumulative pore volumes 165.000000.
|
|
Beginning of advection time step 166, cumulative pore volumes 166.000000.
|
|
Beginning of advection time step 167, cumulative pore volumes 167.000000.
|
|
Beginning of advection time step 168, cumulative pore volumes 168.000000.
|
|
Beginning of advection time step 169, cumulative pore volumes 169.000000.
|
|
Beginning of advection time step 170, cumulative pore volumes 170.000000.
|
|
Beginning of advection time step 171, cumulative pore volumes 171.000000.
|
|
Beginning of advection time step 172, cumulative pore volumes 172.000000.
|
|
Beginning of advection time step 173, cumulative pore volumes 173.000000.
|
|
Beginning of advection time step 174, cumulative pore volumes 174.000000.
|
|
Beginning of advection time step 175, cumulative pore volumes 175.000000.
|
|
Beginning of advection time step 176, cumulative pore volumes 176.000000.
|
|
Beginning of advection time step 177, cumulative pore volumes 177.000000.
|
|
Beginning of advection time step 178, cumulative pore volumes 178.000000.
|
|
Beginning of advection time step 179, cumulative pore volumes 179.000000.
|
|
Beginning of advection time step 180, cumulative pore volumes 180.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.01 -8.49 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite 0.00 -17.09 -17.09 1.565e+00 1.565e+00 1.206e-06
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
2.384e-03 Surface charge, eq
|
|
1.278e-02 sigma, C/m**2
|
|
4.916e-02 psi, V
|
|
-1.913e+00 -F*psi/RT
|
|
1.476e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 4.990e-02 0.713 4.990e-02 -1.302
|
|
Hfo_wOH2+ 1.292e-02 0.185 1.293e-02 -1.889
|
|
Hfo_wO- 4.413e-03 0.063 4.413e-03 -2.355
|
|
Hfo_wOHSO4-2 1.719e-03 0.025 1.719e-03 -2.765
|
|
Hfo_wOHAsO4-3 8.218e-04 0.012 8.218e-04 -3.085
|
|
Hfo_wSO4- 2.232e-04 0.003 2.232e-04 -3.651
|
|
Hfo_wHAsO4- 1.235e-06 0.000 1.235e-06 -5.908
|
|
Hfo_wH2AsO4 1.035e-08 0.000 1.035e-08 -7.985
|
|
Hfo_wOCa+ 9.467e-14 0.000 9.468e-14 -13.024
|
|
Hfo_wOMg+ 7.451e-14 0.000 7.452e-14 -13.128
|
|
Hfo_wH2AsO3 2.141e-33 0.000 2.141e-33 -32.669
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 3.337e-01 6.675e-01 6.675e-01 0.000
|
|
MgX2 1.657e-01 3.315e-01 3.315e-01 0.000
|
|
NaX 1.062e-03 1.062e-03 1.062e-03 0.000
|
|
HX 8.606e-06 8.606e-06 8.606e-06 0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.646e-10 1.646e-10
|
|
C 7.117e-03 7.117e-03
|
|
Ca 1.835e-03 1.834e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.432e-03 1.432e-03
|
|
Na 1.233e-04 1.233e-04
|
|
S 2.351e-04 2.351e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.046 Charge balance
|
|
pe = 13.577 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.623e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.053e-03
|
|
Total CO2 (mol/kg) = 7.117e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = 6.004e-09
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
|
|
Iterations = 10
|
|
Total H = 1.110125e+02
|
|
Total O = 5.552494e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.230e-07 1.112e-07 -6.910 -6.954 -0.044
|
|
H+ 9.842e-08 9.002e-08 -7.007 -7.046 -0.039
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
As(3) 1.680e-37
