def kinect_problem_with_h2o_nacl_caco3_mgco3_hcl_co2_calcite_magnesite_dolomite_halite():
database = Database("supcrt98.xml")
editor = ChemicalEditor(database)
editor.addAqueousPhase("H2O NaCl CaCO3 MgCO3 HCl")
editor.addGaseousPhase(["H2O(g)", "CO2(g)"])
editor.addMineralPhase("Calcite")
editor.addMineralPhase("Magnesite")
editor.addMineralPhase("Dolomite")
editor.addMineralPhase("Halite")
calciteReaction = editor.addMineralReaction("Calcite")
calciteReaction.setEquation("Calcite = Ca++ + CO3--")
calciteReaction.addMechanism("logk = -5.81 mol/(m2*s); Ea = 23.5 kJ/mol")
calciteReaction.addMechanism(
"logk = -0.30 mol/(m2*s); Ea = 14.4 kJ/mol; a[H+] = 1.0"
)
calciteReaction.setSpecificSurfaceArea(10, "cm2/g")
magnesiteReaction = editor.addMineralReaction("Magnesite")
magnesiteReaction.setEquation("Magnesite = Mg++ + CO3--")
magnesiteReaction.addMechanism("logk = -9.34 mol/(m2*s); Ea = 23.5 kJ/mol")
magnesiteReaction.addMechanism(
"logk = -6.38 mol/(m2*s); Ea = 14.4 kJ/mol; a[H+] = 1.0"
)
magnesiteReaction.setSpecificSurfaceArea(10, "cm2/g")
dolomiteReaction = editor.addMineralReaction("Dolomite")
dolomiteReaction.setEquation("Dolomite = Ca++ + Mg++ + 2*CO3--")
dolomiteReaction.addMechanism("logk = -7.53 mol/(m2*s); Ea = 52.2 kJ/mol")
dolomiteReaction.addMechanism(
"logk = -3.19 mol/(m2*s); Ea = 36.1 kJ/mol; a[H+] = 0.5"
)
dolomiteReaction.setSpecificSurfaceArea(10, "cm2/g")
system = ChemicalSystem(editor)
reactions = ReactionSystem(editor)
partition = Partition(system)
partition.setKineticSpecies(["Calcite", "Magnesite", "Dolomite"])
problem = EquilibriumProblem(system)
problem.setPartition(partition)
problem.add("H2O", 1, "kg")
problem.add("NaCl", 1, "mol")
problem.add("CO2", 1, "mol")
state = equilibrate(problem)
state.setSpeciesMass("Calcite", 100, "g")
state.setSpeciesMass("Dolomite", 50, "g")
return (state, reactions, partition)
def kinetic_problem_with_h2o_nacl_caco3_mgco3_hcl_co2_calcite_magnesite_dolomite_halite(
):
"""
Build a kinetic problem with 1 kg of H2O, 1 mol of NaCl and 1 mol of CO2
which has the following kinetic reactions: calcite, Magnesite and Dolomite.
"""
database = Database("supcrt98.xml")
editor = ChemicalEditor(database)
editor.addAqueousPhaseWithElementsOf("H2O NaCl CaCO3 MgCO3 HCl")
editor.addGaseousPhase(["H2O(g)", "CO2(g)"])
editor.addMineralPhase("Calcite")
editor.addMineralPhase("Magnesite")
editor.addMineralPhase("Dolomite")
editor.addMineralPhase("Halite")
calcite_reaction = editor.addMineralReaction("Calcite")
calcite_reaction.setEquation("Calcite = Ca++ + CO3--")
calcite_reaction.addMechanism("logk = -5.81 mol/(m2*s); Ea = 23.5 kJ/mol")
calcite_reaction.addMechanism(
"logk = -0.30 mol/(m2*s); Ea = 14.4 kJ/mol; a[H+] = 1.0")
calcite_reaction.setSpecificSurfaceArea(10, "cm2/g")
magnesite_reaction = editor.addMineralReaction("Magnesite")
magnesite_reaction.setEquation("Magnesite = Mg++ + CO3--")
magnesite_reaction.addMechanism(
"logk = -9.34 mol/(m2*s); Ea = 23.5 kJ/mol")
magnesite_reaction.addMechanism(
"logk = -6.38 mol/(m2*s); Ea = 14.4 kJ/mol; a[H+] = 1.0")
magnesite_reaction.setSpecificSurfaceArea(10, "cm2/g")
dolomite_reaction = editor.addMineralReaction("Dolomite")
dolomite_reaction.setEquation("Dolomite = Ca++ + Mg++ + 2*CO3--")
dolomite_reaction.addMechanism("logk = -7.53 mol/(m2*s); Ea = 52.2 kJ/mol")
dolomite_reaction.addMechanism(
"logk = -3.19 mol/(m2*s); Ea = 36.1 kJ/mol; a[H+] = 0.5")
dolomite_reaction.setSpecificSurfaceArea(10, "cm2/g")
system = ChemicalSystem(editor)
reactions = ReactionSystem(editor)
partition = Partition(system)
partition.setKineticSpecies(["Calcite", "Magnesite", "Dolomite"])
problem = EquilibriumProblem(system)
problem.setPartition(partition)
problem.add("H2O", 1, "kg")
problem.add("NaCl", 1, "mol")
problem.add("CO2", 1, "mol")
return (problem, reactions, partition)
def brine_co2_path():
editor = ChemicalEditor()
editor.addAqueousPhaseWithElementsOf("H2O NaCl CaCO3 MgCO3")
editor.addGaseousPhase(["H2O(g)", "CO2(g)"])
editor.addMineralPhase("Calcite")
editor.addMineralPhase("Magnesite")
editor.addMineralPhase("Dolomite")
editor.addMineralPhase("Halite")
editor.addMineralReaction("Calcite") \
.setEquation("Calcite = Ca++ + CO3--") \
.addMechanism("logk = -5.81 mol/(m2*s); Ea = 23.5 kJ/mol") \
.addMechanism("logk = -0.30 mol/(m2*s); Ea = 14.4 kJ/mol; a[H+] = 1.0") \
.setSpecificSurfaceArea(10, "cm2/g")
editor.addMineralReaction("Magnesite") \
.setEquation("Magnesite = Mg++ + CO3--") \
.addMechanism("logk = -9.34 mol/(m2*s); Ea = 23.5 kJ/mol") \
.addMechanism("logk = -6.38 mol/(m2*s); Ea = 14.4 kJ/mol; a[H+] = 1.0") \
.setSpecificSurfaceArea(10, "cm2/g")
editor.addMineralReaction("Dolomite") \
.setEquation("Dolomite = Ca++ + Mg++ + 2*CO3--") \
.addMechanism("logk = -7.53 mol/(m2*s); Ea = 52.2 kJ/mol") \
.addMechanism("logk = -3.19 mol/(m2*s); Ea = 36.1 kJ/mol; a[H+] = 0.5") \
.setSpecificSurfaceArea(10, "cm2/g")
system = ChemicalSystem(editor)
reactions = ReactionSystem(editor)
partition = Partition(system)
partition.setKineticSpecies(["Calcite", "Magnesite", "Dolomite"])
problem = EquilibriumProblem(system)
problem.setPartition(partition)
problem.setTemperature(60, "celsius")
problem.setPressure(100, "bar")
problem.add("H2O", 1, "kg")
problem.add("NaCl", 0.5, "mol")
problem.add("CO2", 1, "mol")
state = equilibrate(problem)
state.setSpeciesMass("Calcite", 100, "g")
state.setSpeciesMass("Dolomite", 50, "g")
path = KineticPath(reactions)
path.setPartition(partition)
return path, state