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Commit 1395b0cf authored by Dmitri Naumov's avatar Dmitri Naumov
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[T/THM] Stefan problem copied from heat conduction 

Updates to Newton, p and u = 0 through Dirichlet BC,
References updated but the results are very well comparable
with the heat conduction's results.
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ProcessLib/ThermoHydroMechanics/Tests.cmake
+ 1
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...@@ -3,6 +3,7 @@ if (NOT OGS_USE_MPI) ...@@ -3,6 +3,7 @@ if (NOT OGS_USE_MPI)
OgsTest(PROJECTFILE ThermoHydroMechanics/Linear/verification/thm2_1Dfixd/thm2_1Dfixd.prj RUNTIME 60) OgsTest(PROJECTFILE ThermoHydroMechanics/Linear/verification/thm2_1Dfixd/thm2_1Dfixd.prj RUNTIME 60)
OgsTest(PROJECTFILE ThermoHydroMechanics/A2/A2.prj RUNTIME 23) OgsTest(PROJECTFILE ThermoHydroMechanics/A2/A2.prj RUNTIME 23)
OgsTest(PROJECTFILE ThermoHydroMechanics/A2/A2_heating.prj RUNTIME 23) OgsTest(PROJECTFILE ThermoHydroMechanics/A2/A2_heating.prj RUNTIME 23)
OgsTest(PROJECTFILE ThermoHydroMechanics/1D_freezing_column_Stefan/Stefan_problem.prj RUNTIME 15)
endif() endif()
AddTest( AddTest(
......
Tests/Data/ThermoHydroMechanics/1D_freezing_column_Stefan/Stefan_problem.prj 0 → 100644
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View file @ 1395b0cf
<?xml version="1.0" encoding="ISO-8859-1"?>
<!--units: kg, m, s, K and derived units: N, Pa=N/m^2, Da=m^2 -->
<OpenGeoSysProject>
<meshes>
<mesh>mesh.vtu</mesh>
<mesh>mesh_left.vtu</mesh>
<mesh>mesh_right.vtu</mesh>
</meshes>
<processes>
<process>
<name>HeatConduction</name>
<type>THERMO_HYDRO_MECHANICS</type>
<integration_order>2</integration_order>
<dimension>2</dimension>
<constitutive_relation>
<type>LinearElasticIsotropic</type>
<youngs_modulus>E</youngs_modulus>
<poissons_ratio>nu</poissons_ratio>
</constitutive_relation>
<process_variables>
<temperature>temperature</temperature>
<pressure>pressure</pressure>
<displacement>displacement</displacement>
</process_variables>
<specific_body_force>0 0</specific_body_force>
<secondary_variables>
<secondary_variable internal_name="sigma" output_name="sigma"/>
<secondary_variable internal_name="epsilon" output_name="epsilon"/>
<secondary_variable internal_name="velocity" output_name="velocity"/>
</secondary_variables>
</process>
</processes>
<media>
<medium>
<phases>
<phase>
<!-- Pore water phase -->
<type>AqueousLiquid</type>
<properties>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>0.54</value> <!-- W/m/K-->
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>4186</value> <!-- J/kg/K-->
</property>
<property>
<name>density</name>
<type>Constant</type>
<value>1000</value> <!--kg/m^3-->
</property>
<property>
<name>viscosity</name>
<type>Constant</type>
<value>1.0e-3</value>
</property>
</properties>
</phase>
<phase>
<!-- Pore ice phase -->
<type>FrozenLiquid</type>
<properties>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>2.37</value> <!-- W/m/K-->
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>2052</value> <!-- J/kg/K-->
</property>
<property>
<name>density</name>
<type>Constant</type>
<value>900</value> <!--kg/m^3-->
</property>
<property>
<name>specific_latent_heat</name>
<type>Constant</type>
<value>334000</value> <!-- J/kg-->
</property>
<property>
<name>thermal_expansivity</name>
<type>Constant</type>
<value>0</value>
</property>
</properties>
</phase>
<phase>
<!-- Porous solid phase -->
<type>Solid</type>
