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Commit 14e65130 authored by joergbuchwald's avatar joergbuchwald
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add tests for ThermoRichardsFlow

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1 merge request!3419New Process: Non-isothermal Richards flow
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ProcessLib/ThermoRichardsFlow/Tests.cmake 0 → 100644
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AddTest(
NAME ThermoRichardsFlow_PressureDiffusionTemperatureDiffusion
PATH ThermoRichardsFlow/HT/SimpleSynthetics
EXECUTABLE ogs
EXECUTABLE_ARGS PressureDiffusionTemperatureDiffusion.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
PressureDiffusionTemperatureDiffusion_expected.vtu PressureDiffusionTemperatureDiffusion_ts_1_t_1.000000.vtu T T 1e-5 1e-8
PressureDiffusionTemperatureDiffusion_expected.vtu PressureDiffusionTemperatureDiffusion_ts_1_t_1.000000.vtu p p 1e-5 1e-8
PressureDiffusionTemperatureDiffusion_expected.vtu PressureDiffusionTemperatureDiffusion_ts_1_t_1.000000.vtu darcy_velocity darcy_velocity 1e-5 1e-8
PressureDiffusionTemperatureDiffusion_expected.vtu PressureDiffusionTemperatureDiffusion_ts_1_t_1.000000.vtu dry_density_solid dry_density_solid 1e-5 1e-8
PressureDiffusionTemperatureDiffusion_expected.vtu PressureDiffusionTemperatureDiffusion_ts_1_t_1.000000.vtu porosity porosity 1e-5 1e-8
)
AddTest(
NAME ThermoRichardsFlow_HeatTransportInStationaryFlow
PATH ThermoRichardsFlow/HT/HeatTransportInStationaryFlow
EXECUTABLE ogs
EXECUTABLE_ARGS HeatTransportInStationaryFlow.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 17
DIFF_DATA
HT_HeatTransportInStationaryFlow_ts_50_t_50000.000000.vtu HeatTransportInStationaryFlow_ts_50_t_50000.000000.vtu temperature temperature 5e-3 1e-8
HT_HeatTransportInStationaryFlow_ts_50_t_50000.000000.vtu HeatTransportInStationaryFlow_ts_50_t_50000.000000.vtu pressure pressure 5e-3 1e-8
)
AddTest(
NAME ThermoRichardsFlow_RichardsFlow2DSmall
PATH ThermoRichardsFlow/RichardsFlow2D
EXECUTABLE ogs
EXECUTABLE_ARGS RichardsFlow_2d_small.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 17
DIFF_DATA
expected_Richards_2D_small_pcs_ts_1100_t_1600.000000.vtu Richards_2D_small_pcs_ts_1100_t_1600.000000.vtu pressure pressure 5e-3 1e-8
expected_Richards_2D_small_pcs_ts_1100_t_1600.000000.vtu Richards_2D_small_pcs_ts_1100_t_1600.000000.vtu saturation saturation 5e-3 1e-8
)
AddTest(
NAME ThermoRichardsFlow_RichardsFlow2DSmallPicard
PATH ThermoRichardsFlow/RichardsFlow2D
EXECUTABLE ogs
EXECUTABLE_ARGS RichardsFlow_2d_small_Picard.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 17
DIFF_DATA
expected_Richards_2D_small_pcs_ts_1100_t_1600.000000.vtu Richards_2D_small_Picard_pcs_ts_1100_t_1600.000000.vtu pressure pressure 5e-3 1e-8
expected_Richards_2D_small_pcs_ts_1100_t_1600.000000.vtu Richards_2D_small_Picard_pcs_ts_1100_t_1600.000000.vtu saturation saturation 5e-3 1e-8
)
AddTest(
NAME ThermoRichardsFlow_RichardsFlow2DSmall_ogs5
PATH ThermoRichardsFlow/RichardsFlow2D
EXECUTABLE ogs
EXECUTABLE_ARGS RichardsFlow_2d_compare_ogs5.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 17
DIFF_DATA
h_us_quad_1000.vtu richards_ogs5_pcs_ts_100_t_100.000000.vtu PRESSURE1 pressure 1e-1 1e-1
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMuni_saturated-TRuni_saturated
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRuni_saturated.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMuni_sat_ts_10_t_1.000000.vtu TRuni_sat_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMuni_sat_ts_10_t_1.000000.vtu TRuni_sat_ts_10_t_1.000000.vtu pressure pressure 5e-5 1e-10
expected_TRMuni_sat_ts_10_t_1.000000.vtu TRuni_sat_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMuni_unsaturated-TRuni_unsaturated
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRuni_unsaturated.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMuni_unsat_ts_10_t_1.000000.vtu TRuni_unsat_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMuni_unsat_ts_10_t_1.000000.vtu TRuni_unsat_ts_10_t_1.000000.vtu pressure pressure 5e-5 1e-6
expected_TRMuni_unsat_ts_10_t_1.000000.vtu TRuni_unsat_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMcustom_unsaturated-TRcustom_unsaturated
