Commit dc45319c by Gabi Seitz

### [exercise-grids] use file naming convention and fix a few typos

parent 89ce6388
 # the grid exercise simulation program dune_add_test(NAME exercise_grids SOURCES exercisegrids.cc) SOURCES main.cc) # add tutorial to the common target add_dependencies(test_exercises exercise_grids) ... ...
 ... ... @@ -9,8 +9,8 @@ Here we will expand on what we've covered in the basics exercise, and the proble * Navigate to the directory dumux-course/exercises/exercise-grids/ We'll be editing the following files during this exercise: * The __input file__: exercise_grids.input , * and the __problem file__: injection2pproblem.hh * The __input file__: params.input , * and the __problem file__: problem.hh Currently our grid is defined using the following input parameters in the input file: ... ...
 ... ... @@ -47,7 +47,7 @@ #include // The problem file, where setup-specific boundary and initial conditions are defined. #include "injection2pproblem.hh" #include "problem.hh" //////////////////////// // the main function ... ...
 ... ... @@ -32,7 +32,7 @@ #include #include #include "injection2pspatialparams.hh" #include "spatialparams.hh" namespace Dumux { ... ... @@ -84,15 +84,15 @@ struct FluidSystem { using type = FluidSystems::H2ON * * The domain is sized 60 m times 40 m. * * For the mass conservation equation neumann boundary conditions are used on * the top, on the bottom and on the right of the domain, while dirichlet conditions * For the mass conservation equation Neumann boundary conditions are used on * the top, on the bottom and on the right of the domain, while Dirichlet conditions * apply on the left boundary. * * Gas is injected at the right boundary from 7 m to 15 m at a rate of * 0.001 kg/(s m), the remaining neumann boundaries are no-flow * 0.001 kg/(s m), the remaining Neumann boundaries are no-flow * boundaries. * * At the dirichlet boundaries a hydrostatic pressure and a gas saturation of zero a * At the Dirichlet boundaries a hydrostatic pressure and a gas saturation of zero a * * This problem uses the \ref TwoPModel model. */ ... ...
 # the grid exercise simulation program dune_add_test(NAME exercise_grids_solution SOURCES exercisegrids_solution.cc) SOURCES main.cc) # add tutorial to the common target add_dependencies(test_exercises exercise_grids_solution) ... ...
 ... ... @@ -47,7 +47,7 @@ #include // The problem file, where setup-specific boundary and initial conditions are defined. #include "injection2pproblem.hh" #include "problem.hh" //////////////////////// // the main function ... ...
 ... ... @@ -32,7 +32,7 @@ #include #include #include "injection2pspatialparams.hh" #include "spatialparams.hh" namespace Dumux { ... ... @@ -92,15 +92,15 @@ struct FluidSystem { using type = FluidSystems::H2ON * * The domain is sized 60 m times 40 m. * * For the mass conservation equation neumann boundary conditions are used on * the top, on the bottom and on the right of the domain, while dirichlet conditions * For the mass conservation equation Neumann boundary conditions are used on * the top, on the bottom and on the right of the domain, while Dirichlet conditions * apply on the left boundary. * * Gas is injected at the right boundary from 7 m to 15 m at a rate of * 0.001 kg/(s m), the remaining neumann boundaries are no-flow * 0.001 kg/(s m), the remaining Neumann boundaries are no-flow * boundaries. * * At the dirichlet boundaries a hydrostatic pressure and a gas saturation of zero a * At the Dirichlet boundaries a hydrostatic pressure and a gas saturation of zero a * * This problem uses the \ref TwoPModel model. */ ... ... @@ -203,7 +203,7 @@ public: } /*! * \brief Evaluate the boundary conditions for a neumann * \brief Evaluate the boundary conditions for a Neumann * boundary segment. * * \param globalPos The position of the integration point of the boundary segment. ... ...
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