|
|
H3AsO3 1.665e-37 1.669e-37 -36.779 -36.778 0.001
|
|
H2AsO3- 1.453e-39 1.312e-39 -38.838 -38.882 -0.044
|
|
H4AsO3+ 0.000e+00 0.000e+00 -44.084 -44.128 -0.044
|
|
HAsO3-2 0.000e+00 0.000e+00 -46.360 -46.536 -0.176
|
|
AsO3-3 0.000e+00 0.000e+00 -54.794 -55.191 -0.396
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.211 -310.255 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.613 -926.657 -0.044
|
|
As(5) 1.646e-10
|
|
HAsO4-2 8.397e-11 5.598e-11 -10.076 -10.252 -0.176
|
|
H2AsO4- 8.061e-11 7.284e-11 -10.094 -10.138 -0.044
|
|
AsO4-3 3.467e-15 1.392e-15 -14.460 -14.856 -0.396
|
|
H3AsO4 1.305e-15 1.308e-15 -14.884 -14.883 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.555 -143.554 0.001
|
|
C(4) 7.117e-03
|
|
HCO3- 5.878e-03 5.330e-03 -2.231 -2.273 -0.043
|
|
CO2 1.077e-03 1.079e-03 -2.968 -2.967 0.001
|
|
CaHCO3+ 8.707e-05 7.868e-05 -4.060 -4.104 -0.044
|
|
MgHCO3+ 6.287e-05 5.681e-05 -4.202 -4.246 -0.044
|
|
CaCO3 5.372e-06 5.384e-06 -5.270 -5.269 0.001
|
|
CO3-2 4.109e-06 2.777e-06 -5.386 -5.556 -0.170
|
|
MgCO3 2.408e-06 2.414e-06 -5.618 -5.617 0.001
|
|
NaHCO3 3.323e-07 3.331e-07 -6.478 -6.477 0.001
|
|
NaCO3- 6.359e-09 5.746e-09 -8.197 -8.241 -0.044
|
|
Ca 1.835e-03
|
|
Ca+2 1.714e-03 1.157e-03 -2.766 -2.937 -0.171
|
|
CaHCO3+ 8.707e-05 7.868e-05 -4.060 -4.104 -0.044
|
|
CaSO4 2.804e-05 2.810e-05 -4.552 -4.551 0.001
|
|
CaCO3 5.372e-06 5.384e-06 -5.270 -5.269 0.001
|
|
CaOH+ 2.361e-09 2.133e-09 -8.627 -8.671 -0.044
|
|
CaHSO4+ 1.640e-11 1.482e-11 -10.785 -10.829 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.206e-04 -3.874 -3.919 -0.045
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 1.432e-03
|
|
Mg+2 1.341e-03 9.110e-04 -2.873 -3.040 -0.168
|
|
MgHCO3+ 6.287e-05 5.681e-05 -4.202 -4.246 -0.044
|
|
MgSO4 2.593e-05 2.599e-05 -4.586 -4.585 0.001
|
|
MgCO3 2.408e-06 2.414e-06 -5.618 -5.617 0.001
|
|
MgOH+ 4.065e-08 3.673e-08 -7.391 -7.435 -0.044
|
|
Na 1.233e-04
|
|
Na+ 1.228e-04 1.111e-04 -3.911 -3.954 -0.044
|
|
NaHCO3 3.323e-07 3.331e-07 -6.478 -6.477 0.001
|
|
NaSO4- 7.500e-08 6.777e-08 -7.125 -7.169 -0.044
|
|
NaCO3- 6.359e-09 5.746e-09 -8.197 -8.241 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.191 -142.235 -0.044
|
|
H2S 0.000e+00 0.000e+00 -142.340 -142.339 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.640 -144.785 -0.144
|
|
S4-2 0.000e+00 0.000e+00 -144.867 -145.019 -0.151
|
|
S6-2 0.000e+00 0.000e+00 -144.933 -145.071 -0.138
|
|
S-2 0.000e+00 0.000e+00 -147.931 -148.108 -0.176
|
|
S3-2 0.000e+00 0.000e+00 -148.313 -148.472 -0.159
|
|
S2-2 0.000e+00 0.000e+00 -149.552 -149.718 -0.165
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.211 -310.255 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.613 -926.657 -0.044
|
|
S(6) 2.351e-04
|
|
SO4-2 1.810e-04 1.217e-04 -3.742 -3.915 -0.173
|
|
CaSO4 2.804e-05 2.810e-05 -4.552 -4.551 0.001
|
|
MgSO4 2.593e-05 2.599e-05 -4.586 -4.585 0.001
|
|
NaSO4- 7.500e-08 6.777e-08 -7.125 -7.169 -0.044
|
|
HSO4- 1.179e-09 1.065e-09 -8.929 -8.973 -0.044
|
|
CaHSO4+ 1.640e-11 1.482e-11 -10.785 -10.829 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.49 -6.85 -4.36 CaSO4
|
|
Aragonite -0.16 -8.49 -8.34 CaCO3
|
|
Arsenolite -72.17 -73.55 -1.38 As2O3