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRcustom_unsaturated.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMuni_unsat_ts_10_t_1.000000.vtu TRcustom_unsat_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMuni_unsat_ts_10_t_1.000000.vtu TRcustom_unsat_ts_10_t_1.000000.vtu pressure pressure 5e-5 1e-6
expected_TRMuni_unsat_ts_10_t_1.000000.vtu TRcustom_unsat_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMhyd_saturated-TRhyd_saturated
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRhyd_saturated.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMhyd_sat_ts_10_t_1.000000.vtu TRhyd_sat_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMhyd_sat_ts_10_t_1.000000.vtu TRhyd_sat_ts_10_t_1.000000.vtu pressure pressure 5e-5 1e-10
expected_TRMhyd_sat_ts_10_t_1.000000.vtu TRhyd_sat_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMhyd_unsaturated-TRhyd_unsaturated
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRhyd_unsaturated.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMhyd_unsat_ts_10_t_1.000000.vtu TRhyd_unsat_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMhyd_unsat_ts_10_t_1.000000.vtu TRhyd_unsat_ts_10_t_1.000000.vtu pressure pressure 5e-5 1e-6
expected_TRMhyd_unsat_ts_10_t_1.000000.vtu TRhyd_unsat_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMuni_bishopstest-TRuni_bishopstest
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRuni_unsaturated_bishopstest.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu pressure pressure 5e-2 1e-6
expected_TRMuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
expected_TRMuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRuni_unsaturated_bishopstest_ts_10_t_1.000000.vtu HydraulicFlow HydraulicFlow 1e-9 1e-4
)
AddTest(
NAME ThermoRichardsFlow_comp_TRMhyd_bishopstest-TRiso_bishopstest
PATH ThermoRichardsFlow/SimplifiedMechanics
EXECUTABLE ogs
EXECUTABLE_ARGS TRhyd_unsaturated_bishopstest.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 1
DIFF_DATA
expected_TRMhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu temperature temperature 5e-5 1e-10
expected_TRMhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu pressure pressure 5e-2 1e-6
expected_TRMhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu saturation saturation 5e-5 1e-10
expected_TRMhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu TRhyd_unsaturated_bishopstest_ts_10_t_1.000000.vtu HydraulicFlow HydraulicFlow 1e-9 1e-4
)
AddTest(
NAME ThermoRichardsFlow_TaskCDECOVALEX2023
PATH ThermoRichardsFlow/SimplifiedMechanics/TaskCDECOVALEX2023
EXECUTABLE ogs
EXECUTABLE_ARGS Decovalex-0-TRF.prj
WRAPPER time
TESTER vtkdiff
REQUIREMENTS NOT (OGS_USE_LIS OR OGS_USE_MPI)
RUNTIME 17
DIFF_DATA
expected_Decovalex-0_ts_10_t_864000.000000.vtu Decovalex-THuni-0_ts_10_t_864000.000000.vtu pressure pressure 3e5 15
expected_Decovalex-0_ts_10_t_864000.000000.vtu Decovalex-THuni-0_ts_10_t_864000.000000.vtu saturation saturation 2e-3 2e-3
expected_Decovalex-0_ts_10_t_864000.000000.vtu Decovalex-THuni-0_ts_10_t_864000.000000.vtu temperature temperature 1e-2 5e-5
)
Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/HT_HeatTransportInStationaryFlow_ts_50_t_50000.000000.vtu 0 → 100644
+ 29
0
View file @ 14e65130
<?xml version="1.0"?>
<VTKFile type="UnstructuredGrid" version="1.0" byte_order="LittleEndian" header_type="UInt64" compressor="vtkZLibDataCompressor">
<UnstructuredGrid>
<FieldData>
<DataArray type="Int8" Name="OGS_VERSION" NumberOfTuples="41" format="appended" RangeMin="45" RangeMax="121" offset="0" />
</FieldData>
<Piece NumberOfPoints="436" NumberOfCells="117" >
<PointData>
<DataArray type="Float64" Name="darcy_velocity" NumberOfComponents="2" format="appended" RangeMin="9.9999999998e-06" RangeMax="1e-05" offset="112" />
<DataArray type="Float64" Name="pressure" format="appended" RangeMin="100000" RangeMax="101000" offset="6660" />
<DataArray type="Float64" Name="temperature" format="appended" RangeMin="0.0008596121857" RangeMax="1" offset="8552" />
</PointData>
<CellData>
<DataArray type="Int32" Name="MaterialIDs" format="appended" RangeMin="0" RangeMax="0" offset="11112" />
</CellData>
<Points>
<DataArray type="Float64" Name="Points" NumberOfComponents="3" format="appended" RangeMin="0" RangeMax="1.0049875621" offset="11176" />
