.. Created using 4C version (git SHA1): 94d307e8b81d05a5cec0d1fd47ca58f4be040deb .. _prescribedconditionreference: Prescribed Condition Reference ============================== .. _designpointneumannconditions: DESIGN POINT NEUMANN CONDITIONS ------------------------------- Point Neumann :: ------------------------------------DESIGN POINT NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designpointmomentebconditions: DESIGN POINT MOMENT EB CONDITIONS --------------------------------- Point Neumann Moment for an Euler-Bernoulli beam :: ----------------------------------DESIGN POINT MOMENT EB CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designlineneumannconditions: DESIGN LINE NEUMANN CONDITIONS ------------------------------ Line Neumann :: -------------------------------------DESIGN LINE NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designsurfneumannconditions: DESIGN SURF NEUMANN CONDITIONS ------------------------------ Surface Neumann :: -------------------------------------DESIGN SURF NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designvolneumannconditions: DESIGN VOL NEUMANN CONDITIONS ----------------------------- Volume Neumann :: --------------------------------------DESIGN VOL NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designpointtransportneumannconditions: DESIGN POINT TRANSPORT NEUMANN CONDITIONS ----------------------------------------- Point Neumann :: --------------------------DESIGN POINT TRANSPORT NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designlinetransportneumannconditions: DESIGN LINE TRANSPORT NEUMANN CONDITIONS ---------------------------------------- Line Neumann :: ---------------------------DESIGN LINE TRANSPORT NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designsurftransportneumannconditions: DESIGN SURF TRANSPORT NEUMANN CONDITIONS ---------------------------------------- Surface Neumann :: ---------------------------DESIGN SURF TRANSPORT NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designvoltransportneumannconditions: DESIGN VOL TRANSPORT NEUMANN CONDITIONS --------------------------------------- Volume Neumann :: ----------------------------DESIGN VOL TRANSPORT NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designpointthermoneumannconditions: DESIGN POINT THERMO NEUMANN CONDITIONS -------------------------------------- Point Neumann :: -----------------------------DESIGN POINT THERMO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designlinethermoneumannconditions: DESIGN LINE THERMO NEUMANN CONDITIONS ------------------------------------- Line Neumann :: ------------------------------DESIGN LINE THERMO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designsurfthermoneumannconditions: DESIGN SURF THERMO NEUMANN CONDITIONS ------------------------------------- Surface Neumann :: ------------------------------DESIGN SURF THERMO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designvolthermoneumannconditions: DESIGN VOL THERMO NEUMANN CONDITIONS ------------------------------------ Volume Neumann :: -------------------------------DESIGN VOL THERMO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designpointporoneumannconditions: DESIGN POINT PORO NEUMANN CONDITIONS ------------------------------------ Point Neumann :: -------------------------------DESIGN POINT PORO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designlineporoneumannconditions: DESIGN LINE PORO NEUMANN CONDITIONS ----------------------------------- Line Neumann :: --------------------------------DESIGN LINE PORO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designsurfporoneumannconditions: DESIGN SURF PORO NEUMANN CONDITIONS ----------------------------------- Surface Neumann :: --------------------------------DESIGN SURF PORO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designvolporoneumannconditions: DESIGN VOL PORO NEUMANN CONDITIONS ---------------------------------- Volume Neumann :: ---------------------------------DESIGN VOL PORO NEUMANN CONDITIONS :: // NUMDOF // ONOFF > "onoff" // VAL > "values" // FUNCT >> "function ids" // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) "type" .. _designpointdirichconditions: DESIGN POINT DIRICH CONDITIONS ------------------------------ Point Dirichlet :: -------------------------------------DESIGN POINT DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designlinedirichconditions: DESIGN LINE DIRICH CONDITIONS ----------------------------- Line Dirichlet :: --------------------------------------DESIGN LINE DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designsurfdirichconditions: DESIGN SURF DIRICH CONDITIONS ----------------------------- Surface Dirichlet :: --------------------------------------DESIGN SURF DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designvoldirichconditions: DESIGN VOL DIRICH CONDITIONS ---------------------------- Volume Dirichlet :: ---------------------------------------DESIGN VOL DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designpointaledirichconditions: DESIGN POINT ALE DIRICH CONDITIONS ---------------------------------- Point Dirichlet :: ---------------------------------DESIGN POINT ALE DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designlinealedirichconditions: DESIGN LINE ALE DIRICH CONDITIONS --------------------------------- Line Dirichlet :: ----------------------------------DESIGN LINE ALE DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designsurfaledirichconditions: DESIGN SURF ALE DIRICH CONDITIONS --------------------------------- Surface Dirichlet :: ----------------------------------DESIGN SURF ALE DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designvolaledirichconditions: DESIGN VOL ALE DIRICH CONDITIONS -------------------------------- Volume Dirichlet :: -----------------------------------DESIGN VOL ALE DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designpointtransportdirichconditions: DESIGN POINT TRANSPORT DIRICH CONDITIONS ---------------------------------------- Point Dirichlet :: ---------------------------DESIGN POINT TRANSPORT DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designlinetransportdirichconditions: DESIGN LINE TRANSPORT DIRICH CONDITIONS --------------------------------------- Line Dirichlet :: ----------------------------DESIGN LINE TRANSPORT DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designsurftransportdirichconditions: DESIGN SURF TRANSPORT DIRICH CONDITIONS --------------------------------------- Surface Dirichlet :: ----------------------------DESIGN SURF TRANSPORT DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designvoltransportdirichconditions: DESIGN VOL TRANSPORT DIRICH CONDITIONS -------------------------------------- Volume Dirichlet :: -----------------------------DESIGN VOL TRANSPORT DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designpointthermodirichconditions: DESIGN POINT THERMO DIRICH CONDITIONS ------------------------------------- Point Dirichlet :: ------------------------------DESIGN POINT THERMO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designlinethermodirichconditions: DESIGN LINE THERMO DIRICH CONDITIONS ------------------------------------ Line Dirichlet :: -------------------------------DESIGN LINE THERMO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designsurfthermodirichconditions: DESIGN SURF THERMO DIRICH CONDITIONS ------------------------------------ Surface Dirichlet :: -------------------------------DESIGN SURF THERMO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designvolthermodirichconditions: DESIGN VOL THERMO DIRICH CONDITIONS ----------------------------------- Volume Dirichlet :: --------------------------------DESIGN VOL THERMO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designpointporodirichconditions: DESIGN POINT PORO DIRICH CONDITIONS ----------------------------------- Point Dirichlet :: --------------------------------DESIGN POINT PORO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designlineporodirichconditions: DESIGN LINE PORO DIRICH CONDITIONS ---------------------------------- Line Dirichlet :: ---------------------------------DESIGN LINE PORO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designsurfporodirichconditions: DESIGN SURF PORO DIRICH CONDITIONS ---------------------------------- Surface Dirichlet :: ---------------------------------DESIGN SURF PORO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designvolporodirichconditions: DESIGN VOL PORO DIRICH CONDITIONS --------------------------------- Volume Dirichlet :: ----------------------------------DESIGN VOL PORO DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designpointnurbslsdirichconditions: DESIGN POINT NURBS LS DIRICH CONDITIONS --------------------------------------- Point Dirichlet :: ----------------------------DESIGN POINT NURBS LS DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designlinenurbslsdirichconditions: DESIGN LINE NURBS LS DIRICH CONDITIONS -------------------------------------- Line Dirichlet :: -----------------------------DESIGN LINE NURBS LS DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designsurfnurbslsdirichconditions: DESIGN SURF NURBS LS DIRICH CONDITIONS -------------------------------------- Surface Dirichlet :: -----------------------------DESIGN SURF NURBS LS DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designvolnurbslsdirichconditions: DESIGN VOL NURBS LS DIRICH CONDITIONS ------------------------------------- Volume Dirichlet :: ------------------------------DESIGN VOL NURBS LS DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designpointcouplingconditions: DESIGN POINT COUPLING CONDITIONS -------------------------------- Point Coupling :: -----------------------------------DESIGN POINT COUPLING CONDITIONS :: // NUMDOF // ONOFF > .. _designpointthermocouplingconditions: DESIGN POINT THERMO COUPLING CONDITIONS --------------------------------------- Point Coupling :: ----------------------------DESIGN POINT THERMO COUPLING CONDITIONS :: // NUMDOF // ONOFF > .. _designpointinitialfieldconditions: DESIGN POINT INITIAL FIELD CONDITIONS ------------------------------------- Point Initfield :: ------------------------------DESIGN POINT INITIAL FIELD CONDITIONS :: // FIELD (choices: Artery|PoroMultiFluid|Porosity|Pressure|ScaTra|Temperature|Undefined|Velocity) "init field" // FUNCT .. _designlineinitialfieldconditions: DESIGN LINE INITIAL FIELD CONDITIONS ------------------------------------ Line Initfield :: -------------------------------DESIGN LINE INITIAL FIELD CONDITIONS :: // FIELD (choices: Artery|PoroMultiFluid|Porosity|Pressure|ScaTra|Temperature|Undefined|Velocity) "init