|
|
Artinite -7.15 2.45 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -37.99 -29.77 8.23 As2O5
|
|
As2S3(am) -476.50 -521.40 -44.90 As2S3
|
|
As_native -86.11 -98.64 -12.53 As
|
|
Brucite -5.79 11.05 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.62 -38.52 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.01 -8.49 -8.48 CaCO3
|
|
CH4(g) -140.69 -143.55 -2.86 CH4
|
|
Claudetite -72.21 -73.55 -1.34 As2O3
|
|
CO2(g) -1.50 -2.97 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -4.82 -6.96 -2.14 MgSO4:7H2O
|
|
Gypsum -2.27 -6.85 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.34 -142.34 -1.00 H2S
|
|
Halite -9.45 -7.87 1.58 NaCl
|
|
Huntite -4.32 -34.28 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.58 -23.34 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.57 -8.60 -8.03 MgCO3
|
|
Mirabilite -10.71 -11.82 -1.11 Na2SO4:10H2O
|
|
Nahcolite -5.68 -6.23 -0.55 NaHCO3
|
|
Natron -12.15 -13.47 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.98 -8.60 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -475.10 -521.40 -46.30 As2S3
|
|
Portlandite -11.65 11.15 22.80 Ca(OH)2
|
|
Realgar -186.74 -206.68 -19.94 AsS
|
|
Sulfur -105.93 -120.95 -15.03 S
|
|
Thenardite -11.64 -11.82 -0.18 Na2SO4
|
|
Thermonatrite -13.59 -13.46 0.12 Na2CO3:H2O
|
|
Trona -18.90 -19.69 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
Beginning of advection time step 181, cumulative pore volumes 181.000000.
|
|
Beginning of advection time step 182, cumulative pore volumes 182.000000.
|
|
Beginning of advection time step 183, cumulative pore volumes 183.000000.
|
|
Beginning of advection time step 184, cumulative pore volumes 184.000000.
|
|
Beginning of advection time step 185, cumulative pore volumes 185.000000.
|
|
Beginning of advection time step 186, cumulative pore volumes 186.000000.
|
|
Beginning of advection time step 187, cumulative pore volumes 187.000000.
|
|
Beginning of advection time step 188, cumulative pore volumes 188.000000.
|
|
Beginning of advection time step 189, cumulative pore volumes 189.000000.
|
|
Beginning of advection time step 190, cumulative pore volumes 190.000000.
|
|
Beginning of advection time step 191, cumulative pore volumes 191.000000.
|
|
Beginning of advection time step 192, cumulative pore volumes 192.000000.
|
|
Beginning of advection time step 193, cumulative pore volumes 193.000000.
|
|
Beginning of advection time step 194, cumulative pore volumes 194.000000.
|
|
Beginning of advection time step 195, cumulative pore volumes 195.000000.
|
|
Beginning of advection time step 196, cumulative pore volumes 196.000000.
|
|
Beginning of advection time step 197, cumulative pore volumes 197.000000.
|
|
Beginning of advection time step 198, cumulative pore volumes 198.000000.
|
|
Beginning of advection time step 199, cumulative pore volumes 199.000000.
|
|
Beginning of advection time step 200, cumulative pore volumes 200.000000.
|
|
|
|
Cell 1.
|
|
|
|
Using solution 1. Solution after simulation 4.
|
|
Using exchange 1. Exchange assemblage after simulation 5.
|
|
Using surface 1. Surface assemblage after simulation 5.
|
|
Using pure phase assemblage 1. Pure-phase assemblage after simulation 5.