</Points>
<Cells>
<DataArray type="Int64" Name="connectivity" format="appended" RangeMin="" RangeMax="" offset="15332" />
<DataArray type="Int64" Name="offsets" format="appended" RangeMin="" RangeMax="" offset="17288" />
<DataArray type="UInt8" Name="types" format="appended" RangeMin="" RangeMax="" offset="17580" />
</Cells>
</Piece>
</UnstructuredGrid>
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9txzR9tvV33XruLc8QAuee7PBi1lfPSIHfNhT6umUC65jR8hp9OeDJlPPsWfAN0VSz25ntX1+1fNhoVSO9Rff3/isCDy6hXpaFoNnPKGeORfAdezoot8XyJ5EPcOvgLdfRD2Lyf6C6nnxB6k8qRM9n5WCD2H7Dr3KwC0eU0/HcnAdOw7q328xYp5b9fsU8yOoZxzZ11A9D1RJV6tQfE8m+CF4Bdu/MHwEvqmKeubpuY4dQfp9kNB3qOdVPb81j3pOJPspqueGemma2iy+51Oi5+saqKdBA3iX+9TTTc91f3m8fO8oif1/reuEMOr5kud70t/1B2hl0yU=AQAAAAAAAAAAgAAAAAAAAEAdAAAAAAAAmAUAAAAAAAA=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AQAAAAAAAAAAgAAAAAAAAKgDAAAAAAAAuQAAAAAAAAA=eF4txRFghAAAAMC2SRiGYRiGYRiGYRiGYRiGYRiGYfj4GIaPj4Pu5MLgETl24tSZcxcuXbl249adew8ePXn24tWbdx8+/fLbl29//HXw8xQ6cuzEqTPnLly6cu3GrTv3Hjx68uzFqzfvPnz65bcv3/746+D3KXTk2IlTZ85duHTl2o1bd+49ePTk2YtXb959+PTLb1++/fHXwd9T6MixE6fOnLtw6cq1G7fu3Hvw6MmzF6/+B+KeNls=AQAAAAAAAAAAgAAAAAAAAHUAAAAAAAAADAAAAAAAAAA=eF4TFx8AAABsxAqE
</AppendedData>
</VTKFile>
Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/HeatTransportInStationaryFlow.prj 0 → 100644
+ 257
0
View file @ 14e65130
<?xml version='1.0' encoding='ISO-8859-1'?>
<OpenGeoSysProject>
<meshes>
<mesh>mesh_q.vtu</mesh>
<mesh>geometry_left.vtu</mesh>
<mesh>geometry_right.vtu</mesh>
<mesh>geometry_top.vtu</mesh>
<mesh>geometry_bottom.vtu</mesh>
</meshes>
<processes>
<process>
<name>HeatTransportInStationaryFlow</name>
<type>THERMO_RICHARDS_FLOW</type>
<integration_order>4</integration_order>
<process_variables>
<temperature>temperature</temperature>
<pressure>pressure</pressure>
</process_variables>
<specific_body_force>0 -0.0</specific_body_force>
<secondary_variables>
<secondary_variable internal_name="velocity" output_name="velocity"/>
<secondary_variable internal_name="saturation" output_name="saturation"/>
</secondary_variables>
</process>
</processes>
<media>
<medium id="0">
<phases>
<phase>
<type>AqueousLiquid</type>
<properties>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>4182</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>0.6</value>
</property>
<property>
<name>density</name>
<type>Constant</type>
<value>1000</value>
</property>
<property>
<name>viscosity</name>
<type>Constant</type>
<value>1.0e-3</value>
</property>
</properties>
</phase>
<phase>
<type>Solid</type>
<properties>
<property>
<name>density</name>
<type>Constant</type>
<value>2850</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>5.0</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>6000000</value>
</property>
<property>
<name>thermal_expansivity</name>
<type>Constant</type>
<value>0.0</value>
</property>
</properties>
</phase>
</phases>
<properties>
<property>
<name>relative_permeability</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>biot_coefficient</name>
<type>Constant</type>
<value>1.0</value>
</property>
<property>
<name>saturation</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>permeability</name>
<type>Constant</type>
<value>1.e-11</value>
</property>
<property>
<name>porosity</name>
<type>Constant</type>
<value>1.0</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>EffectiveThermalConductivityPorosityMixing</type>
</property>
</properties>
</medium>
</media>
<time_loop>
<processes>
<process ref="HeatTransportInStationaryFlow">
<nonlinear_solver>basic_newton</nonlinear_solver>
<convergence_criterion>
<type>PerComponentDeltaX</type>
<norm_type>NORM2</norm_type>
<abstols>1e-11 1e-8</abstols>
</convergence_criterion>
<time_discretization>
<type>BackwardEuler</type>
</time_discretization>
<time_stepping>
<type>FixedTimeStepping</type>
<t_initial> 0.0 </t_initial>
<t_end> 5.e+4 </t_end>
<timesteps>
<pair>
<repeat>250</repeat>
<delta_t>1000</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<output>
<type>VTK</type>
<prefix>HeatTransportInStationaryFlow</prefix>
<timesteps>
<pair>
<repeat> 1 </repeat>
<each_steps> 250 </each_steps>
</pair>
</timesteps>
<variables>
<variable>temperature</variable>
<variable>pressure</variable>
<variable>velocity</variable>
