[case] THERMO_HYDRO_MECHANICS

Coupled thermo-hydro-mechanical process. It is implemented monolithically.

Child parameters, attributes and cases

• [tag] coupling_scheme
• [tag] dimension
• [tag] initial_stress
• [tag] process_variables
• [tag] specific_body_force

This process is commonly used together with the following media properties

Note: This list has been automatically extracted from OGS's benchmark tests (ctests). Therefore it might not be exhaustive, but it should give users a good overview about which properties they can/have to use with this process. Probably most of the properties occurring in this list are mandatory.

The list might contain different property <type>s for some property <name> to illustrate different possibilities the users have.

• OpenGeoSysProject/media/medium/phases/phase
  • <type> [case] AqueousLiquid
  • <type> [case] FrozenLiquid
  • <type> [case] Solid
• OpenGeoSysProject/media/medium/phases/phase/properties/property
  • <name> bulk_modulus
    <type> [case] Constant
  • <name> density
    <type> [case] Constant
  • <name> density
    <type> [case] Function
  • <name> density
    <type> [case] Linear
  • <name> density
    <type> [case] Parameter
  • <name> phase_change_expansivity
    <type> [case] Constant
  • <name> specific_heat_capacity
    <type> [case] Constant
  • <name> specific_heat_capacity
    <type> [case] Parameter
  • <name> specific_latent_heat
    <type> [case] Constant
  • <name> thermal_conductivity
    <type> [case] Constant
  • <name> thermal_conductivity
    <type> [case] Parameter
  • <name> thermal_expansivity
    <type> [case] Constant
  • <name> thermal_osmosis_coefficient
    <type> [case] Constant
  • <name> viscosity
    <type> [case] Constant
  • <name> viscosity
    <type> [case] Function
• OpenGeoSysProject/media/medium/properties/property
  • <name> biot_coefficient
    <type> [case] Constant
  • <name> density
    <type> [case] VolumeFractionAverage
  • <name> permeability
    <type> [case] Constant
  • <name> porosity
    <type> [case] Constant
  • <name> reference_temperature
    <type> [case] Constant
  • <name> reference_temperature
    <type> [case] Parameter
  • <name> storage
    <type> [case] Constant
  • <name> thermal_conductivity
    <type> [case] Constant
  • <name> thermal_conductivity
    <type> [case] EffectiveThermalConductivityPorosityMixing
  • <name> thermal_conductivity
    <type> [case] VolumeFractionAverage
  • <name> volume_fraction
    <type> [case] TemperatureDependentFraction

Additional info

No additional info.

Used in the following test data files

• [→ ogs/ogs/master | → doc] TH2M/TH2M/Ansicht_Simple_1e2/A2_THM.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/1D_freezing_column_Stefan/Stefan_problem.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/9percentWaterFreezingExpansion/UnitSquare.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/A2/A2.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/A2/A2_heating.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/BGRaCreepAndInitialStressAtIP_AREHS/arehs-salt-THM01_0.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/ColumnDeformationFreezing/TM.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/HeatingHomogeneousDomain/hex_THM.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Beam_sealed_bimaterial/square_1e2.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Beam_unsealed_bimaterial/square_1e2.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/HeatTransportInStationaryFlow/HeatTransportInStationaryFlow.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/HeatTransportInStationaryFlow/WithFreezingPhase.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Point_injection/pointheatsource_linear-mesh.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Point_injection/pointheatsource_quadratic-mesh.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Square_sealed_homogeneous/square_1e0.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Storage/cube_incompressible_fluid.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/Storage/cube_isochoric_heat-up.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/TH_ClassicalTransportExample/classical_transport_example.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/TH_ClassicalTransportExample/classical_transport_example_full_upwind.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/ThermoOsmosis/Column.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/anisotropic_thermal_expansivity/cube_ortho_phi0.0.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/anisotropic_thermal_expansivity/cube_ortho_phi0.183.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/anisotropic_thermal_expansivity/cube_ortho_phi0.183_petsc.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/anisotropic_thermal_expansivity/square_ortho_phi0.0.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/anisotropic_thermal_expansivity/square_ortho_phi0.183.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/Linear/verification/thm2_1Dfixd/thm2_1Dfixd.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/MultiMaterial/DP_Ehlers/M/square_1e1_2_matIDs.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/MultiMaterial/DP_Ehlers/TM/square_1e1_2_matIDs.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/MultiMaterial/DP_MCC/TM/square_1e1_2_matIDs.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/RestartMCC/mfront_restart_part1.prj
• [→ ogs/ogs/master | → doc] ThermoHydroMechanics/TotalInitialStress/total_initial_stress_HM.prj