PhreeqcMatlab
is a wrapper for the PhreeqcRM C interface and IPhreeqc. Most of the functions are wrapped, with the exception of MPI function (that I neither use nor know how to wrap). In general, the C++ interface of PhreeqcRM has more functionality and is easier to call. Therefore, I have implemented several classes and functions to make the usage of this package more convenient, similar to its c++ interface and better. All the original PhreeqcRM functions start with RM_
. The additional utility functions that I have added do not have this extra RM_
.
PhreeqcMatlab
automatically downloads the latest compiled phreeqcRM .dll
on Windows and .so
on Linux machines, from this repository. I don't have access to macOS; hence, no library there and you'll have to compile PhreeqcRM yourself for mac. On Windows, you will need to have Visual C++ Redistributable for VC 2019 installed. All you need to do is to download or clone this repository and run the startup.m
file. Before running the example, make sure that C/C++ compiler is already installed in your Matlab. Please let me know if you have any error messages when running the file.
SimpleAdvect.m
and Advect.m
demonstrate advection simulation for Phreeqc reactive transport modeling software. It sets up initial conditions, defines boundary conditions, and runs a transient loop simulating advection.
Species.m
demonstrates species transport using PhreeqcRM.
Gas_m.m
demonstrates the equilibration of gas with an aqueous phase
You can run all tests by executing main.m
.
Need more examples? Go to the examples folder and run the files.
Don't forget to run the startup
file before running the examples.
iph = IPhreeqc(); % load the library
iph = iph.CreateIPhreeqc(); % create an IPhreeqc instance
iph_string = ['SOLUTION 1 brine \n' ...
'pH 7.0 \n' ...
'temp 25.0 \n' ...
'Na 1.0 \n' ...
'Cl 1.0 \n' ...
'END \n' ...
'SELECTED_OUTPUT 1 \n'...
'-reset false \n'...
'-totals Na Cl \n'...
'END']; % create the Phreeqc string
out_string = iph.RunPhreeqcString(iph_string, database_file('phreeqc.dat')); % Run the string
disp(out_string) % display the results
iph.DestroyIPhreeqc(); % kill the phreeqc instance
Alternatively, you can save the string in a file and call it with RunPhreeqcFile
function as shown here.
In this folder, there are a couple of examples that shows how to investigate the effect of temperature on the dissolution of anhydrite and gypsum. Save the following Phreeqc input in a file named ex2_input.pqc
(example 2 of Phreeqc manual)
#TITLE Example 2.--Temperature dependence of solubility of gypsum and anhydrite
SOLUTION 1 Pure water
pH 7.0
temp 25.0
EQUILIBRIUM_PHASES 1
Gypsum 0.0 1.0
Anhydrite 0.0 1.0
END
SELECTED_OUTPUT 1
-reset false
-si Anhydrite Gypsum
USER_PUNCH
-headings equi_anhydrite
10 PUNCH EQUI("Anhydrite")
END
and run the following script to calculate and plot the solubility in different temperatures:
phreeqc_rm = PhreeqcSingleCell('ex2_input.pqc', 'phreeqc.dat');
n_data = 51;
h_out = phreeqc_rm.GetSelectedOutputHeadings(1);
temperature = linspace(25.0, 75.0, n_data); % degree C
s_out = zeros(n_data, length(h_out));
for i = 1:length(temperature)
phreeqc_rm.RM_SetTemperature(temperature(i));
status = phreeqc_rm.RM_RunCells();
c_out = phreeqc_rm.GetConcentrations();
s_out(i, :) = phreeqc_rm.GetSelectedOutput(1);
end
plot(temperature, s_out, '-s');
legend(string(h_out));
xlabel('T (C)');
ylabel('SI');
status = phreeqc_rm.RM_Destroy();
Look at the example folder for many more examples of batch and transport geochemical calculations.
I'm writing several examples that calls this package from my finite volume package FVTool. You can help me by providing reactive transport cases with analytical solutions.
There are at least two more packages that have some of the functionalities of PhreeqcMatlab
, and inspired me to write this package.
This package probably won't be broken by sudden changes. So you can start using it. Here's a list of near future activities. You contributions/suggestions are more than welcome :-)
Wrap IPhreeqc functionsMore utility/helper functionsMore tests- Documentation (please help)
- New classes for solution, phases, surfaces, etc (in progress)
- Utility functions for the IPhreeqc wrapper (in progress)
- More examples for both IPhreeqc and PhreeqcRM (in progress)
- More keywords in the new input file specific to PhreeqcMatlab
- Simple GUI (in progress as part of a DOTC project)
The original package was written by Ali A. Eftekhari in his free time. It is/will be used in some of the projects/publications at the Danish Offshore Technology Centre (DOTC) at the Technical University of Denmark. Some of the current development is done as part of an ongoing project at the DOTC.
Please cite as
Eftekhari, Ali A., and Behzad Hosseinzadeh. Simulkade/PhreeqcMatlab: Preliminary Release of PhreeqcMatlab. Zenodo, 2021, doi:10.5281/ZENODO.5513713.
Citar como
Eftekhari, Ali A., and Behzad Hosseinzadeh. Simulkade/PhreeqcMatlab: Preliminary Release of PhreeqcMatlab. Zenodo, 2021, doi:10.5281/ZENODO.5513713.
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examples/IPhreeqc
examples/PhreeqcMatlabCases
examples/basetest
examples/batch
examples/benchmarks
examples/notebooks
examples/phreeqc
examples/transport
src/@Datafile
src/@Exchange
src/@Gas
src/@IPhreeqc
src/@IRM_RESULT
src/@Kinetics
src/@Phase
src/@PhaseResult
src/@PhreeqcRM
src/@SelectedOutput
src/@SingleCell
src/@SingleCellResult
src/@Solution
src/@SolutionResult
src/@Surface
src/@SurfaceResult
src/Advection1D
src/Bulk
src/FVTool
src/Tools
src/Transport1D
src/classes/@edl_layer
src/classes/@exchange_units
src/classes/@kinetics_units
src/classes/@phase_units
src/classes/@sites_units
src/classes/@solution_units
examples/PhreeqcMatlabCases
Versión | Publicado | Notas de la versión | |
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0.1.0 |