<variable>saturation</variable>
</variables>
<suffix>_ts_{:timestep}_t_{:time}</suffix>
<fixed_output_times>
50000
</fixed_output_times>
</output>
</time_loop>
<parameters>
<!-- Mechanics -->
<parameter>
<name>E</name>
<type>Constant</type>
<value>1e10</value>
</parameter>
<parameter>
<name>nu</name>
<type>Constant</type>
<value>.3</value>
</parameter>
<parameter>
<name>T0</name>
<type>Constant</type>
<value>0.0</value>
</parameter>
<parameter>
<name>P0</name>
<type>Constant</type>
<value>1e+5</value>
</parameter>
<parameter>
<name>p_left</name>
<type>Constant</type>
<value>1.01e5</value>
</parameter>
<parameter>
<name>p_right</name>
<type>Constant</type>
<value>1.0e5</value>
</parameter>
<parameter>
<name>T_left</name>
<type>Constant</type>
<value>1.</value>
</parameter>
<parameter>
<name>displacement0</name>
<type>Constant</type>
<values>0 0</values>
</parameter>
<parameter>
<name>u0</name>
<type>Constant</type>
<values>0</values>
</parameter>
</parameters>
<process_variables>
<process_variable>
<name>temperature</name>
<components>1</components>
<order>2</order>
<initial_condition>T0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>geometry_left</mesh>
<type>Dirichlet</type>
<parameter>T_left</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>pressure</name>
<components>1</components>
<order>2</order>
<initial_condition>P0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>geometry_left</mesh>
<type>Dirichlet</type>
<parameter>p_left</parameter>
</boundary_condition>
<boundary_condition>
<mesh>geometry_right</mesh>
<type>Dirichlet</type>
<parameter>p_right</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<nonlinear_solvers>
<nonlinear_solver>
<name>basic_newton</name>
<type>Newton</type>
<max_iter>50</max_iter>
<linear_solver>general_linear_solver</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
<linear_solvers>
<linear_solver>
<name>general_linear_solver</name>
<eigen>
<solver_type>SparseLU</solver_type>
<scaling>1</scaling>
</eigen>
</linear_solver>
</linear_solvers>
</OpenGeoSysProject>
Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/HeatTransportInStationaryFlow_lin.prj 0 → 100644
+ 257
0
View file @ 14e65130
<?xml version='1.0' encoding='ISO-8859-1'?>
<OpenGeoSysProject>
<meshes>
<mesh>mesh.vtu</mesh>
<mesh>geometry_left_lin.vtu</mesh>
<mesh>geometry_right_lin.vtu</mesh>
<mesh>geometry_top_lin.vtu</mesh>
<mesh>geometry_bottom_lin.vtu</mesh>
</meshes>
<processes>
<process>
<name>HeatTransportInStationaryFlow</name>
<type>THERMO_RICHARDS_FLOW</type>
<integration_order>2</integration_order>
<process_variables>
<temperature>temperature</temperature>
<pressure>pressure</pressure>
</process_variables>
<specific_body_force>0 -0.0</specific_body_force>
<secondary_variables>
<secondary_variable internal_name="velocity" output_name="velocity"/>
<secondary_variable internal_name="saturation" output_name="saturation"/>
</secondary_variables>
</process>
</processes>
<media>
<medium id="0">
<phases>
<phase>
<type>AqueousLiquid</type>
<properties>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>4182</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>0.6</value>
</property>
<property>
<name>density</name>
<type>Constant</type>
<value>1000</value>
</property>
<property>
<name>viscosity</name>
<type>Constant</type>
<value>1.0e-3</value>
</property>
</properties>
</phase>
<phase>
<type>Solid</type>
<properties>
<property>
<name>density</name>
<type>Constant</type>
<value>2850</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>5.0</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>6000000</value>
</property>
<property>
<name>thermal_expansivity</name>
<type>Constant</type>
<value>0.0</value>
</property>
</properties>
</phase>
</phases>
<properties>
<property>
<name>relative_permeability</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>biot_coefficient</name>
<type>Constant</type>
<value>1.0</value>
</property>
<property>
<name>saturation</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>permeability</name>
<type>Constant</type>
<value>1.e-11</value>
</property>
<property>
<name>porosity</name>
<type>Constant</type>
<value>1.0</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>EffectiveThermalConductivityPorosityMixing</type>
</property>