|
|
|
|
-------------------------------Phase assemblage--------------------------------
|
|
|
|
Moles in assemblage
|
|
Phase SI log IAP log KT Initial Final Delta
|
|
|
|
Calcite -0.01 -8.49 -8.48 0.000e+00 0 0.000e+00
|
|
Dolomite 0.00 -17.09 -17.09 1.565e+00 1.565e+00 1.046e-06
|
|
|
|
------------------------------Surface composition------------------------------
|
|
|
|
Hfo
|
|
2.383e-03 Surface charge, eq
|
|
1.278e-02 sigma, C/m**2
|
|
4.915e-02 psi, V
|
|
-1.913e+00 -F*psi/RT
|
|
1.476e-01 exp(-F*psi/RT)
|
|
6.000e+02 specific area, m**2/g
|
|
1.800e+04 m**2 for 3.000e+01 g
|
|
|
|
|
|
Hfo_w
|
|
7.000e-02 moles
|
|
Mole Log
|
|
Species Moles Fraction Molality Molality
|
|
|
|
Hfo_wOH 4.990e-02 0.713 4.990e-02 -1.302
|
|
Hfo_wOH2+ 1.292e-02 0.185 1.292e-02 -1.889
|
|
Hfo_wO- 4.413e-03 0.063 4.414e-03 -2.355
|
|
Hfo_wOHSO4-2 1.719e-03 0.025 1.719e-03 -2.765
|
|
Hfo_wOHAsO4-3 8.218e-04 0.012 8.218e-04 -3.085
|
|
Hfo_wSO4- 2.231e-04 0.003 2.232e-04 -3.651
|
|
Hfo_wHAsO4- 1.234e-06 0.000 1.234e-06 -5.909
|
|
Hfo_wH2AsO4 1.035e-08 0.000 1.035e-08 -7.985
|
|
Hfo_wOCa+ 9.507e-14 0.000 9.508e-14 -13.022
|
|
Hfo_wOMg+ 7.422e-14 0.000 7.422e-14 -13.129
|
|
Hfo_wH2AsO3 2.140e-33 0.000 2.141e-33 -32.669
|
|
|
|
-----------------------------Exchange composition------------------------------
|
|
|
|
X 1.000e+00 mol
|
|
|
|
Equiv- Equivalent Log
|
|
Species Moles alents Fraction Gamma
|
|
|
|
CaX2 3.346e-01 6.693e-01 6.693e-01 0.000
|
|
MgX2 1.648e-01 3.297e-01 3.297e-01 0.000
|
|
NaX 1.058e-03 1.058e-03 1.058e-03 0.000
|
|
HX 8.599e-06 8.599e-06 8.599e-06 0.000
|
|
|
|
-----------------------------Solution composition------------------------------
|
|
|
|
Elements Molality Moles
|
|
|
|
As 1.646e-10 1.646e-10
|
|
C 7.117e-03 7.117e-03
|
|
Ca 1.841e-03 1.841e-03
|
|
Cl 1.337e-04 1.337e-04
|
|
Mg 1.426e-03 1.426e-03
|
|
Na 1.228e-04 1.228e-04
|
|
S 2.351e-04 2.351e-04
|
|
|
|
----------------------------Description of solution----------------------------
|
|
|
|
pH = 7.046 Charge balance
|
|
pe = 13.576 Adjusted to redox equilibrium
|
|
Activity of water = 1.000
|
|
Ionic strength = 9.624e-03
|
|
Mass of water (kg) = 9.999e-01
|
|
Total alkalinity (eq/kg) = 6.053e-03
|
|
Total CO2 (mol/kg) = 7.117e-03
|
|
Temperature (deg C) = 25.000
|
|
Electrical balance (eq) = 1.225e-08
|
|
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
|
|
Iterations = 10
|
|
Total H = 1.110125e+02
|
|
Total O = 5.552494e+01
|
|
|
|
----------------------------Distribution of species----------------------------
|
|
|
|
Log Log Log
|
|
Species Molality Activity Molality Activity Gamma