field" // FUNCT .. _designsurfinitialfieldconditions: DESIGN SURF INITIAL FIELD CONDITIONS ------------------------------------ Surface Initfield :: -------------------------------DESIGN SURF INITIAL FIELD CONDITIONS :: // FIELD (choices: Artery|PoroMultiFluid|Porosity|Pressure|ScaTra|Temperature|Undefined|Velocity) "init field" // FUNCT .. _designvolinitialfieldconditions: DESIGN VOL INITIAL FIELD CONDITIONS ----------------------------------- Volume Initfield :: --------------------------------DESIGN VOL INITIAL FIELD CONDITIONS :: // FIELD (choices: Artery|PoroMultiFluid|Porosity|Pressure|ScaTra|Temperature|Undefined|Velocity) "init field" // FUNCT .. _designpointthermoinitialfieldconditions: DESIGN POINT THERMO INITIAL FIELD CONDITIONS -------------------------------------------- Set the initial temperature field if the thermo field is solved using a ScaTra discretization (e.g. STI, SSTI) on points :: -----------------------DESIGN POINT THERMO INITIAL FIELD CONDITIONS :: // FIELD (choices: ScaTra|Undefined) "init field" // FUNCT .. _designlinethermoinitialfieldconditions: DESIGN LINE THERMO INITIAL FIELD CONDITIONS ------------------------------------------- Set the initial temperature field if the thermo field is solved using a ScaTra discretization (e.g. STI, SSTI) on lines :: ------------------------DESIGN LINE THERMO INITIAL FIELD CONDITIONS :: // FIELD (choices: ScaTra|Undefined) "init field" // FUNCT .. _designsurfthermoinitialfieldconditions: DESIGN SURF THERMO INITIAL FIELD CONDITIONS ------------------------------------------- Set the initial temperature field if the thermo field is solved using a ScaTra discretization (e.g. STI, SSTI) on surfaces :: ------------------------DESIGN SURF THERMO INITIAL FIELD CONDITIONS :: // FIELD (choices: ScaTra|Undefined) "init field" // FUNCT .. _designvolthermoinitialfieldconditions: DESIGN VOL THERMO INITIAL FIELD CONDITIONS ------------------------------------------ Set the initial temperature field if the thermo field is solved using a ScaTra discretization (e.g. STI, SSTI) on volumes :: -------------------------DESIGN VOL THERMO INITIAL FIELD CONDITIONS :: // FIELD (choices: ScaTra|Undefined) "init field" // FUNCT .. _designdomainintegralsurfconditions: DESIGN DOMAIN INTEGRAL SURF CONDITIONS -------------------------------------- compute cumulative surface areas of 2D domain elements :: -----------------------------DESIGN DOMAIN INTEGRAL SURF CONDITIONS :: // ConditionID .. _designdomainintegralvolconditions: DESIGN DOMAIN INTEGRAL VOL CONDITIONS ------------------------------------- compute cumulative volumes of 3D domain elements :: ------------------------------DESIGN DOMAIN INTEGRAL VOL CONDITIONS :: // ConditionID .. _designboundaryintegralsurfconditions: DESIGN BOUNDARY INTEGRAL SURF CONDITIONS ---------------------------------------- compute cumulative surface areas of 2D boundary elements :: ---------------------------DESIGN BOUNDARY INTEGRAL SURF CONDITIONS :: // ConditionID .. _designlinealewearconditions2d: DESIGN LINE ALE WEAR CONDITIONS 2D ---------------------------------- Line Ale Wear :: ---------------------------------DESIGN LINE ALE WEAR CONDITIONS 2D .. _designsurfacewearconditions3d: DESIGN SURFACE WEAR CONDITIONS 3D --------------------------------- Surface Ale Wear :: ----------------------------------DESIGN SURFACE WEAR CONDITIONS 3D .. _designpointlocsysconditions: DESIGN POINT LOCSYS CONDITIONS ------------------------------ Point local coordinate system :: -------------------------------------DESIGN POINT LOCSYS CONDITIONS :: // ROTANGLE > // FUNCT >> // USEUPDATEDNODEPOS .. _designlinelocsysconditions: DESIGN LINE LOCSYS CONDITIONS ----------------------------- Line local coordinate system :: --------------------------------------DESIGN LINE LOCSYS CONDITIONS :: // ROTANGLE > // FUNCT >> // USEUPDATEDNODEPOS // USECONSISTENTNODENORMAL .. _designsurflocsysconditions: DESIGN SURF LOCSYS CONDITIONS ----------------------------- Surface local coordinate system :: --------------------------------------DESIGN SURF LOCSYS CONDITIONS :: // ROTANGLE > // FUNCT >> // USEUPDATEDNODEPOS // USECONSISTENTNODENORMAL .. _designvollocsysconditions: DESIGN VOL LOCSYS CONDITIONS ---------------------------- Volume local coordinate system :: ---------------------------------------DESIGN VOL LOCSYS CONDITIONS :: // ROTANGLE > // FUNCT >> // USEUPDATEDNODEPOS .. _designlineperiodicboundaryconditions: DESIGN LINE PERIODIC BOUNDARY CONDITIONS ---------------------------------------- Line Periodic :: ---------------------------DESIGN LINE PERIODIC BOUNDARY CONDITIONS :: // ID "periodic boundary condition id" // MASTER_OR_SLAVE (choices: Master|Slave) "master-slave toggle" // PLANE (choices: xy|xyz|xz|yz) "degrees of freedom for the pbc plane" // LAYER "layer of periodic boundary condition" // ANGLE "angle of rotation" // ABSTREETOL "tolerance for nodematching in octree" .. _designsurfperiodicboundaryconditions: DESIGN SURF PERIODIC BOUNDARY CONDITIONS ---------------------------------------- Surface Periodic :: ---------------------------DESIGN SURF PERIODIC BOUNDARY CONDITIONS :: // ID "periodic boundary condition id" // MASTER_OR_SLAVE (choices: Master|Slave) "master-slave toggle" // PLANE (choices: xy|xyz|xz|yz) "degrees of freedom for the pbc plane" // LAYER "layer of periodic boundary condition" // ANGLE "angle of rotation" // ABSTREETOL "tolerance for nodematching in octree" .. _designlineweakdirichletconditions: DESIGN LINE WEAK DIRICHLET CONDITIONS ------------------------------------- LineWeakDirichlet :: ------------------------------DESIGN LINE WEAK DIRICHLET CONDITIONS :: // GAMMATYPE (choices: adjoint-consistent|diffusive-optimal) "Choice of gamma parameter" // DIR (choices: all_directions|only_in_normal_direction) "Directions to apply weak dbc" // PENTYPE (choices: Spalding|constant) "Definition of penalty parameter" // TauBscaling // LINEARISATION (choices: lin_all|no_lin_conv_inflow) "Linearisation" // VAL > "values" // FUNCT > (default: 0 0 0 ) "function ids" .. _designsurfaceweakdirichletconditions: DESIGN SURFACE WEAK DIRICHLET CONDITIONS ---------------------------------------- SurfaceWeakDirichlet :: ---------------------------DESIGN SURFACE WEAK DIRICHLET CONDITIONS :: // GAMMATYPE (choices: adjoint-consistent|diffusive-optimal) "Choice of gamma parameter" // DIR (choices: all_directions|only_in_normal_direction) "Directions to apply weak dbc" // PENTYPE (choices: Spalding|constant) "Definition of penalty parameter" // TauBscaling // LINEARISATION (choices: lin_all|no_lin_conv_inflow) "Linearisation" // VAL > "values" // FUNCT > (default: 0 0 0 ) "function ids" .. _designpatchrecoveryboundarylineconditions: DESIGN PATCH RECOVERY BOUNDARY LINE CONDITIONS ---------------------------------------------- Boundary for SPR :: ---------------------DESIGN PATCH RECOVERY BOUNDARY LINE CONDITIONS .. _designpatchrecoveryboundarysurfconditions: DESIGN PATCH RECOVERY BOUNDARY SURF CONDITIONS ---------------------------------------------- Boundary for SPR :: ---------------------DESIGN PATCH RECOVERY BOUNDARY SURF CONDITIONS .. _designsurfacevolumeconstraint3d: DESIGN SURFACE VOLUME CONSTRAINT 3D ----------------------------------- Surface Volume Constraint :: --------------------------------DESIGN SURFACE VOLUME CONSTRAINT 3D :: // ConditionID // curve > (default: none) "id of the curve" // activeTime // projection (default: none) (choices: none|xy|xz|yz) "projection" .. _designsurfacevolumeconstraint3dpen: DESIGN SURFACE VOLUME CONSTRAINT 3D PEN --------------------------------------- Surface Volume Constraint Penalty :: ----------------------------DESIGN SURFACE VOLUME CONSTRAINT 3D PEN :: // ConditionID // curve > (default: none) "id of the curve" // activeTime // penalty // rho // projection (default: none) (choices: none|xy|xz|yz) "projection" .. _designsurfaceareaconstraint3d: DESIGN SURFACE AREA CONSTRAINT 3D --------------------------------- Surface Area Constraint :: ----------------------------------DESIGN SURFACE AREA CONSTRAINT 3D :: // ConditionID // curve > (default: none) "id of the curve" // activeTime .. _designsurfacevolumemonitor3d: DESIGN SURFACE VOLUME MONITOR 3D -------------------------------- Surface Volume Monitor :: -----------------------------------DESIGN SURFACE VOLUME MONITOR 3D :: // ConditionID .. _designsurfaceareamonitor3d: DESIGN SURFACE AREA MONITOR 3D ------------------------------ Surface Area Monitor :: -------------------------------------DESIGN SURFACE AREA MONITOR 3D :: // ConditionID // projection (default: none) (choices: none|xy|xz|yz) "projection" .. _designlineareaconstraint2d: DESIGN LINE AREA CONSTRAINT 2D ------------------------------ Line Area Constraint :: -------------------------------------DESIGN LINE AREA CONSTRAINT 2D :: // ConditionID // curve > (default: none) // activeTime .. _designlineareamonitor2d: DESIGN LINE AREA MONITOR 2D --------------------------- Line Area Monitor :: ----------------------------------------DESIGN LINE AREA MONITOR 2D :: // ConditionID .. _designsurfacemultipntconstraint3d: DESIGN SURFACE MULTIPNT CONSTRAINT 3D ------------------------------------- Node on Plane Constraint :: ------------------------------DESIGN SURFACE MULTIPNT CONSTRAINT 3D :: // ConditionID // amplitude // curve > (default: none) // activeTime // planeNodes > "ids of the nodes spanning the plane" // control (default: rel) (choices: abs|rel) "relative or absolute control" .. _designsurfacenormaldirmultipntconstraint3d: DESIGN SURFACE NORMALDIR MULTIPNT CONSTRAINT 3D ----------------------------------------------- Node on Plane Constraint :: --------------------DESIGN SURFACE NORMALDIR MULTIPNT CONSTRAINT 3D :: // ConditionID // amplitude // curve > (default: none) // activeTime // masterNode // direction > "direction" // value (default: disp) (choices: disp|x) "value" // control (default: rel) (choices: abs|rel) "relative or absolute control" .. _designsurfacenormaldirmultipntconstraint3dpen: DESIGN SURFACE NORMALDIR MULTIPNT CONSTRAINT 3D PEN --------------------------------------------------- Node on Plane Constraint Penalty :: ----------------DESIGN SURFACE NORMALDIR MULTIPNT CONSTRAINT 3D PEN :: // ConditionID // amplitude // curve > (default: none) // activeTime // penalty // masterNode // direction > "direction" // value (default: disp) (choices: disp|x) "value" // control (default: rel) (choices: abs|rel) "relative or absolute control" .. _designlinemultipntconstraint2d: DESIGN LINE MULTIPNT CONSTRAINT 2D ---------------------------------- Node on Line Constraint :: ---------------------------------DESIGN LINE