</properties>
</medium>
</media>
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<process ref="HeatTransportInStationaryFlow">
<nonlinear_solver>basic_newton</nonlinear_solver>
<convergence_criterion>
<type>PerComponentDeltaX</type>
<norm_type>NORM2</norm_type>
<abstols>1e-11 1e-8</abstols>
</convergence_criterion>
<time_discretization>
<type>BackwardEuler</type>
</time_discretization>
<time_stepping>
<type>FixedTimeStepping</type>
<t_initial> 0.0 </t_initial>
<t_end> 5.e+4 </t_end>
<timesteps>
<pair>
<repeat>250</repeat>
<delta_t>1000</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<output>
<type>VTK</type>
<prefix>HeatTransportInStationaryFlow</prefix>
<timesteps>
<pair>
<repeat> 1 </repeat>
<each_steps> 250 </each_steps>
</pair>
</timesteps>
<variables>
<variable>temperature</variable>
<variable>pressure</variable>
<variable>velocity</variable>
<variable>saturation</variable>
</variables>
<suffix>_ts_{:timestep}_t_{:time}</suffix>
<fixed_output_times>
50000
</fixed_output_times>
</output>
</time_loop>
<parameters>
<!-- Mechanics -->
<parameter>
<name>E</name>
<type>Constant</type>
<value>1e10</value>
</parameter>
<parameter>
<name>nu</name>
<type>Constant</type>
<value>.3</value>
</parameter>
<parameter>
<name>T0</name>
<type>Constant</type>
<value>0.0</value>
</parameter>
<parameter>
<name>P0</name>
<type>Constant</type>
<value>1e+5</value>
</parameter>
<parameter>
<name>p_left</name>
<type>Constant</type>
<value>1.01e5</value>
</parameter>
<parameter>
<name>p_right</name>
<type>Constant</type>
<value>1.0e5</value>
</parameter>
<parameter>
<name>T_left</name>
<type>Constant</type>
<value>1.</value>
</parameter>
<parameter>
<name>displacement0</name>
<type>Constant</type>
<values>0 0</values>
</parameter>
<parameter>
<name>u0</name>
<type>Constant</type>
<values>0</values>
</parameter>
</parameters>
<process_variables>
<process_variable>
<name>temperature</name>
<components>1</components>
<order>1</order>
<initial_condition>T0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>geometry_left_lin</mesh>
<type>Dirichlet</type>
<parameter>T_left</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>pressure</name>
<components>1</components>
<order>1</order>
<initial_condition>P0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>geometry_left_lin</mesh>
<type>Dirichlet</type>
<parameter>p_left</parameter>
</boundary_condition>
<boundary_condition>
<mesh>geometry_right_lin</mesh>
<type>Dirichlet</type>
<parameter>p_right</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<nonlinear_solvers>
<nonlinear_solver>
<name>basic_newton</name>
<type>Newton</type>
<max_iter>50</max_iter>
<linear_solver>general_linear_solver</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
<linear_solvers>
<linear_solver>
<name>general_linear_solver</name>
<eigen>
<solver_type>SparseLU</solver_type>
<scaling>1</scaling>
</eigen>
</linear_solver>
</linear_solvers>
</OpenGeoSysProject>
Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry.gml 0 → 100644
+ 31
0
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_bottom.vtu 0 → 100644
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_bottom_lin.vtu 0 → 100644
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_left.vtu 0 → 100644
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View file @ 14e65130
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_left_lin.vtu 0 → 100644
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_right.vtu 0 → 100644
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_right_lin.vtu 0 → 100644
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View file @ 14e65130
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_top.vtu 0 → 100644
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View file @ 14e65130
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/geometry_top_lin.vtu 0 → 100644
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View file @ 14e65130
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/mesh.vtu 0 → 100644
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View file @ 14e65130
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Tests/Data/ThermoRichardsFlow/HT/HeatTransportInStationaryFlow/mesh_q.vtu 0 → 100644
+ 23
0
View file @ 14e65130
This diff is collapsed.