|
|
|
|
OH- 1.231e-07 1.112e-07 -6.910 -6.954 -0.044
|
|
H+ 9.839e-08 9.000e-08 -7.007 -7.046 -0.039
|
|
H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000
|
|
As(3) 1.679e-37
|
|
H3AsO3 1.665e-37 1.669e-37 -36.779 -36.778 0.001
|
|
H2AsO3- 1.453e-39 1.313e-39 -38.838 -38.882 -0.044
|
|
H4AsO3+ 0.000e+00 0.000e+00 -44.084 -44.128 -0.044
|
|
HAsO3-2 0.000e+00 0.000e+00 -46.360 -46.536 -0.176
|
|
AsO3-3 0.000e+00 0.000e+00 -54.794 -55.190 -0.396
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.212 -310.256 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.614 -926.658 -0.044
|
|
As(5) 1.646e-10
|
|
HAsO4-2 8.400e-11 5.600e-11 -10.076 -10.252 -0.176
|
|
H2AsO4- 8.061e-11 7.284e-11 -10.094 -10.138 -0.044
|
|
AsO4-3 3.469e-15 1.393e-15 -14.460 -14.856 -0.396
|
|
H3AsO4 1.305e-15 1.308e-15 -14.884 -14.883 0.001
|
|
C(-4) 0.000e+00
|
|
CH4 0.000e+00 0.000e+00 -143.555 -143.554 0.001
|
|
C(4) 7.117e-03
|
|
HCO3- 5.879e-03 5.330e-03 -2.231 -2.273 -0.043
|
|
CO2 1.076e-03 1.079e-03 -2.968 -2.967 0.001
|
|
CaHCO3+ 8.741e-05 7.898e-05 -4.058 -4.102 -0.044
|
|
MgHCO3+ 6.260e-05 5.656e-05 -4.203 -4.247 -0.044
|
|
CaCO3 5.394e-06 5.406e-06 -5.268 -5.267 0.001
|
|
CO3-2 4.111e-06 2.778e-06 -5.386 -5.556 -0.170
|
|
MgCO3 2.398e-06 2.404e-06 -5.620 -5.619 0.001
|
|
NaHCO3 3.310e-07 3.317e-07 -6.480 -6.479 0.001
|
|
NaCO3- 6.335e-09 5.724e-09 -8.198 -8.242 -0.044
|
|
Ca 1.841e-03
|
|
Ca+2 1.721e-03 1.162e-03 -2.764 -2.935 -0.171
|
|
CaHCO3+ 8.741e-05 7.898e-05 -4.058 -4.102 -0.044
|
|
CaSO4 2.815e-05 2.821e-05 -4.551 -4.550 0.001
|
|
CaCO3 5.394e-06 5.406e-06 -5.268 -5.267 0.001
|
|
CaOH+ 2.371e-09 2.142e-09 -8.625 -8.669 -0.044
|
|
CaHSO4+ 1.646e-11 1.487e-11 -10.784 -10.828 -0.044
|
|
Cl 1.337e-04
|
|
Cl- 1.337e-04 1.206e-04 -3.874 -3.919 -0.045
|
|
H(0) 0.000e+00
|
|
H2 0.000e+00 0.000e+00 -44.395 -44.394 0.001
|
|
Mg 1.426e-03
|
|
Mg+2 1.335e-03 9.069e-04 -2.875 -3.042 -0.168
|
|
MgHCO3+ 6.260e-05 5.656e-05 -4.203 -4.247 -0.044
|
|
MgSO4 2.582e-05 2.587e-05 -4.588 -4.587 0.001
|
|
MgCO3 2.398e-06 2.404e-06 -5.620 -5.619 0.001
|
|
MgOH+ 4.049e-08 3.658e-08 -7.393 -7.437 -0.044
|
|
Na 1.228e-04
|
|
Na+ 1.224e-04 1.107e-04 -3.912 -3.956 -0.044
|
|
NaHCO3 3.310e-07 3.317e-07 -6.480 -6.479 0.001
|
|
NaSO4- 7.471e-08 6.751e-08 -7.127 -7.171 -0.044
|
|
NaCO3- 6.335e-09 5.724e-09 -8.198 -8.242 -0.044
|
|
O(0) 5.112e-04
|
|
O2 2.556e-04 2.562e-04 -3.592 -3.591 0.001
|
|
S(-2) 0.000e+00
|
|
HS- 0.000e+00 0.000e+00 -142.191 -142.235 -0.044
|
|
H2S 0.000e+00 0.000e+00 -142.340 -142.339 0.001
|
|
S5-2 0.000e+00 0.000e+00 -144.640 -144.784 -0.144