MULTIPNT CONSTRAINT 2D :: // ConditionID // amplitude // curve > (default: none) // constrNode1 // constrNode2 // constrNode3 // control (default: dist) (choices: angle|dist) "distance or angle control" // activeTime .. _designsurfmodeforkrylovspaceprojection: DESIGN SURF MODE FOR KRYLOV SPACE PROJECTION -------------------------------------------- Surface mode for Krylov space projection :: -----------------------DESIGN SURF MODE FOR KRYLOV SPACE PROJECTION :: // DIS (choices: fluid|scatra|solid) "discretization" // NUMMODES // ONOFF > // WEIGHTVECDEF (choices: integration|pointvalues) "weight vector definition" .. _designvolmodeforkrylovspaceprojection: DESIGN VOL MODE FOR KRYLOV SPACE PROJECTION ------------------------------------------- Volume mode for Krylov space projection :: ------------------------DESIGN VOL MODE FOR KRYLOV SPACE PROJECTION :: // DIS (choices: fluid|scatra|solid) "discretization" // NUMMODES // ONOFF > // WEIGHTVECDEF (choices: integration|pointvalues) "weight vector definition" .. _designlinemortarcontactconditions2d: DESIGN LINE MORTAR CONTACT CONDITIONS 2D ---------------------------------------- Line Contact Coupling :: ---------------------------DESIGN LINE MORTAR CONTACT CONDITIONS 2D :: // InterfaceID // Side (choices: Master|Selfcontact|Slave) "interface side" // Initialization (default: Inactive) (choices: Active|Inactive) "initialization" // FrCoeffOrBound (default: 0) "friction coefficient bound" // AdhesionBound (default: 0) "adhesion bound" // Application (default: Solidcontact) (choices: Beamtosolidcontact|Beamtosolidmeshtying|Solidcontact) "application" // DbcHandling (default: DoNothing) "DbcHandling" // TwoHalfPass (default: 0) "optional two half pass approach" // RefConfCheckNonSmoothSelfContactSurface (default: 0) "optional reference configuration check for non-smooth self contact surfaces" // ConstitutiveLawID > (default: none) "material id of the constitutive law" .. _designsurfmortarcontactconditions3d: DESIGN SURF MORTAR CONTACT CONDITIONS 3D ---------------------------------------- Surface Contact Coupling :: ---------------------------DESIGN SURF MORTAR CONTACT CONDITIONS 3D :: // InterfaceID // Side (choices: Master|Selfcontact|Slave) "interface side" // Initialization (default: Inactive) (choices: Active|Inactive) "initialization" // FrCoeffOrBound (default: 0) "friction coefficient bound" // AdhesionBound (default: 0) "adhesion bound" // Application (default: Solidcontact) (choices: Beamtosolidcontact|Beamtosolidmeshtying|Solidcontact) "application" // DbcHandling (default: DoNothing) "DbcHandling" // TwoHalfPass (default: 0) "optional two half pass approach" // RefConfCheckNonSmoothSelfContactSurface (default: 0) "optional reference configuration check for non-smooth self contact surfaces" // ConstitutiveLawID > (default: none) "material id of the constitutive law" .. _designlinemortarcouplingconditions2d: DESIGN LINE MORTAR COUPLING CONDITIONS 2D ----------------------------------------- Line Mortar Coupling :: --------------------------DESIGN LINE MORTAR COUPLING CONDITIONS 2D :: // InterfaceID // Side (choices: Master|Slave) "interface side" // Initialization (default: Inactive) (choices: Active|Inactive) "initialization" .. _designsurfmortarcouplingconditions3d: DESIGN SURF MORTAR COUPLING CONDITIONS 3D ----------------------------------------- Surface Mortar Coupling :: --------------------------DESIGN SURF MORTAR COUPLING CONDITIONS 3D :: // InterfaceID // Side (choices: Master|Slave) "interface side" // Initialization (default: Inactive) (choices: Active|Inactive) "initialization" .. _designlinemortarsymmetryconditions3d: DESIGN LINE MORTAR SYMMETRY CONDITIONS 3D ----------------------------------------- Symmetry plane normal for 3D contact :: --------------------------DESIGN LINE MORTAR SYMMETRY CONDITIONS 3D :: // ONOFF > .. _designpointmortarsymmetryconditions2d/3d: DESIGN POINT MORTAR SYMMETRY CONDITIONS 2D/3D --------------------------------------------- Symmetry plane normal for 2D/3D contact :: ----------------------DESIGN POINT MORTAR SYMMETRY CONDITIONS 2D/3D :: // ONOFF > .. _designlinemortaredgeconditions3d: DESIGN LINE MORTAR EDGE CONDITIONS 3D ------------------------------------- Geometrical edge for 3D contact :: ------------------------------DESIGN LINE MORTAR EDGE CONDITIONS 3D .. _designpointmortarcornerconditions2d/3d: DESIGN POINT MORTAR CORNER CONDITIONS 2D/3D ------------------------------------------- Geometrical corner for 2D/3D contact :: ------------------------DESIGN POINT MORTAR CORNER CONDITIONS 2D/3D .. _designlinemortarmulti-couplingconditions2d: DESIGN LINE MORTAR MULTI-COUPLING CONDITIONS 2D ----------------------------------------------- Line Mortar Multi-Coupling :: --------------------DESIGN LINE MORTAR MULTI-COUPLING CONDITIONS 2D :: // InterfaceID // Side (choices: Master|Slave) "interface side" // Initialization (default: Inactive) (choices: Active|Inactive) "initialization" .. _designsurfmortarmulti-couplingconditions3d: DESIGN SURF MORTAR MULTI-COUPLING CONDITIONS 3D ----------------------------------------------- Surface Mortar Multi-Coupling :: --------------------DESIGN SURF MORTAR MULTI-COUPLING CONDITIONS 3D :: // InterfaceID // Side (choices: Master|Slave) "interface side" // Initialization (default: Inactive) (choices: Active|Inactive) "initialization" .. _designs2imeshtyinglineconditions: DESIGN S2I MESHTYING LINE CONDITIONS ------------------------------------ Scatra-scatra line interface mesh tying :: -------------------------------DESIGN S2I MESHTYING LINE CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface side" // S2I_KINETICS_ID .. _designs2imeshtyingsurfconditions: DESIGN S2I MESHTYING SURF CONDITIONS ------------------------------------ Scatra-scatra surface interface mesh tying :: -------------------------------DESIGN S2I MESHTYING SURF CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface side" // S2I_KINETICS_ID .. _designs2ikineticspointconditions: DESIGN S2I KINETICS POINT CONDITIONS ------------------------------------ Scatra-scatra line interface kinetics :: -------------------------------DESIGN S2I KINETICS POINT CONDITIONS :: // : // : // ConditionID // INTERFACE_SIDE (choices: Master|Undefined) // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: ConstantPermeability|LinearPermeability) // NUMSCAL // PERMEABILITIES > // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer|Butler-VolmerReduced|Butler-VolmerReduced_Linearized|Butler-Volmer_Linearized) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer-Peltier) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // PELTIER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_Capacitance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // CAPACITANCE // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_ThermoResistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // THERMOPERM // MOLAR_HEAT_CAPACITY // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: ConstantInterfaceResistance) // ONOFF > // RESISTANCE // E- // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: NoInterfaceFlux) .. _designs2ikineticslineconditions: DESIGN S2I KINETICS LINE CONDITIONS ----------------------------------- Scatra-scatra line interface kinetics :: --------------------------------DESIGN S2I KINETICS LINE CONDITIONS :: // : // : // ConditionID // INTERFACE_SIDE (choices: Master|Undefined) // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: ConstantPermeability|LinearPermeability) // NUMSCAL // PERMEABILITIES > // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer|Butler-VolmerReduced|Butler-VolmerReduced_Linearized|Butler-Volmer_Linearized) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer-Peltier) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // PELTIER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_Capacitance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // CAPACITANCE // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_ThermoResistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // THERMOPERM // MOLAR_HEAT_CAPACITY // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: ConstantInterfaceResistance) // ONOFF > // RESISTANCE // E- // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: NoInterfaceFlux) .. _designs2ikineticssurfconditions: DESIGN S2I KINETICS SURF CONDITIONS ----------------------------------- Scatra-scatra surface interface kinetics :: --------------------------------DESIGN S2I KINETICS SURF CONDITIONS :: // : // : // ConditionID // INTERFACE_SIDE (choices: Master|Undefined) // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: ConstantPermeability|LinearPermeability) // NUMSCAL // PERMEABILITIES > // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer|Butler-VolmerReduced|Butler-VolmerReduced_Linearized|Butler-Volmer_Linearized) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer-Peltier) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // PELTIER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_Capacitance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // CAPACITANCE // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-Volmer_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: Butler-VolmerReduced_ThermoResistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // THERMOPERM // MOLAR_HEAT_CAPACITY // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: ConstantInterfaceResistance) // ONOFF > // RESISTANCE // E- // IS_PSEUDO_CONTACT // : // ConditionID // INTERFACE_SIDE (choices: Slave) // KINETIC_MODEL (choices: NoInterfaceFlux) .. _designscatramulti-scalecouplingpointconditions: DESIGN SCATRA MULTI-SCALE COUPLING POINT CONDITIONS --------------------------------------------------- Scalar transport multi-scale coupling condition :: ----------------DESIGN SCATRA MULTI-SCALE COUPLING POINT CONDITIONS :: // : // : // KINETIC_MODEL (choices: ConstantPermeability|LinearPermeability) // NUMSCAL // PERMEABILITIES > // IS_PSEUDO_CONTACT // : // KINETIC_MODEL (choices: Butler-Volmer|Butler-VolmerReduced|Butler-VolmerReduced_Linearized|Butler-Volmer_Linearized) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // KINETIC_MODEL (choices: Butler-Volmer-Peltier) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // PELTIER // : // KINETIC_MODEL (choices: Butler-VolmerReduced_Capacitance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // CAPACITANCE // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // : // KINETIC_MODEL (choices: Butler-Volmer_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // KINETIC_MODEL (choices: Butler-VolmerReduced_Resistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // RESISTANCE // CONVTOL_IMPLBUTLERVOLMER // ITEMAX_IMPLBUTLERVOLMER // : // KINETIC_MODEL (choices: Butler-VolmerReduced_ThermoResistance) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // IS_PSEUDO_CONTACT // THERMOPERM // MOLAR_HEAT_CAPACITY // : // KINETIC_MODEL (choices: ConstantInterfaceResistance) // ONOFF > // RESISTANCE // E- // IS_PSEUDO_CONTACT // KINETIC_MODEL (choices: NoInterfaceFlux) .. _designs2ikineticsgrowthlineconditions: DESIGN S2I KINETICS GROWTH LINE CONDITIONS ------------------------------------------ Scatra-scatra line interface layer growth kinetics :: -------------------------DESIGN S2I KINETICS GROWTH LINE CONDITIONS :: // ConditionID // KINETIC_MODEL (choices: Butler-Volmer) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // MOLMASS // DENSITY // CONDUCTIVITY // REGTYPE (choices: Hein|none|polynomial|trigonometrical) // REGPAR // INITTHICKNESS .. _designs2ikineticsgrowthsurfconditions: DESIGN S2I KINETICS GROWTH SURF CONDITIONS ------------------------------------------ Scatra-scatra surface interface layer growth kinetics :: -------------------------DESIGN S2I KINETICS GROWTH SURF CONDITIONS :: // ConditionID // KINETIC_MODEL (choices: Butler-Volmer) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // MOLMASS // DENSITY // CONDUCTIVITY // REGTYPE (choices: Hein|none|polynomial|trigonometrical) // REGPAR // INITTHICKNESS .. _designs2isclcouplingsurfconditions: DESIGN S2I SCL COUPLING SURF CONDITIONS --------------------------------------- Scatra-scatra surface with SCL micro-macro coupling between :: ----------------------------DESIGN S2I SCL COUPLING SURF CONDITIONS :: // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface side" .. _scatrafluxcalclineconditions: SCATRA FLUX CALC LINE CONDITIONS -------------------------------- Scalar Transport Boundary Flux Calculation :: -----------------------------------SCATRA FLUX CALC LINE CONDITIONS .. _scatrafluxcalcsurfconditions: SCATRA FLUX CALC SURF CONDITIONS -------------------------------- Scalar Transport Boundary Flux Calculation :: -----------------------------------SCATRA FLUX CALC SURF CONDITIONS .. _designtotalandmeanscalarlineconditions: DESIGN TOTAL AND MEAN SCALAR LINE CONDITIONS -------------------------------------------- calculation of total and mean values of transported scalars :: -----------------------DESIGN TOTAL AND MEAN SCALAR LINE CONDITIONS :: // ConditionID .. _designtotalandmeanscalarsurfconditions: DESIGN TOTAL AND MEAN SCALAR SURF CONDITIONS -------------------------------------------- calculation of total and mean values of transported scalars :: -----------------------DESIGN TOTAL AND MEAN SCALAR SURF CONDITIONS :: // ConditionID .. _designtotalandmeanscalarvolconditions: DESIGN TOTAL AND MEAN SCALAR VOL CONDITIONS ------------------------------------------- calculation of total and mean values of transported scalars :: ------------------------DESIGN TOTAL AND MEAN SCALAR VOL CONDITIONS :: // ConditionID .. _designscatrarelativeerrorlineconditions: DESIGN SCATRA RELATIVE ERROR LINE CONDITIONS -------------------------------------------- calculation of relative error with reference to analytical solution :: -----------------------DESIGN SCATRA RELATIVE ERROR LINE CONDITIONS :: // ConditionID // Function .. _designscatrarelativeerrorsurfconditions: DESIGN SCATRA RELATIVE ERROR SURF CONDITIONS -------------------------------------------- calculation of relative error with reference to analytical solution :: -----------------------DESIGN SCATRA RELATIVE ERROR SURF CONDITIONS :: // ConditionID // Function .. _designscatrarelativeerrorvolconditions: DESIGN SCATRA RELATIVE ERROR VOL CONDITIONS ------------------------------------------- calculation of relative error with reference to analytical solution :: ------------------------DESIGN SCATRA RELATIVE ERROR VOL CONDITIONS :: // ConditionID // Function .. _designscatracouplingsurfconditions: DESIGN SCATRA COUPLING SURF CONDITIONS -------------------------------------- ScaTra Coupling :: -----------------------------DESIGN SCATRA COUPLING SURF CONDITIONS :: // NUMSCAL // ONOFF > // COUPID // PERMCOEF // CONDUCT // FILTR // WSSON "flag if wall shear stress coupling is on" // WSSCOEFFS > .. _designtransportrobinlineconditions: DESIGN TRANSPORT ROBIN LINE CONDITIONS -------------------------------------- Scalar Transport Robin Boundary Condition :: -----------------------------DESIGN TRANSPORT ROBIN LINE CONDITIONS :: // NUMSCAL // ONOFF > // PREFACTOR // REFVALUE .. _designtransportrobinsurfconditions: DESIGN TRANSPORT ROBIN SURF CONDITIONS -------------------------------------- Scalar Transport Robin Boundary Condition :: -----------------------------DESIGN TRANSPORT ROBIN SURF CONDITIONS :: // NUMSCAL // ONOFF > // PREFACTOR // REFVALUE .. _transportneumanninflowlineconditions: TRANSPORT NEUMANN INFLOW LINE CONDITIONS ---------------------------------------- Line Transport Neumann Inflow :: ---------------------------TRANSPORT NEUMANN INFLOW LINE CONDITIONS .. _transportneumanninflowsurfconditions: TRANSPORT NEUMANN INFLOW SURF CONDITIONS ---------------------------------------- Surface Transport Neumann Inflow :: ---------------------------TRANSPORT NEUMANN INFLOW SURF CONDITIONS .. _transportthermoconvectionlineconditions: TRANSPORT THERMO CONVECTION LINE CONDITIONS ------------------------------------------- Line Transport Thermo Convections :: ------------------------TRANSPORT THERMO CONVECTION LINE CONDITIONS :: // temperature_state (choices: Tempn|Tempnp) "temperature state" // coeff "heat transfer coefficient h" // surtemp "surrounding (fluid) temperature T_oo" // surtempfunct > (default: none) "time curve to increase the surrounding (fluid) temperature T_oo in time" // funct > (default: none) "time curve to increase the complete boundary condition, i.e., the heat flux" .. _transportthermoconvectionsurfconditions: TRANSPORT THERMO CONVECTION SURF CONDITIONS ------------------------------------------- Surface Transport Thermo Convections :: ------------------------TRANSPORT THERMO CONVECTION SURF CONDITIONS :: // temperature_state (choices: Tempn|Tempnp) "temperature state" // coeff "heat transfer coefficient h" // surtemp "surrounding (fluid) temperature T_oo" // surtempfunct > (default: none) "time curve to increase the surrounding (fluid) temperature T_oo in time" // funct > (default: none) "time curve to increase the complete boundary condition, i.e., the heat flux" .. _designscatraheterogeneousreactionlineconditions/master: DESIGN SCATRA HETEROGENEOUS REACTION LINE CONDITIONS / MASTER ------------------------------------------------------------- calculation of heterogeneous reactions :: ------DESIGN SCATRA HETEROGENEOUS REACTION LINE CONDITIONS / MASTER .. _designscatraheterogeneousreactionsurfconditions/master: DESIGN SCATRA HETEROGENEOUS REACTION SURF CONDITIONS / MASTER ------------------------------------------------------------- calculation of heterogeneous reactions :: ------DESIGN SCATRA HETEROGENEOUS REACTION SURF CONDITIONS / MASTER .. _designscatraheterogeneousreactionlineconditions/slave: DESIGN SCATRA HETEROGENEOUS REACTION LINE CONDITIONS / SLAVE ------------------------------------------------------------ calculation of heterogeneous reactions :: -------DESIGN SCATRA HETEROGENEOUS REACTION LINE CONDITIONS / SLAVE .. _designscatraheterogeneousreactionsurfconditions/slave: DESIGN SCATRA HETEROGENEOUS REACTION SURF CONDITIONS / SLAVE ------------------------------------------------------------ calculation of heterogeneous reactions :: -------DESIGN SCATRA HETEROGENEOUS REACTION SURF CONDITIONS / SLAVE .. _designscatrasurfconditions/partitioning: DESIGN SCATRA SURF CONDITIONS / PARTITIONING -------------------------------------------- Domain partitioning of scatra field :: -----------------------DESIGN SCATRA SURF CONDITIONS / PARTITIONING .. _designscatravolconditions/partitioning: DESIGN SCATRA VOL CONDITIONS / PARTITIONING ------------------------------------------- Domain partitioning of scatra field :: ------------------------DESIGN SCATRA VOL CONDITIONS / PARTITIONING .. _designelectrodestateofchargelineconditions: DESIGN ELECTRODE STATE OF CHARGE LINE CONDITIONS ------------------------------------------------ electrode state of charge line condition :: -------------------DESIGN ELECTRODE STATE OF CHARGE LINE CONDITIONS :: // ConditionID // C_0% // C_100% // ONE_HOUR .. _designelectrodestateofchargesurfconditions: DESIGN ELECTRODE STATE OF CHARGE SURF CONDITIONS ------------------------------------------------ electrode state of charge surface condition :: -------------------DESIGN ELECTRODE STATE OF CHARGE SURF CONDITIONS :: // ConditionID // C_0% // C_100% // ONE_HOUR .. _designelectrodestateofchargevolconditions: DESIGN ELECTRODE STATE OF CHARGE VOL CONDITIONS ----------------------------------------------- electrode state of charge volume condition :: --------------------DESIGN ELECTRODE STATE OF CHARGE VOL CONDITIONS :: // ConditionID // C_0% // C_100% // ONE_HOUR .. _designcellvoltagepointconditions: DESIGN CELL VOLTAGE POINT CONDITIONS ------------------------------------ cell voltage point condition :: -------------------------------DESIGN CELL VOLTAGE POINT CONDITIONS :: // ConditionID .. _designcellvoltagelineconditions: DESIGN CELL VOLTAGE LINE CONDITIONS ----------------------------------- cell voltage line condition :: --------------------------------DESIGN CELL VOLTAGE LINE CONDITIONS :: // ConditionID .. _designcellvoltagesurfconditions: DESIGN CELL VOLTAGE SURF CONDITIONS ----------------------------------- cell voltage surface condition :: --------------------------------DESIGN CELL VOLTAGE SURF CONDITIONS :: // ConditionID .. _electrodeboundarykineticspointconditions: ELECTRODE BOUNDARY KINETICS POINT CONDITIONS -------------------------------------------- point electrode boundary kinetics :: -----------------------ELECTRODE BOUNDARY KINETICS POINT CONDITIONS :: // : // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer|Butler-Volmer-Yang1997) // ALPHA_A // ALPHA_C // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Tafel) // ALPHA // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: linear) // ALPHA // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer-Newman) // K_A // K_C // BETA // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer-Bard) // E0 // K0 // BETA // C_C0 // C_A0 // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Nernst) // E0 // C0 // DL_SPEC_CAP .. _electrodeboundarykineticslineconditions: ELECTRODE BOUNDARY KINETICS LINE CONDITIONS ------------------------------------------- line electrode boundary kinetics :: ------------------------ELECTRODE BOUNDARY KINETICS LINE CONDITIONS :: // : // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer|Butler-Volmer-Yang1997) // ALPHA_A // ALPHA_C // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Tafel) // ALPHA // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: linear) // ALPHA // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer-Newman) // K_A // K_C // BETA // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer-Bard) // E0 // K0 // BETA // C_C0 // C_A0 // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Nernst) // E0 // C0 // DL_SPEC_CAP .. _electrodeboundarykineticssurfconditions: ELECTRODE BOUNDARY KINETICS SURF CONDITIONS ------------------------------------------- surface electrode boundary kinetics :: ------------------------ELECTRODE BOUNDARY KINETICS SURF CONDITIONS :: // : // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer|Butler-Volmer-Yang1997) // ALPHA_A // ALPHA_C // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Tafel) // ALPHA // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: linear) // ALPHA // I0 // GAMMA // REFCON // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer-Newman) // K_A // K_C // BETA // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer-Bard) // E0 // K0 // BETA // C_C0 // C_A0 // DL_SPEC_CAP // : // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // EPSILON "porosity of electrode boundary, set to -1 if equal to porosity of electrolyte domain" // ZERO_CUR // KINETIC_MODEL (choices: Nernst) // E0 // C0 // DL_SPEC_CAP .. _electrodedomainkineticslineconditions: ELECTRODE DOMAIN KINETICS LINE CONDITIONS ----------------------------------------- line electrode domain kinetics :: --------------------------ELECTRODE DOMAIN KINETICS LINE CONDITIONS :: // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer) // A_S // ALPHA_A // ALPHA_C // I0 // GAMMA // REFCON // DL_SPEC_CAP .. _electrodedomainkineticssurfconditions: ELECTRODE DOMAIN KINETICS SURF CONDITIONS ----------------------------------------- surface electrode domain kinetics :: --------------------------ELECTRODE DOMAIN KINETICS SURF CONDITIONS :: // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer) // A_S // ALPHA_A // ALPHA_C // I0 // GAMMA // REFCON // DL_SPEC_CAP .. _electrodedomainkineticsvolconditions: ELECTRODE DOMAIN KINETICS VOL CONDITIONS ---------------------------------------- volume electrode domain kinetics :: ---------------------------ELECTRODE DOMAIN KINETICS VOL CONDITIONS :: // ConditionID // POT // FUNCT > (default: none) // NUMSCAL // STOICH > // E- // ZERO_CUR // KINETIC_MODEL (choices: Butler-Volmer) // A_S // ALPHA_A // ALPHA_C // I0 // GAMMA // REFCON // DL_SPEC_CAP .. _designcccvcellcyclingpointconditions: DESIGN CCCV CELL CYCLING POINT CONDITIONS ----------------------------------------- line boundary condition for constant-current constant-voltage (CCCV) cell cycling :: --------------------------DESIGN CCCV CELL CYCLING POINT CONDITIONS :: // NUMBER_OF_HALF_CYCLES // BEGIN_WITH_CHARGING // CONDITION_ID_FOR_CHARGE > (default: none) // CONDITION_ID_FOR_DISCHARGE > (default: none) // INIT_RELAX_TIME // ADAPTIVE_TIME_STEPPING_INIT_RELAX // NUM_ADD_ADAPT_TIME_STEPS > (default: none) // MIN_TIME_STEPS_DURING_INIT_RELAX > (default: none) .. _designcccvcellcyclinglineconditions: DESIGN CCCV CELL CYCLING LINE CONDITIONS ---------------------------------------- line boundary condition for constant-current constant-voltage (CCCV) cell cycling :: ---------------------------DESIGN CCCV CELL CYCLING LINE CONDITIONS :: // NUMBER_OF_HALF_CYCLES // BEGIN_WITH_CHARGING // CONDITION_ID_FOR_CHARGE > (default: none) // CONDITION_ID_FOR_DISCHARGE > (default: none) // INIT_RELAX_TIME // ADAPTIVE_TIME_STEPPING_INIT_RELAX // NUM_ADD_ADAPT_TIME_STEPS > (default: none) // MIN_TIME_STEPS_DURING_INIT_RELAX > (default: none) .. _designcccvcellcyclingsurfconditions: DESIGN CCCV CELL CYCLING SURF CONDITIONS ---------------------------------------- surface boundary condition for constant-current constant-voltage (CCCV) cell cycling :: ---------------------------DESIGN CCCV CELL CYCLING SURF CONDITIONS :: // NUMBER_OF_HALF_CYCLES // BEGIN_WITH_CHARGING // CONDITION_ID_FOR_CHARGE > (default: none) // CONDITION_ID_FOR_DISCHARGE > (default: none) // INIT_RELAX_TIME // ADAPTIVE_TIME_STEPPING_INIT_RELAX // NUM_ADD_ADAPT_TIME_STEPS > (default: none) // MIN_TIME_STEPS_DURING_INIT_RELAX > (default: none) .. _designcccvhalf-cyclepointconditions: DESIGN CCCV HALF-CYCLE POINT CONDITIONS --------------------------------------- line boundary condition for constant-current constant-voltage (CCCV) half-cycle :: ----------------------------DESIGN CCCV HALF-CYCLE POINT CONDITIONS :: // ConditionID // CURRENT // CUT_OFF_VOLTAGE // CUT_OFF_C_RATE // RELAX_TIME // ADAPTIVE_TIME_STEPPING_PHASE_ON_OFF > .. _designcccvhalf-cyclelineconditions: DESIGN CCCV HALF-CYCLE LINE CONDITIONS -------------------------------------- line boundary condition for constant-current constant-voltage (CCCV) half-cycle :: -----------------------------DESIGN CCCV HALF-CYCLE LINE CONDITIONS :: // ConditionID // CURRENT // CUT_OFF_VOLTAGE // CUT_OFF_C_RATE // RELAX_TIME // ADAPTIVE_TIME_STEPPING_PHASE_ON_OFF > .. _designcccvhalf-cyclesurfconditions: DESIGN CCCV HALF-CYCLE SURF CONDITIONS -------------------------------------- surface boundary condition for constant-current constant-voltage (CCCV) half-cycle :: -----------------------------DESIGN CCCV HALF-CYCLE SURF CONDITIONS :: // ConditionID // CURRENT // CUT_OFF_VOLTAGE // CUT_OFF_C_RATE // RELAX_TIME // ADAPTIVE_TIME_STEPPING_PHASE_ON_OFF > .. _designsurfturbulentinflowtransfer: DESIGN SURF TURBULENT INFLOW TRANSFER ------------------------------------- TransferTurbulentInflow :: ------------------------------DESIGN SURF TURBULENT INFLOW TRANSFER :: // ID // toggle (choices: master|slave) "toggle" // DIRECTION (default: x) "transfer direction" // curve > (default: none) "curve id" .. _fluidturbulentinflowvolume: FLUID TURBULENT INFLOW VOLUME ----------------------------- TurbulentInflowSection :: --------------------------------------FLUID TURBULENT INFLOW VOLUME .. _designsurfaceflow-dependentpressureconditions: DESIGN SURFACE FLOW-DEPENDENT PRESSURE CONDITIONS ------------------------------------------------- SurfaceFlowDepPressure :: ------------------DESIGN SURFACE FLOW-DEPENDENT PRESSURE CONDITIONS :: // TYPE_OF_FLOW_DEPENDENCE (choices: fixed_pressure|flow_rate|flow_volume) "type of flow dependence" // ConstCoeff "constant coefficient for (linear) flow-rate-based condition" // LinCoeff "linear coefficient for (linear) flow-rate-based condition" // InitialVolume "initial (air-cushion) volume outside of boundary" // ReferencePressure "reference pressure outside of boundary" // AdiabaticExponent "adiabatic exponent" // curve > (default: none) "curve id" .. _designlineslipsupplementalcurvedboundaryconditions: DESIGN LINE SLIP SUPPLEMENTAL CURVED BOUNDARY CONDITIONS -------------------------------------------------------- LineSlipSupp :: -----------DESIGN LINE SLIP SUPPLEMENTAL CURVED BOUNDARY CONDITIONS :: // USEUPDATEDNODEPOS .. _designsurfaceslipsupplementalcurvedboundaryconditions: DESIGN SURFACE SLIP SUPPLEMENTAL CURVED BOUNDARY CONDITIONS ----------------------------------------------------------- SurfaceSlipSupp :: --------DESIGN SURFACE SLIP SUPPLEMENTAL CURVED BOUNDARY CONDITIONS :: // USEUPDATEDNODEPOS .. _designlinenavier-slipboundaryconditions: DESIGN LINE NAVIER-SLIP BOUNDARY CONDITIONS ------------------------------------------- LineNavierSlip :: ------------------------DESIGN LINE NAVIER-SLIP BOUNDARY CONDITIONS :: // SLIPCOEFFICIENT .. _designsurfnavier-slipboundaryconditions: DESIGN SURF NAVIER-SLIP BOUNDARY CONDITIONS ------------------------------------------- SurfNavierSlip :: ------------------------DESIGN SURF NAVIER-SLIP BOUNDARY CONDITIONS :: // SLIPCOEFFICIENT .. _designsurfaceconservativeoutflowconsistency: DESIGN SURFACE CONSERVATIVE OUTFLOW CONSISTENCY ----------------------------------------------- SurfaceConservativeOutflowConsistency :: --------------------DESIGN SURFACE CONSERVATIVE OUTFLOW CONSISTENCY .. _fluidneumanninflowlineconditions: FLUID NEUMANN INFLOW LINE CONDITIONS ------------------------------------ Line Fluid Neumann Inflow :: -------------------------------FLUID NEUMANN INFLOW LINE CONDITIONS .. _fluidneumanninflowsurfconditions: FLUID NEUMANN INFLOW SURF CONDITIONS ------------------------------------ Surface Fluid Neumann Inflow :: -------------------------------FLUID NEUMANN INFLOW SURF CONDITIONS .. _designlinemixed/hybriddirichletconditions: DESIGN LINE MIXED/HYBRID DIRICHLET CONDITIONS --------------------------------------------- LineMixHybDirichlet :: ----------------------DESIGN LINE MIXED/HYBRID DIRICHLET CONDITIONS :: // val > "velocity" // funct >> (default: none none none ) "spatial function" // u_C // PENTYPE (choices: Spalding|constant) "how penalty parameter is computed" // hB_divided_by // utau_computation (choices: at_wall|viscous_tangent) "how traction at y is computed from utau" .. _designsurfacemixed/hybriddirichletconditions: DESIGN SURFACE MIXED/HYBRID DIRICHLET CONDITIONS ------------------------------------------------ SurfaceMixHybDirichlet :: -------------------DESIGN SURFACE MIXED/HYBRID DIRICHLET CONDITIONS :: // val > "velocity" // funct >> (default: none none none ) "spatial function" // u_C // PENTYPE (choices: Spalding|constant) "how penalty parameter is computed" // hB_divided_by // utau_computation (choices: at_wall|viscous_tangent) "how traction at y is computed from utau" .. _designfluidstresscalclineconditions: DESIGN FLUID STRESS CALC LINE CONDITIONS ---------------------------------------- Line Fluid Stress Calculation :: ---------------------------DESIGN FLUID STRESS CALC LINE CONDITIONS .. _designfluidstresscalcsurfconditions: DESIGN FLUID STRESS CALC SURF CONDITIONS ---------------------------------------- Surf Fluid Stress Calculation :: ---------------------------DESIGN FLUID STRESS CALC SURF CONDITIONS .. _designfluidsurflift&drag: DESIGN FLUID SURF LIFT&DRAG --------------------------- Surface LIFTDRAG :: ----------------------------------------DESIGN FLUID SURF LIFT&DRAG :: // label // CENTER > // AXIS > (default: 0 0 0 ) .. _designflowratelineconditions: DESIGN FLOW RATE LINE CONDITIONS -------------------------------- Line Flow Rate :: -----------------------------------DESIGN FLOW RATE LINE CONDITIONS :: // ConditionID .. _designflowratesurfconditions: DESIGN FLOW RATE SURF CONDITIONS -------------------------------- Surface Flow Rate :: -----------------------------------DESIGN FLOW