Tests/Data/ThermoRichardsFlow/HT/SimpleSynthetics/PressureDiffusionTemperatureDiffusion.prj 0 → 100644
+ 266
0
View file @ 14e65130
<?xml version='1.0' encoding='ISO-8859-1'?>
<OpenGeoSysProject>
<mesh>square_1x1_quad_1e3.vtu</mesh>
<geometry>square_1x1.gml</geometry>
<processes>
<process>
<name>PressureDiffusionTemperatureDiffusion</name>
<type>THERMO_RICHARDS_FLOW</type>
<integration_order>2</integration_order>
<process_variables>
<temperature>T</temperature>
<pressure>p</pressure>
</process_variables>
<specific_body_force>0 0</specific_body_force>
<secondary_variables>
<secondary_variable internal_name="velocity" output_name="darcy_velocity"/>
<secondary_variable internal_name="dry_density_solid" output_name="dry_density_solid"/>
<secondary_variable internal_name="porosity" output_name="porosity"/>
</secondary_variables>
</process>
</processes>
<media>
<medium id="0">
<phases>
<phase>
<type>AqueousLiquid</type>
<properties>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>0</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>0.65</value>
</property>
<property>
<name>density</name>
<type>Constant</type>
<value>1.0e-3</value>
</property>
<property>
<name>viscosity</name>
<type>Constant</type>
<value>1.0e-3</value>
</property>
</properties>
</phase>
<phase>
<type>Solid</type>
<properties>
<property>
<name>storage</name>
<type>Constant</type>
<value>0.0</value>
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<property>
<name>density</name>
<type>Constant</type>
<value>0.0</value>
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<property>
<name>thermal_expansivity</name>
<type>Constant</type>
<value>0</value>
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<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>3.0</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>0</value>
</property>
</properties>
</phase>
</phases>
<properties>
<property>
<name>thermal_longitudinal_dispersivity</name>
<type>Constant</type>
<value>0</value>
</property>
<property>
<name>thermal_transversal_dispersivity</name>
<type>Constant</type>
<value>0</value>
</property>
<property>
<name>biot_coefficient</name>
<type>Constant</type>
<value>0.001</value>
</property>
<property>
<name>permeability</name>
<type>Constant</type>
<value>1.e-14 0 0 1.e-14</value>
</property>
<property>
<name>relative_permeability</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>saturation</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>porosity</name>
<type>Constant</type>
<value>0.001</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>EffectiveThermalConductivityPorosityMixing</type>
</property>
</properties>
</medium>
</media>
<time_loop>
<processes>
<process ref="PressureDiffusionTemperatureDiffusion">
<nonlinear_solver>basic_newton</nonlinear_solver>
<convergence_criterion>
<type>DeltaX</type>
<norm_type>NORM2</norm_type>
<abstol>1.e-3</abstol>
</convergence_criterion>
<time_discretization>
<type>BackwardEuler</type>
</time_discretization>
<time_stepping>
<type>FixedTimeStepping</type>
<t_initial>0.0</t_initial>
<t_end>1</t_end>
<timesteps>
<pair>
<repeat>1</repeat>
<delta_t>1</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<output>
<type>VTK</type>
<prefix>PressureDiffusionTemperatureDiffusion</prefix>
<timesteps>
<pair>
<repeat> 1 </repeat>
<each_steps> 1 </each_steps>
</pair>
</timesteps>
<variables>
<variable>T</variable>
<variable>p</variable>
<variable>darcy_velocity</variable>
<variable>dry_density_solid</variable>
<variable>porosity</variable>
</variables>
<suffix>_ts_{:timestep}_t_{:time}</suffix>
</output>
</time_loop>
<parameters>
<parameter>
<name>lambda_fluid</name>
<type>Constant</type>
<value>0.65</value>
</parameter>
<parameter>
<name>T0</name>
<type>Constant</type>
<value>0</value>
</parameter>
<parameter>
<name>P0</name>
<type>Constant</type>
<value>0</value>
</parameter>
<parameter>
<name>p_Dirichlet_left</name>
<type>Constant</type>
<value>1</value>
</parameter>
<parameter>
<name>p_Dirichlet_right</name>
<type>Constant</type>
<value>-1</value>
</parameter>
<parameter>
<name>t_Dirichlet_bottom</name>
<type>Constant</type>
<value>2</value>
</parameter>
<parameter>
<name>t_Dirichlet_top</name>
<type>Constant</type>
<value>1</value>
</parameter>
