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////////////////////// // Code description // ////////////////////// // The code PERFORM is dedicated to simulate solute transport in heterogeneous fractured porous media. // Simulation conditions are described in the folder "Input" where the file "File_names.txt" contains the names of the parameter file (located in the folder "Param_files") and the domain file (located in the folder "Domain_files"). // Examples of these files are present in each of these two folders corresponding to the simulations presenting in the article [Roubinet et al., 2012]. // The code requires the following libraries: - CGAL-3.2.1 - boost_1_49_0 // For more information, please see the related documentation file and article [Roubinet et al., 2012] ////////////////////// // Code compilation // ////////////////////// - create a new C++ project - import the source files located in the folder "src" - add the following include folders (in Properties -> C/C++ General -> Paths and Symbols -> Includes): your_path_to_libraries/CGAL-3.2.1/include your_path_to_libraries/CGAL-3.2.1/include/CGAL/config/msvc7 boost_1_49_0 - add the library in libCGAL.a (in Properties -> C/C++ General -> Paths and Symbols -> Libraries) - .vcproj and .sln files for Visual Studio are located in the folder VStudio //////////////////// // Code execution // //////////////////// // When running the code, user should enter the path containing the folders "Input" and "Output" // Simulation results corresponding to solute arrival times will be located in the folder "Output" //////////////// // References // //////////////// // D. Roubinet, J.-R. de Dreuzy, and D. M. Tartakovsky, Particle-tracking simulations of anomalous transport in hierarchically fractured rocks, Computer and Geosciences, 2012
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Particle-tracking simulations of anomalous transport in hierarchically fractured rocks, D. Roubinet, J.-R. de Dreuzy, and D. M. Tartakovsky,
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