|
|
S4-2 0.000e+00 0.000e+00 -144.867 -145.018 -0.151
|
|
S6-2 0.000e+00 0.000e+00 -144.933 -145.070 -0.138
|
|
S-2 0.000e+00 0.000e+00 -147.931 -148.107 -0.176
|
|
S3-2 0.000e+00 0.000e+00 -148.313 -148.471 -0.159
|
|
S2-2 0.000e+00 0.000e+00 -149.552 -149.717 -0.165
|
|
AsS(OH)(HS)- 0.000e+00 0.000e+00 -310.212 -310.256 -0.044
|
|
As3S4(HS)2- 0.000e+00 0.000e+00 -926.614 -926.658 -0.044
|
|
S(6) 2.351e-04
|
|
SO4-2 1.811e-04 1.217e-04 -3.742 -3.915 -0.173
|
|
CaSO4 2.815e-05 2.821e-05 -4.551 -4.550 0.001
|
|
MgSO4 2.582e-05 2.587e-05 -4.588 -4.587 0.001
|
|
NaSO4- 7.471e-08 6.751e-08 -7.127 -7.171 -0.044
|
|
HSO4- 1.178e-09 1.065e-09 -8.929 -8.973 -0.044
|
|
CaHSO4+ 1.646e-11 1.487e-11 -10.784 -10.828 -0.044
|
|
|
|
------------------------------Saturation indices-------------------------------
|
|
|
|
Phase SI log IAP log KT
|
|
|
|
Anhydrite -2.49 -6.85 -4.36 CaSO4
|
|
Aragonite -0.16 -8.49 -8.34 CaCO3
|
|
Arsenolite -72.18 -73.56 -1.38 As2O3
|
|
Artinite -7.15 2.45 9.60 MgCO3:Mg(OH)2:3H2O
|
|
As2O5(cr) -37.99 -29.77 8.23 As2O5
|
|
As2S3(am) -476.50 -521.40 -44.90 As2S3
|
|
As_native -86.11 -98.64 -12.53 As
|
|
Brucite -5.79 11.05 16.84 Mg(OH)2
|
|
Ca3(AsO4)2:4w -19.61 -38.52 -18.91 Ca3(AsO4)2:4H2O
|
|
Calcite -0.01 -8.49 -8.48 CaCO3
|
|
CH4(g) -140.69 -143.55 -2.86 CH4
|
|
Claudetite -72.22 -73.56 -1.34 As2O3
|
|
CO2(g) -1.50 -2.97 -1.47 CO2
|
|
Dolomite 0.00 -17.09 -17.09 CaMg(CO3)2
|
|
Dolomite(d) -0.55 -17.09 -16.54 CaMg(CO3)2
|
|
Epsomite -4.82 -6.96 -2.14 MgSO4:7H2O
|
|
Gypsum -2.27 -6.85 -4.58 CaSO4:2H2O
|
|
H2(g) -41.24 -44.39 -3.15 H2
|
|
H2O(g) -1.51 -0.00 1.51 H2O
|
|
H2S(g) -141.34 -142.34 -1.00 H2S
|
|
Halite -9.46 -7.87 1.58 NaCl
|
|
Huntite -4.32 -34.29 -29.97 CaMg3(CO3)4
|
|
Hydromagnesite -14.58 -23.35 -8.76 Mg5(CO3)4(OH)2:4H2O
|
|
Magnesite -0.57 -8.60 -8.03 MgCO3
|
|
Mirabilite -10.71 -11.83 -1.11 Na2SO4:10H2O
|
|
Nahcolite -5.68 -6.23 -0.55 NaHCO3
|
|
Natron -12.16 -13.47 -1.31 Na2CO3:10H2O
|
|
Nesquehonite -2.98 -8.60 -5.62 MgCO3:3H2O
|
|
O2(g) -0.70 -3.59 -2.89 O2
|
|
Orpiment -475.10 -521.40 -46.30 As2S3
|
|
Portlandite -11.64 11.16 22.80 Ca(OH)2
|
|
Realgar -186.74 -206.68 -19.94 AsS
|
|
Sulfur -105.93 -120.95 -15.03 S
|
|
Thenardite -11.65 -11.83 -0.18 Na2SO4
|
|
Thermonatrite -13.59 -13.47 0.12 Na2CO3:H2O
|
|
Trona -18.90 -19.70 -0.80 NaHCO3:Na2CO3:2H2O
|
|
|
|
|
|
------------------
|
|
End of simulation.
|
|
------------------
|
|
|
|
------------------------------------
|
|
Reading input data for simulation 6.
|
|
------------------------------------
|
|
|
|
-----------
|
|
End of run.
|
|
-----------
|
|
|