</parameters>
<process_variables>
<process_variable>
<name>T</name>
<components>1</components>
<order>1</order>
<initial_condition>T0</initial_condition>
<boundary_conditions>
<boundary_condition>
<geometrical_set>geometry</geometrical_set>
<geometry>bottom</geometry>
<type>Dirichlet</type>
<parameter>t_Dirichlet_bottom</parameter>
</boundary_condition>
<boundary_condition>
<geometrical_set>geometry</geometrical_set>
<geometry>top</geometry>
<type>Dirichlet</type>
<parameter>t_Dirichlet_top</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>p</name>
<components>1</components>
<order>1</order>
<initial_condition>P0</initial_condition>
<boundary_conditions>
<boundary_condition>
<geometrical_set>geometry</geometrical_set>
<geometry>left</geometry>
<type>Dirichlet</type>
<parameter>p_Dirichlet_left</parameter>
</boundary_condition>
<boundary_condition>
<geometrical_set>geometry</geometrical_set>
<geometry>right</geometry>
<type>Dirichlet</type>
<parameter>p_Dirichlet_right</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
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<nonlinear_solver>
<name>basic_newton</name>
<type>Newton</type>
<max_iter>1000</max_iter>
<linear_solver>general_linear_solver</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
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<linear_solver>
<name>general_linear_solver</name>
<eigen>
<solver_type>BiCGSTAB</solver_type>
<precon_type>ILUT</precon_type>
<max_iteration_step>10000</max_iteration_step>
<error_tolerance>1e-16</error_tolerance>
</eigen>
</linear_solver>
</linear_solvers>
</OpenGeoSysProject>
Tests/Data/ThermoRichardsFlow/HT/SimpleSynthetics/square_1x1.gml 0 → 100644
+ 36
0
View file @ 14e65130
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<?xml-stylesheet type="text/xsl" href="OpenGeoSysGLI.xsl"?>
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</OpenGeoSysGLI>
Tests/Data/ThermoRichardsFlow/HT/SimpleSynthetics/square_1x1_quad_1e3.vtu 0 → 100644
+ 33
0
View file @ 14e65130
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AQAAAAAAAAAAgAAAAAAAAAAgAAAAAAAAeAUAAAAAAAA=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</AppendedData>
</VTKFile>
Tests/Data/ThermoRichardsFlow/RichardsFlow2D/RichardsFlow_2d_compare_ogs5.prj 0 → 100644
+ 263
0
View file @ 14e65130
<?xml version='1.0' encoding='ISO-8859-1'?>
<OpenGeoSysProject>
<mesh>Richards_2d.vtu</mesh>
<geometry>Richards_2d.gml</geometry>
<processes>
<process>
<name>GW23</name>
<type>THERMO_RICHARDS_FLOW</type>
<integration_order>2</integration_order>
<process_variables>
<temperature>temperature</temperature>
<pressure>pressure</pressure>
</process_variables>
<secondary_variables>
<secondary_variable internal_name="velocity" output_name="velocity"/>
<secondary_variable internal_name="saturation" output_name="saturation"/>
</secondary_variables>
<specific_body_force>0 -9.81</specific_body_force>
<mass_lumping>true</mass_lumping>
</process>
</processes>
<media>
<medium id="0">
<phases>
<phase>
<type>AqueousLiquid</type>
<properties>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>6e7</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>0.0</value>
</property>
<property>
<name>viscosity</name>
<type>Constant</type>
<value> 1.e-3 </value>
</property>
<property>
<name>density</name>
<type>Constant</type>
<value> 1.e3 </value>
</property>
</properties>
</phase>
<phase>
<type>Solid</type>
<properties>
<property>
<name>density</name>
<type>Constant</type>
<value>2850</value>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>5.0</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>6000000</value>
</property>
<property>
<name>thermal_expansivity</name>
<type>Constant</type>
<value>0.0e-5</value>
</property>
</properties>
</phase>
</phases>
<properties>
<property>
<name>biot_coefficient</name>
<type>Constant</type>
<value>0.38</value>
</property>
<property>
<name>porosity</name>
<type>Constant</type>
<value>0.38</value>
</property>
<property>
<name>permeability</name>
<type>Constant</type>
<value>4.46e-13</value>
</property>
<property>
<name>relative_permeability</name>
<type>Curve</type>
<independent_variable>liquid_saturation</independent_variable>
<curve>relative_permeability</curve>
</property>