<properties>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>0</value> <!-- W/m/K-->
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>0</value> <!-- J/kg/K-->
</property>
<property>
<name>density</name>
<type>Constant</type>
<value>0</value> <!--kg/m^3-->
</property>
<property>
<name>thermal_expansivity</name>
<type>Constant</type>
<value>0</value>
</property>
</properties>
</phase>
</phases>
<properties>
<property>
<name>porosity</name>
<type>Constant</type>
<value>1.0</value> <!--no porous solid present-->
</property>
<property>
<name>volume_fraction</name>
<type>TemperatureDependentFraction</type>
<steepness>5</steepness> <!-- 1/K -->
<characteristic_temperature>273.15</characteristic_temperature> <!-- K -->
</property>
<property>
<name>density</name>
<type>VolumeFractionAverage</type>
</property>
<property>
<name>thermal_conductivity</name>
<type>VolumeFractionAverage</type>
</property>
<property>
<name>biot_coefficient</name>
<type>Constant</type>
<value>0.0</value>
</property>
<property>
<name>permeability</name>
<type>Constant</type>
<value>1.e-11</value>
</property>
</properties>
</medium>
</media>
<parameters>
<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>272.25</value>
</parameter>
<parameter>
<name>TB</name>
<type>Constant</type>
<value>373.15</value>
</parameter>
<parameter>
<name>U0</name>
<type>Constant</type>
<values>0 0</values>
</parameter>
<parameter>
<name>zero</name>
<type>Constant</type>
<value>0</value>
</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>mesh_right</mesh>
<type>Dirichlet</type>
<parameter>T0</parameter>
</boundary_condition>
<boundary_condition>
<mesh>mesh_left</mesh>
<type>Dirichlet</type>
<parameter>TB</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>pressure</name>
<components>1</components>
<order>1</order>
<initial_condition>zero</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>mesh</mesh>
<type>Dirichlet</type>
<parameter>zero</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>displacement</name>
<components>2</components>
<order>1</order>
<initial_condition>U0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>mesh</mesh>
<type>Dirichlet</type>
<component>0</component>
<parameter>zero</parameter>
</boundary_condition>
<boundary_condition>
<mesh>mesh</mesh>
<type>Dirichlet</type>
<component>1</component>
<parameter>zero</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<time_loop>
<processes>
<process ref="HeatConduction">
<nonlinear_solver>NLS</nonlinear_solver>
<convergence_criterion>
<type>PerComponentResidual</type>
<norm_type>NORM2</norm_type>
<abstols>1e-10 1e-16 1e-16 1e-16</abstols>
</convergence_criterion>
<time_discretization>
<type>BackwardEuler</type>
</time_discretization>
<time_stepping>
<type>FixedTimeStepping</type>
<t_initial>0.0</t_initial>
<t_end>427000000</t_end> <!--427e6 s x 30780000 s/a ~ 13.5 a-->
<timesteps>
<pair>
<repeat>427</repeat>
<delta_t>1e6</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<output>
<type>VTK</type>
<prefix>Stefan_problem</prefix>
<timesteps>
<pair>
<repeat>10000</repeat>
<each_steps>1</each_steps>
</pair>
</timesteps>
<variables>
<variable> temperature </variable>
<variable> heat_flux </variable>
</variables>
<suffix>_ts_{:timestep}_t_{:time}</suffix>
</output>
</time_loop>
<nonlinear_solvers>
<nonlinear_solver>
<name>NLS</name>
<type>Newton</type>
<!-- Many iterations are needed for the first time step. -->
<max_iter>500</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>true</scaling>
</eigen>
</linear_solver>
</linear_solvers>
<test_definition>