<property>
<name>saturation</name>
<type>Curve</type>
<independent_variable>capillary_pressure</independent_variable>
<curve>capillary_pressure</curve>
</property>
<property>
<name>thermal_conductivity</name>
<type>EffectiveThermalConductivityPorosityMixing</type>
</property>
</properties>
</medium>
</media>
<time_loop>
<processes>
<process ref="GW23">
<nonlinear_solver>basic_newton</nonlinear_solver>
<convergence_criterion>
<type>DeltaX</type>
<norm_type>NORM2</norm_type>
<abstol>1e-10</abstol>
</convergence_criterion>
<time_discretization>
<type>BackwardEuler</type>
</time_discretization>
<time_stepping>
<type>FixedTimeStepping</type>
<t_initial>0</t_initial>
<t_end>100</t_end>
<timesteps>
<pair>
<repeat>500</repeat>
<delta_t>1</delta_t>
</pair>
<pair>
<repeat>500</repeat>
<delta_t>2</delta_t>
</pair>
<pair>
<repeat>500</repeat>
<delta_t>1</delta_t>
</pair>
<pair>
<repeat>1300</repeat>
<delta_t>2</delta_t>
</pair>
<pair>
<repeat>500</repeat>
<delta_t>1</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<output>
<type>VTK</type>
<prefix>richards_ogs5_pcs</prefix>
<timesteps>
<!-- only output last timestep -->
<pair>
<repeat>1</repeat>
<each_steps>100000000</each_steps>
</pair>
</timesteps>
<output_iteration_results>false</output_iteration_results>
<variables>
<variable>pressure</variable>
<variable>saturation</variable>
</variables>
<suffix>_ts_{:timestep}_t_{:time}</suffix>
</output>
</time_loop>
<parameters>
<parameter>
<name>p0</name>
<type>Constant</type>
<value>-21500.</value>
</parameter>
<parameter>
<name>p_Dirichlet_bottom</name>
<type>Constant</type>
<value>-21500.</value>
</parameter>
<parameter>
<name>p_Dirichlet_top</name>
<type>Constant</type>
<value>0.0</value>
</parameter>
<parameter>
<name>T0</name>
<type>Constant</type>
<value>0</value>
</parameter>
</parameters>
<curves>
<curve>
<name>capillary_pressure</name>
<coords>1421.99634 1707.55369 2050.45507 2462.21599 2892.29884 3232.80969 3590.71602 3988.24638 4429.78757 4920.21206 5464.93174 9238.24221 10261.0136 12658.7874 15616.8683 26399.6732 44627.5611</coords>
<values>1 0.98684211 0.97368421 0.96052632 0.94894737 0.92105263 0.89473684 0.86842105 0.84210526 0.81578947 0.78947368 0.65789474 0.63157895 0.57894737 0.52631579 0.39473684 0.26315789</values>
</curve>
<curve>
<name>relative_permeability</name>
<coords>0.26315789 0.39473684 0.52631579 0.57894737 0.63157895 0.65789474 0.78947368 0.81578947 0.84210526 0.86842105 0.89473684 0.92105263 0.94894737 0.96052632 0.97368421 0.98684211 1</coords>
<values>4.43E-05 0.00026547 0.00159003 0.00325358 0.00665757 0.00952343 0.05704014 0.08159396 0.11671736 0.16696017 0.23883078 0.34163922 0.49931406 0.58449912 0.69907308 0.8361059 1</values>
</curve>
</curves>
<process_variables>
<process_variable>
<name>temperature</name>
<components>1</components>
<order>1</order>
<initial_condition>T0</initial_condition>
<boundary_conditions>
<boundary_condition>
<geometrical_set>Richards_2d_geometry</geometrical_set>
<geometry>BOTTOM</geometry>
<type>Dirichlet</type>
<parameter>T0</parameter>
</boundary_condition>
<boundary_condition>
<geometrical_set>Richards_2d_geometry</geometrical_set>
<geometry>TOP</geometry>
<type>Dirichlet</type>
<parameter>T0</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>pressure</name>
<components>1</components>
<order>1</order>
<initial_condition>p0</initial_condition>
<boundary_conditions>
<boundary_condition>
<geometrical_set>Richards_2d_geometry</geometrical_set>
<geometry>BOTTOM</geometry>
<type>Dirichlet</type>
<parameter>p_Dirichlet_bottom</parameter>
</boundary_condition>
<boundary_condition>
<geometrical_set>Richards_2d_geometry</geometrical_set>
<geometry>TOP</geometry>
<type>Dirichlet</type>
<parameter>p_Dirichlet_top</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<nonlinear_solvers>
<nonlinear_solver>
<name>basic_newton</name>
<type>Newton</type>
<max_iter>100</max_iter>
<linear_solver>general_linear_solver</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
<linear_solvers>
<linear_solver>
<name>general_linear_solver</name>
<eigen>
<solver_type>SparseLU</solver_type>
<scaling>1</scaling>
</eigen>
</linear_solver>
</linear_solvers>
</OpenGeoSysProject>
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