<!--primary field-->
<vtkdiff>
<file>Stefan_problem_ts_46_t_46000000.000000.vtu</file>
<field>temperature</field>
<absolute_tolerance>2e-11</absolute_tolerance>
<relative_tolerance>0</relative_tolerance>
</vtkdiff>
<vtkdiff>
<file>Stefan_problem_ts_427_t_427000000.000000.vtu</file>
<field>temperature</field>
<absolute_tolerance>7e-11</absolute_tolerance>
<relative_tolerance>0</relative_tolerance>
</vtkdiff>
<!--secondary field-->
<vtkdiff>
<file>Stefan_problem_ts_46_t_46000000.000000.vtu</file>
<field>HeatFlowRate</field>
<absolute_tolerance>1e-10</absolute_tolerance>
<relative_tolerance>0</relative_tolerance>
</vtkdiff>
<vtkdiff>
<file>Stefan_problem_ts_427_t_427000000.000000.vtu</file>
<field>HeatFlowRate</field>
<absolute_tolerance>1e-10</absolute_tolerance>
<relative_tolerance>0</relative_tolerance>
</vtkdiff>
</test_definition>
</OpenGeoSysProject>
Tests/Data/ThermoHydroMechanics/1D_freezing_column_Stefan/Stefan_problem_ts_427_t_427000000.000000.vtu 0 → 100644
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View file @ 1395b0cf
<?xml version="1.0"?>
<VTKFile type="UnstructuredGrid" version="1.0" byte_order="LittleEndian" header_type="UInt64" compressor="vtkZLibDataCompressor">
<UnstructuredGrid>
<FieldData>
<DataArray type="Int8" Name="IntegrationPointMetaData" NumberOfTuples="166" format="appended" RangeMin="34" RangeMax="125" offset="0" />
<DataArray type="Int8" Name="OGS_VERSION" NumberOfTuples="19" format="appended" RangeMin="45" RangeMax="103" offset="176" />
<DataArray type="Float64" Name="epsilon_ip" NumberOfComponents="4" NumberOfTuples="400" format="appended" RangeMin="0" RangeMax="0" offset="256" />
<DataArray type="Float64" Name="sigma_ip" NumberOfComponents="4" NumberOfTuples="400" format="appended" RangeMin="0" RangeMax="0" offset="348" />
</FieldData>
<Piece NumberOfPoints="202" NumberOfCells="100" >
<PointData>
<DataArray type="Float64" Name="HeatFlowRate" format="appended" RangeMin="-2.4389855422" RangeMax="3.0246246598" offset="440" />
<DataArray type="Float64" Name="MassFlowRate" format="appended" RangeMin="-0" RangeMax="-0" offset="1272" />
<DataArray type="Float64" Name="NodalForces" NumberOfComponents="2" format="appended" RangeMin="0" RangeMax="0" offset="1352" />
<DataArray type="UInt64" Name="bulk_node_ids" format="appended" RangeMin="0" RangeMax="201" offset="1440" />
<DataArray type="Float64" Name="epsilon" NumberOfComponents="4" format="appended" RangeMin="0" RangeMax="0" offset="1956" />
<DataArray type="Float64" Name="pressure_interpolated" format="appended" RangeMin="0" RangeMax="0" offset="2040" />
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<DataArray type="Float64" Name="temperature" format="appended" RangeMin="272.25" RangeMax="373.15" offset="2196" />
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Tests/Data/ThermoHydroMechanics/1D_freezing_column_Stefan/Stefan_problem_ts_46_t_46000000.000000.vtu 0 → 100644
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Tests/Data/ThermoHydroMechanics/1D_freezing_column_Stefan/mesh.vtu 0 → 100644
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Tests/Data/ThermoHydroMechanics/1D_freezing_column_Stefan/mesh_left.vtu 0 → 100644
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View file @ 1395b0cf
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Tests/Data/ThermoHydroMechanics/1D_freezing_column_Stefan/mesh_right.vtu 0 → 100644
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View file @ 1395b0cf
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