RATE SURF CONDITIONS :: // ConditionID .. _designsurfvolumetricflowconditions: DESIGN SURF VOLUMETRIC FLOW CONDITIONS -------------------------------------- volumetric surface flow condition :: -----------------------------DESIGN SURF VOLUMETRIC FLOW CONDITIONS :: // ConditionID // ConditionType (default: POLYNOMIAL) (choices: POLYNOMIAL|WOMERSLEY) "condition type" // prebiased (default: NOTPREBIASED) (choices: FORCED|NOTPREBIASED|PREBIASED) "prebiased" // FlowType (default: InFlow) (choices: InFlow|OutFlow) "flow type" // CorrectionFlag (default: WithOutCorrection) (choices: WithCorrection|WithOutCorrection) "correction flag" // Period // Order // Harmonics // Val // Funct // NORMAL (default: SelfEvaluateNormal) (choices: SelfEvaluateNormal|UsePrescribedNormal) "normal" // n1 // n2 // n3 // CenterOfMass (default: SelfEvaluateCenterOfMass) (choices: SelfEvaluateCenterOfMass|UsePrescribedCenterOfMass) "center of mass" // c1 // c2 // c3 .. _designlinevolumetricflowbordernodes: DESIGN LINE VOLUMETRIC FLOW BORDER NODES ---------------------------------------- volumetric flow border nodes condition :: ---------------------------DESIGN LINE VOLUMETRIC FLOW BORDER NODES :: // ConditionID .. _designsurftotaltractioncorrectionconditions: DESIGN SURF TOTAL TRACTION CORRECTION CONDITIONS ------------------------------------------------ total traction correction condition :: -------------------DESIGN SURF TOTAL TRACTION CORRECTION CONDITIONS :: // ConditionID // ConditionType (default: POLYNOMIAL) (choices: POLYNOMIAL|WOMERSLEY) "condition type" // prebiased (default: NOTPREBIASED) (choices: FORCED|NOTPREBIASED|PREBIASED) "prebiased" // FlowType (default: InFlow) (choices: InFlow|OutFlow) "flow type" // CorrectionFlag (default: WithOutCorrection) (choices: WithCorrection|WithOutCorrection) "correction flag" // Period // Order // Harmonics // Val // Funct // NORMAL (default: SelfEvaluateNormal) (choices: SelfEvaluateNormal|UsePrescribedNormal) "normal" // n1 // n2 // n3 // CenterOfMass (default: SelfEvaluateCenterOfMass) (choices: SelfEvaluateCenterOfMass|UsePrescribedCenterOfMass) "center of mass" // c1 // c2 // c3 .. _designlinetotaltractioncorrectionbordernodes: DESIGN LINE TOTAL TRACTION CORRECTION BORDER NODES -------------------------------------------------- total traction correction border nodes condition :: -----------------DESIGN LINE TOTAL TRACTION CORRECTION BORDER NODES :: // ConditionID .. _designsurfacenormalnopenetrationcondition: DESIGN SURFACE NORMAL NO PENETRATION CONDITION ---------------------------------------------- No Penetration :: ---------------------DESIGN SURFACE NORMAL NO PENETRATION CONDITION .. _designlinenormalnopenetrationcondition: DESIGN LINE NORMAL NO PENETRATION CONDITION ------------------------------------------- No Penetration :: ------------------------DESIGN LINE NORMAL NO PENETRATION CONDITION .. _designvolumeporocouplingcondition: DESIGN VOLUME POROCOUPLING CONDITION ------------------------------------ Poro Coupling :: -------------------------------DESIGN VOLUME POROCOUPLING CONDITION .. _designsurfaceporocouplingcondition: DESIGN SURFACE POROCOUPLING CONDITION ------------------------------------- Poro Coupling :: ------------------------------DESIGN SURFACE POROCOUPLING CONDITION .. _designsurfaceporopartialintegration: DESIGN SURFACE PORO PARTIAL INTEGRATION --------------------------------------- Poro Partial Integration :: ----------------------------DESIGN SURFACE PORO PARTIAL INTEGRATION .. _designlineporopartialintegration: DESIGN LINE PORO PARTIAL INTEGRATION ------------------------------------ Poro Partial Integration :: -------------------------------DESIGN LINE PORO PARTIAL INTEGRATION .. _designsurfaceporopressureintegration: DESIGN SURFACE PORO PRESSURE INTEGRATION ---------------------------------------- Poro Pressure Integration :: ---------------------------DESIGN SURFACE PORO PRESSURE INTEGRATION .. _designlineporopressureintegration: DESIGN LINE PORO PRESSURE INTEGRATION ------------------------------------- Poro Pressure Integration :: ------------------------------DESIGN LINE PORO PRESSURE INTEGRATION .. _designaleupdatelineconditions: DESIGN ALE UPDATE LINE CONDITIONS --------------------------------- ALEUPDATE Coupling :: ----------------------------------DESIGN ALE UPDATE LINE CONDITIONS :: // COUPLING (default: lagrange) (choices: heightfunction|lagrange|meantangentialvelocity|meantangentialvelocityscaled|sphereHeightFunction) // VAL // NODENORMALFUNCT .. _designaleupdatesurfconditions: DESIGN ALE UPDATE SURF CONDITIONS --------------------------------- ALEUPDATE Coupling :: ----------------------------------DESIGN ALE UPDATE SURF CONDITIONS :: // COUPLING (default: lagrange) (choices: heightfunction|lagrange|meantangentialvelocity|meantangentialvelocityscaled|sphereHeightFunction) // VAL // NODENORMALFUNCT .. _designfsicouplinglineconditions: DESIGN FSI COUPLING LINE CONDITIONS ----------------------------------- FSI Coupling :: --------------------------------DESIGN FSI COUPLING LINE CONDITIONS :: // coupling_id .. _designfsicouplingsurfconditions: DESIGN FSI COUPLING SURF CONDITIONS ----------------------------------- FSI Coupling :: --------------------------------DESIGN FSI COUPLING SURF CONDITIONS :: // coupling_id .. _designfsicouplingcenterdisplineconditions: DESIGN FSI COUPLING CENTER DISP LINE CONDITIONS ----------------------------------------------- FSI Coupling Center Disp :: --------------------DESIGN FSI COUPLING CENTER DISP LINE CONDITIONS .. _designfsicouplingcenterdispsurfconditions: DESIGN FSI COUPLING CENTER DISP SURF CONDITIONS ----------------------------------------------- FSI Coupling Center Disp :: --------------------DESIGN FSI COUPLING CENTER DISP SURF CONDITIONS .. _designstructurealecouplingsurfconditions: DESIGN STRUCTURE ALE COUPLING SURF CONDITIONS --------------------------------------------- StructAleCoupling :: ----------------------DESIGN STRUCTURE ALE COUPLING SURF CONDITIONS :: // coupling_id // field (default: structure) (choices: ale|structure) "field" .. _designstructurefluidvolumecouplingvolconditions: DESIGN STRUCTURE FLUID VOLUME COUPLING VOL CONDITIONS ----------------------------------------------------- StructFluidVolCoupling :: --------------DESIGN STRUCTURE FLUID VOLUME COUPLING VOL CONDITIONS :: // coupling_id // field (default: structure) (choices: ale|structure) "field" .. _designfpsicouplinglineconditions: DESIGN FPSI COUPLING LINE CONDITIONS ------------------------------------ FPSI Coupling :: -------------------------------DESIGN FPSI COUPLING LINE CONDITIONS :: // coupling_id .. _designfpsicouplingsurfconditions: DESIGN FPSI COUPLING SURF CONDITIONS ------------------------------------ FPSI Coupling :: -------------------------------DESIGN FPSI COUPLING SURF CONDITIONS :: // coupling_id .. _designsurfaceneumannintegration: DESIGN SURFACE NEUMANN INTEGRATION ---------------------------------- Neumann Integration :: ---------------------------------DESIGN SURFACE NEUMANN INTEGRATION .. _designlineneumannintegration: DESIGN LINE NEUMANN INTEGRATION ------------------------------- Neumann Integration :: ------------------------------------DESIGN LINE NEUMANN INTEGRATION .. _designfluidmeshvolconditions: DESIGN FLUID MESH VOL CONDITIONS -------------------------------- Fluid Mesh :: -----------------------------------DESIGN FLUID MESH VOL CONDITIONS :: // COUPLINGID .. _designfluidfluidcouplingsurfconditions: DESIGN FLUID FLUID COUPLING SURF CONDITIONS ------------------------------------------- FLUID FLUID Coupling :: ------------------------DESIGN FLUID FLUID COUPLING SURF CONDITIONS :: // COUPLINGID .. _designalefluidcouplingsurfconditions: DESIGN ALE FLUID COUPLING SURF CONDITIONS ----------------------------------------- ALE FLUID Coupling :: --------------------------DESIGN ALE FLUID COUPLING SURF CONDITIONS :: // COUPLINGID .. _designxfemdisplacementsurfconditions: DESIGN XFEM DISPLACEMENT SURF CONDITIONS ---------------------------------------- XFEM Surf Displacement :: ---------------------------DESIGN XFEM DISPLACEMENT SURF CONDITIONS :: // COUPLINGID // EVALTYPE (default: funct) (choices: funct|implementation|zero) // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designxfemlevelsetweakdirichletvolconditions: DESIGN XFEM LEVELSET WEAK DIRICHLET VOL CONDITIONS -------------------------------------------------- XFEM Levelset Weak Dirichlet :: -----------------DESIGN XFEM LEVELSET WEAK DIRICHLET VOL CONDITIONS :: // COUPLINGID // LEVELSETFIELDNO // BOOLEANTYPE (choices: cut|difference|none|sym_difference|union) "define which boolean operator is used for combining this level-set field with the previous one with smaller coupling id" // COMPLEMENTARY "define which complementary operator is applied after combining the level-set field with a boolean operator with the previous one" // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) // RANDNOISE (default: 0) "set percentage of random noise used in uniform random distribution" .. _designxfemlevelsetneumannvolconditions: DESIGN XFEM LEVELSET NEUMANN VOL CONDITIONS ------------------------------------------- XFEM Levelset Neumann :: ------------------------DESIGN XFEM LEVELSET NEUMANN VOL CONDITIONS :: // COUPLINGID // LEVELSETFIELDNO // BOOLEANTYPE (choices: cut|difference|none|sym_difference|union) "define which boolean operator is used for combining this level-set field with the previous one with smaller coupling id" // COMPLEMENTARY "define which complementary operator is applied after combining the level-set field with a boolean operator with the previous one" // NUMDOF // ONOFF > // VAL > // FUNCT >> // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) // INFLOW_STAB (default: false) .. _designxfemlevelsetnavierslipvolconditions: DESIGN XFEM LEVELSET NAVIER SLIP VOL CONDITIONS ----------------------------------------------- XFEM Levelset Navier Slip :: --------------------DESIGN XFEM LEVELSET NAVIER SLIP VOL CONDITIONS :: // COUPLINGID // LEVELSETFIELDNO // BOOLEANTYPE (choices: cut|difference|none|sym_difference|union) "define which boolean operator is used for combining this level-set field with the previous one with smaller coupling id" // COMPLEMENTARY "define which complementary operator is applied after combining the level-set field with a boolean operator with the previous one" // SURFACE_PROJECTION (default: proj_normal) (choices: proj_normal|proj_normal_phi|proj_normal_smoothed_comb|proj_smoothed) // L2_PROJECTION_SOLVER // ROBIN_DIRICHLET_ID > (default: none) // ROBIN_NEUMANN_ID > (default: none) // SLIPCOEFFICIENT // FUNCT (default: 0) "slip function id" // FORCE_ONLY_TANG_VEL (default: false) .. _designxfemrobindirichletvolconditions: DESIGN XFEM ROBIN DIRICHLET VOL CONDITIONS ------------------------------------------ XFEM Robin Dirichlet Volume :: -------------------------DESIGN XFEM ROBIN DIRICHLET VOL CONDITIONS :: // ROBIN_ID > (default: none) "robin id" // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designxfemrobinneumannvolconditions: DESIGN XFEM ROBIN NEUMANN VOL CONDITIONS ---------------------------------------- XFEM Robin Neumann Volume :: ---------------------------DESIGN XFEM ROBIN NEUMANN VOL CONDITIONS :: // ROBIN_ID > (default: none) "robin id" // NUMDOF // ONOFF > // VAL > // FUNCT >> // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) .. _designxfemlevelsettwophasevolconditions: DESIGN XFEM LEVELSET TWOPHASE VOL CONDITIONS -------------------------------------------- XFEM Levelset Twophase :: -----------------------DESIGN XFEM LEVELSET TWOPHASE VOL CONDITIONS :: // COUPLINGID // LEVELSETFIELDNO // BOOLEANTYPE (choices: cut|difference|none|sym_difference|union) "define which boolean operator is used for combining this level-set field with the previous one with smaller coupling id" // COMPLEMENTARY "define which complementary operator is applied after combining the level-set field with a boolean operator with the previous one" .. _designxfemfluidfluidsurfconditions: DESIGN XFEM FLUIDFLUID SURF CONDITIONS -------------------------------------- XFEM Surf FluidFluid :: -----------------------------DESIGN XFEM FLUIDFLUID SURF CONDITIONS :: // COUPLINGID // COUPSTRATEGY (choices: embedded|mean|xfluid) "coupling strategy" .. _designxfemfsipartitionedsurfconditions: DESIGN XFEM FSI PARTITIONED SURF CONDITIONS ------------------------------------------- XFEM Surf FSI Part :: ------------------------DESIGN XFEM FSI PARTITIONED SURF CONDITIONS :: // COUPLINGID // INTLAW (default: noslip) (choices: navslip|noslip|noslip_splitpen|slip) // SLIPCOEFFICIENT (default: 0) // SLIP_FUNCT (default: 0) "slip function id" .. _designxfemfsimonolithicsurfconditions: DESIGN XFEM FSI MONOLITHIC SURF CONDITIONS ------------------------------------------ XFEM Surf FSI Mono :: -------------------------DESIGN XFEM FSI MONOLITHIC SURF CONDITIONS :: // COUPLINGID // COUPSTRATEGY (default: xfluid) (choices: harmonic|mean|solid|xfluid) // INTLAW (default: noslip) (choices: navslip|navslip_contact|noslip|noslip_splitpen|slip) // SLIPCOEFFICIENT (default: 0) // SLIP_FUNCT (default: 0) "slip function id" .. _designxfemfpimonolithicsurfconditions: DESIGN XFEM FPI MONOLITHIC SURF CONDITIONS ------------------------------------------ XFEM Surf FPI Mono :: -------------------------DESIGN XFEM FPI MONOLITHIC SURF CONDITIONS :: // COUPLINGID // BJ_COEFF (default: 0) // Variant (default: BJ) (choices: BJ|BJS) "variant" // Method (default: NIT) (choices: NIT|SUB) "method" // Contact (default: false) "contact" .. _designxfemweakdirichletsurfconditions: DESIGN XFEM WEAK DIRICHLET SURF CONDITIONS ------------------------------------------ XFEM Surf Weak Dirichlet :: -------------------------DESIGN XFEM WEAK DIRICHLET SURF CONDITIONS :: // COUPLINGID // EVALTYPE (default: funct_interpolated) (choices: displacement_1storder_with_initfunct|displacement_1storder_wo_initfunct|displacement_2ndorder_with_initfunct|displacement_2ndorder_wo_initfunct|funct_gausspoint|funct_interpolated|zero) // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) // RANDNOISE (default: 0) "set percentage of random noise used in uniform random distribution" .. _designxfemneumannsurfconditions: DESIGN XFEM NEUMANN SURF CONDITIONS ----------------------------------- XFEM Surf Neumann :: --------------------------------DESIGN XFEM NEUMANN SURF CONDITIONS :: // COUPLINGID // NUMDOF // ONOFF > // VAL > // FUNCT >> // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) // INFLOW_STAB (default: false) "toggle inflow stabilization" .. _designxfemnavierslipsurfconditions: DESIGN XFEM NAVIER SLIP SURF CONDITIONS --------------------------------------- XFEM Surf Navier Slip :: ----------------------------DESIGN XFEM NAVIER SLIP SURF CONDITIONS :: // COUPLINGID // EVALTYPE (default: funct_interpolated) (choices: displacement_1storder_with_initfunct|displacement_1storder_wo_initfunct|displacement_2ndorder_with_initfunct|displacement_2ndorder_wo_initfunct|funct_gausspoint|funct_interpolated|zero) // ROBIN_DIRICHLET_ID > (default: none) // ROBIN_NEUMANN_ID > (default: none) // SLIPCOEFFICIENT // FUNCT (default: 0) "slip function id" // FORCE_ONLY_TANG_VEL (default: false) .. _designxfemrobindirichletsurfconditions: DESIGN XFEM ROBIN DIRICHLET SURF CONDITIONS ------------------------------------------- XFEM Robin Dirichlet Volume :: ------------------------DESIGN XFEM ROBIN DIRICHLET SURF CONDITIONS :: // COUPLINGID // ROBIN_ID > (default: none) "robin id" // EVALTYPE (default: funct_interpolated) (choices: displacement_1storder_with_initfunct|displacement_1storder_wo_initfunct|displacement_2ndorder_with_initfunct|displacement_2ndorder_wo_initfunct|funct_gausspoint|funct_interpolated|zero) // NUMDOF // ONOFF > // VAL > // FUNCT >> // TAG (default: none) (choices: monitor_reaction|none) .. _designxfemrobinneumannsurfconditions: DESIGN XFEM ROBIN NEUMANN SURF CONDITIONS ----------------------------------------- XFEM Robin Neumann Volume :: --------------------------DESIGN XFEM ROBIN NEUMANN SURF CONDITIONS :: // COUPLINGID // ROBIN_ID > (default: none) "robin id" // NUMDOF // ONOFF > // VAL > // FUNCT >> // TYPE (default: Live) (choices: Dead|Live|PressureGrad|orthopressure|pseudo_orthopressure) .. _designembeddedmeshsolidsurfcouplingconditions: DESIGN EMBEDDED MESH SOLID SURF COUPLING CONDITIONS --------------------------------------------------- Embedded Mesh Solid Surface Coupling :: ----------------DESIGN EMBEDDED MESH SOLID SURF COUPLING CONDITIONS :: // COUPLINGID .. _designembeddedsolidvolbackgroundconditions: DESIGN EMBEDDED SOLID VOL BACKGROUND CONDITIONS ----------------------------------------------- Embedded Mesh Solid Volume Background :: --------------------DESIGN EMBEDDED SOLID VOL BACKGROUND CONDITIONS :: // COUPLINGID .. _designbiofilmgrowthcouplingsurfconditions: DESIGN BIOFILM GROWTH COUPLING SURF CONDITIONS ---------------------------------------------- BioGrCoupling :: ---------------------DESIGN BIOFILM GROWTH COUPLING SURF CONDITIONS :: // coupling_id "coupling_id" .. _designnode1darteryjunctionconditions: DESIGN NODE 1D ARTERY JUNCTION CONDITIONS ----------------------------------------- Artery junction boundary condition :: --------------------------DESIGN NODE 1D ARTERY JUNCTION CONDITIONS :: // ConditionID // Kr .. _designnode1darteryprescribedconditions: DESIGN NODE 1D ARTERY PRESCRIBED CONDITIONS ------------------------------------------- Artery prescribed boundary condition :: ------------------------DESIGN NODE 1D ARTERY PRESCRIBED CONDITIONS :: // boundarycond (default: flow) (choices: area|characteristicWave|flow|pressure|velocity) "boundarycond" // type (default: forced) (choices: absorbing|forced) "type" // VAL > "values" // curve >> "curve ids" .. _designnode1darteryreflectiveconditions: DESIGN NODE 1D ARTERY REFLECTIVE CONDITIONS ------------------------------------------- Artery reflection condition :: ------------------------DESIGN NODE 1D ARTERY REFLECTIVE CONDITIONS :: // VAL > "value" // curve >> "curve" .. _designnode1darteryin_outletconditions: DESIGN NODE 1D ARTERY IN_OUTLET CONDITIONS ------------------------------------------ Artery terminal in_outlet condition :: -------------------------DESIGN NODE 1D ARTERY IN_OUTLET CONDITIONS :: // terminaltype (default: inlet) (choices: inlet|outlet) "terminaltype" .. _designnode1darterytoporofluidcouplingconditions: DESIGN NODE 1D ARTERY TO POROFLUID COUPLING CONDITIONS ------------------------------------------------------ Artery coupling with porofluid :: -------------DESIGN NODE 1D ARTERY TO POROFLUID COUPLING CONDITIONS :: // COUPID .. _designnode1darterytoscatracouplingconditions: DESIGN NODE 1D ARTERY TO SCATRA COUPLING CONDITIONS --------------------------------------------------- Artery coupling with porofluid :: ----------------DESIGN NODE 1D ARTERY TO SCATRA COUPLING CONDITIONS :: // COUPID .. _design1dartery/airwaytoporofluidnonconfcouplingconditions: DESIGN 1D ARTERY/AIRWAY TO POROFLUID NONCONF COUPLING CONDITIONS ---------------------------------------------------------------- Artery coupling with porofluid nonconf :: ---DESIGN 1D ARTERY/AIRWAY TO POROFLUID NONCONF COUPLING CONDITIONS :: // COUPLING_TYPE (default: ARTERY) (choices: AIRWAY|ARTERY) "coupling type" // NUMDOF // COUPLEDDOF_REDUCED > "coupling dofs of reduced airways or arteries" // COUPLEDDOF_PORO > "coupling dofs in porous domain" // PENALTY .. _design1dartery/airwaytoscatranonconfcouplingconditions: DESIGN 1D ARTERY/AIRWAY TO SCATRA NONCONF COUPLING CONDITIONS ------------------------------------------------------------- Artery coupling with scatra nonconf :: ------DESIGN 1D ARTERY/AIRWAY TO SCATRA NONCONF COUPLING CONDITIONS :: // COUPLING_TYPE (default: ARTERY) (choices: AIRWAY|ARTERY) "coupling type" // NUMDOF // COUPLEDDOF_REDUCED > "coupling dofs of reduced airways or arteries" // COUPLEDDOF_PORO > "coupling dofs in porous domain" // PENALTY .. _designnodereduceddto3dflowcouplingconditions: DESIGN NODE REDUCED D To 3D FLOW COUPLING CONDITIONS ---------------------------------------------------- Artery reduced D 3D coupling condition :: ---------------DESIGN NODE REDUCED D To 3D FLOW COUPLING CONDITIONS :: // ConditionID // CouplingType (default: forced) (choices: absorbing|forced) "coupling type" // ReturnedVariable (default: pressure) (choices: flow|pressure) "returned variable" // Tolerance // MaximumIterations .. _designsurf3dtoreduceddflowcouplingconditions: DESIGN SURF 3D To REDUCED D FLOW COUPLING CONDITIONS ---------------------------------------------------- Artery 3D reduced D coupling condition :: ---------------DESIGN SURF 3D To REDUCED D FLOW COUPLING CONDITIONS :: // ConditionID // ReturnedVariable (default: flow) (choices: flow|pressure) "returned variable" // Tolerance // MaximumIterations .. _designsurftissueredairwayconditions: DESIGN SURF TISSUE REDAIRWAY CONDITIONS --------------------------------------- tissue RedAirway coupling surface condition :: ----------------------------DESIGN SURF TISSUE REDAIRWAY CONDITIONS :: // coupling_id .. _designnodetissueredairwayconditions: DESIGN NODE TISSUE REDAIRWAY CONDITIONS --------------------------------------- tissue RedAirway coupling node condition :: ----------------------------DESIGN NODE TISSUE REDAIRWAY CONDITIONS :: // coupling_id .. _designnodereduceddairwaysprescribedconditions: DESIGN NODE Reduced D AIRWAYS PRESCRIBED CONDITIONS --------------------------------------------------- Reduced d airway prescribed boundary condition :: ----------------DESIGN NODE Reduced D AIRWAYS PRESCRIBED CONDITIONS :: // boundarycond (default: flow) (choices: VolumeDependentPleuralPressure|flow|pressure|switchFlowPressure) "boundary condition type" // VAL > "value" // curve >> "curve" // funct >> (default: none ) "function id" .. _designnodereduceddairwaysswitchflowpressureconditions: DESIGN NODE Reduced D AIRWAYS SWITCH FLOW PRESSURE CONDITIONS ------------------------------------------------------------- Reduced d airway switch flow pressure boundary condition :: ------DESIGN NODE Reduced D AIRWAYS SWITCH FLOW PRESSURE CONDITIONS :: // FUNCT_ID_FLOW // FUNCT_ID_PRESSURE // FUNCT_ID_PRESSURE_ACTIVE .. _designlinereduceddairwaysvoldependentpleuralpressureconditions: DESIGN LINE REDUCED D AIRWAYS VOL DEPENDENT PLEURAL PRESSURE CONDITIONS ----------------------------------------------------------------------- Reduced D airways volume-dependent peural pressure condition :: --DESIGN LINE REDUCED D AIRWAYS VOL DEPENDENT PLEURAL PRESSURE CONDITIONS :: // TYPE (default: Linear_Exponential) (choices: Linear_Exponential|Linear_Ogden|Linear_Polynomial|Nonlinear_Exponential|Nonlinear_Ogden|Nonlinear_Polynomial) "type" // TLC // RV // P_PLEURAL_0 // P_PLEURAL_LIN // P_PLEURAL_NONLIN // TAU // VAL > "value" // curve >> "curve" .. _designlinereduceddairwaysevaluatelungvolumeconditions: DESIGN LINE REDUCED D AIRWAYS EVALUATE LUNG VOLUME CONDITIONS ------------------------------------------------------------- Reduced D airways evaluate lung volume condition :: ------DESIGN LINE REDUCED D AIRWAYS EVALUATE LUNG VOLUME CONDITIONS .. _designsurfimpedanceconditions: DESIGN SURF IMPEDANCE CONDITIONS -------------------------------- Impedance boundary condition :: -----------------------------------DESIGN SURF IMPEDANCE CONDITIONS :: // ConditionID // TYPE (default: windkessel) (choices: pressure_by_funct|resistive|windkessel) "type" // R1 // R2 // C // TIMEPERIOD // FUNCT .. _designsurfcardiovascular0d4-elementwindkesselconditions: DESIGN SURF CARDIOVASCULAR 0D 4-ELEMENT WINDKESSEL CONDITIONS ------------------------------------------------------------- Surface Cardiovascular0D :: ------DESIGN SURF CARDIOVASCULAR 0D 4-ELEMENT WINDKESSEL CONDITIONS :: // id // C // R_p // Z_c // L // p_ref // p_0 .. _designsurfcardiovascular0darterialproxdistconditions: DESIGN SURF CARDIOVASCULAR 0D ARTERIAL PROX DIST CONDITIONS ----------------------------------------------------------- Surface 0D cardiovascular arterial proximal and distal :: --------DESIGN SURF CARDIOVASCULAR 0D ARTERIAL PROX DIST CONDITIONS :: // id // R_arvalve_max // R_arvalve_min // R_atvalve_max // R_atvalve_min // k_p // L_arp // C_arp // R_arp // C_ard // R_ard // p_ref // p_v_0 // p_arp_0 // y_arp_0 // p_ard_0 // p_at_fac // p_at_crv > (default: none) "curve" .. _designsurfcardiovascular0dsys-pulcirculationconditions: DESIGN SURF CARDIOVASCULAR 0D SYS-PUL CIRCULATION CONDITIONS ------------------------------------------------------------ Surface cardiovascular 0D sys pul circulation condition :: -------DESIGN SURF CARDIOVASCULAR 0D SYS-PUL CIRCULATION CONDITIONS :: // id // TYPE (choices: atrium_left|atrium_right|dummy|ventricle_left|ventricle_right) .. _designsurfcardiovascularrespiratory0dsys-pulperiphcirculationconditions: DESIGN SURF CARDIOVASCULAR RESPIRATORY 0D SYS-PUL PERIPH CIRCULATION CONDITIONS ------------------------------------------------------------------------------- Surface 0D cardiovascular respiratory sys-pul periph circulation condition :: --DESIGN SURF CARDIOVASCULAR RESPIRATORY 0D SYS-PUL PERIPH CIRCULATION CONDITIONS :: // id // TYPE (choices: atrium_left|atrium_right|dummy|ventricle_left|ventricle_right) .. _designsurfcardiovascular0d-structurecouplingconditions: DESIGN SURF CARDIOVASCULAR 0D-STRUCTURE COUPLING CONDITIONS ----------------------------------------------------------- structure 0d cardiovascular coupling surface condition :: --------DESIGN SURF CARDIOVASCULAR 0D-STRUCTURE COUPLING CONDITIONS :: // coupling_id .. _designsurfrobinspringdashpotconditions: DESIGN SURF ROBIN SPRING DASHPOT CONDITIONS ------------------------------------------- Robin Spring Dashpot :: ------------------------DESIGN SURF ROBIN SPRING DASHPOT CONDITIONS :: // NUMDOF // ONOFF > // STIFF > // TIMEFUNCTSTIFF > // VISCO > // TIMEFUNCTVISCO > // DISPLOFFSET > // TIMEFUNCTDISPLOFFSET > // FUNCTNONLINSTIFF > // DIRECTION (choices: cursurfnormal|refsurfnormal|xyz) "Direction of the spring-dashpot boundary conditions" // COUPLING > (default: none) .. _designpointrobinspringdashpotconditions: DESIGN POINT ROBIN SPRING DASHPOT CONDITIONS -------------------------------------------- Robin Spring Dashpot :: -----------------------DESIGN POINT ROBIN SPRING DASHPOT CONDITIONS :: // NUMDOF // ONOFF > // STIFF > // TIMEFUNCTSTIFF > // VISCO > // TIMEFUNCTVISCO > // DISPLOFFSET > // TIMEFUNCTDISPLOFFSET > // FUNCTNONLINSTIFF > // DIRECTION (choices: cursurfnormal|refsurfnormal|xyz) "Direction of the spring-dashpot boundary conditions" // COUPLING > (default: none) .. _designsurfrobinspringdashpotcouplingconditions: DESIGN SURF ROBIN SPRING DASHPOT COUPLING CONDITIONS ---------------------------------------------------- RobinSpring Dashpot Coupling :: ---------------DESIGN SURF ROBIN SPRING DASHPOT COUPLING CONDITIONS :: // COUPLING .. _designthermoconvectionlineconditions: DESIGN THERMO CONVECTION LINE CONDITIONS ---------------------------------------- Line Thermo Convections :: ---------------------------DESIGN THERMO CONVECTION LINE CONDITIONS :: // temperature_state (choices: Tempn|Tempnp) "temperature state" // coeff "heat transfer coefficient h" // surtemp "surrounding (fluid) temperature T_oo" // surtempfunct > (default: none) "time curve to increase the surrounding (fluid) temperature T_oo in time" // funct > (default: none) "time curve to increase the complete boundary condition, i.e., the heat flux" .. _designthermoconvectionsurfconditions: DESIGN THERMO CONVECTION SURF CONDITIONS ---------------------------------------- Surface Thermo Convections :: ---------------------------DESIGN THERMO CONVECTION SURF CONDITIONS :: // temperature_state (choices: Tempn|Tempnp) "temperature state" // coeff "heat transfer coefficient h" // surtemp "surrounding (fluid) temperature T_oo" // surtempfunct > (default: none) "time curve to increase the surrounding (fluid) temperature T_oo in time" // funct > (default: none) "time curve to increase the complete boundary condition, i.e., the heat flux" .. _designthermorobinlineconditions: DESIGN THERMO ROBIN LINE CONDITIONS ----------------------------------- Thermo Robin boundary condition :: --------------------------------DESIGN THERMO ROBIN LINE CONDITIONS :: // NUMSCAL // ONOFF > // PREFACTOR // REFVALUE .. _designthermorobinsurfconditions: DESIGN THERMO ROBIN SURF CONDITIONS ----------------------------------- Thermo Robin boundary condition :: --------------------------------DESIGN THERMO ROBIN SURF CONDITIONS :: // NUMSCAL // ONOFF > // PREFACTOR // REFVALUE .. _designssicouplinglineconditions: DESIGN SSI COUPLING LINE CONDITIONS ----------------------------------- SSI Coupling :: --------------------------------DESIGN SSI COUPLING LINE CONDITIONS :: // coupling_id .. _designssicouplingsurfconditions: DESIGN SSI COUPLING SURF CONDITIONS ----------------------------------- SSI Coupling :: --------------------------------DESIGN SSI COUPLING SURF CONDITIONS :: // coupling_id .. _designssicouplingsolidtoscatralineconditions: DESIGN SSI COUPLING SOLIDTOSCATRA LINE CONDITIONS ------------------------------------------------- SSI Coupling SolidToScatra :: ------------------DESIGN SSI COUPLING SOLIDTOSCATRA LINE CONDITIONS :: // coupling_id .. _designssicouplingsolidtoscatrasurfconditions: DESIGN SSI COUPLING SOLIDTOSCATRA SURF CONDITIONS ------------------------------------------------- SSI Coupling SolidToScatra :: ------------------DESIGN SSI COUPLING SOLIDTOSCATRA SURF CONDITIONS :: // coupling_id .. _designssicouplingsolidtoscatravolconditions: DESIGN SSI COUPLING SOLIDTOSCATRA VOL CONDITIONS ------------------------------------------------ SSI Coupling SolidToScatra :: -------------------DESIGN SSI COUPLING SOLIDTOSCATRA VOL CONDITIONS :: // coupling_id .. _designssicouplingscatratosolidlineconditions: DESIGN SSI COUPLING SCATRATOSOLID LINE CONDITIONS ------------------------------------------------- SSI Coupling ScatraToSolid :: ------------------DESIGN SSI COUPLING SCATRATOSOLID LINE CONDITIONS :: // coupling_id .. _designssicouplingscatratosolidsurfconditions: DESIGN SSI COUPLING SCATRATOSOLID SURF CONDITIONS ------------------------------------------------- SSI Coupling ScatraToSolid :: ------------------DESIGN SSI COUPLING SCATRATOSOLID SURF CONDITIONS :: // coupling_id .. _designssicouplingscatratosolidvolconditions: DESIGN SSI COUPLING SCATRATOSOLID VOL CONDITIONS ------------------------------------------------ SSI Coupling ScatraToSolid :: -------------------DESIGN SSI COUPLING SCATRATOSOLID VOL CONDITIONS :: // coupling_id .. _designssiinterfacemeshtyingpointconditions: DESIGN SSI INTERFACE MESHTYING POINT CONDITIONS ----------------------------------------------- SSI Interface Meshtying :: --------------------DESIGN SSI INTERFACE MESHTYING POINT CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface_side" // S2I_KINETICS_ID .. _designssiinterfacemeshtyinglineconditions: DESIGN SSI INTERFACE MESHTYING LINE CONDITIONS ---------------------------------------------- SSI Interface Meshtying :: ---------------------DESIGN SSI INTERFACE MESHTYING LINE CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface_side" // S2I_KINETICS_ID .. _designssiinterfacemeshtyingsurfconditions: DESIGN SSI INTERFACE MESHTYING SURF CONDITIONS ---------------------------------------------- SSI Interface Meshtying :: ---------------------DESIGN SSI INTERFACE MESHTYING SURF CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface_side" // S2I_KINETICS_ID .. _designssimanifoldsurfconditions: DESIGN SSI MANIFOLD SURF CONDITIONS ----------------------------------- scalar transport on manifold :: --------------------------------DESIGN SSI MANIFOLD SURF CONDITIONS :: // ConditionID // ImplType (choices: ElchDiffCond|ElchElectrode|Standard|Undefined) "implementation type" // thickness .. _designsurfscatramanifoldinitialfieldconditions: DESIGN SURF SCATRA MANIFOLD INITIAL FIELD CONDITIONS ---------------------------------------------------- Surface ScaTra Manifold Initfield :: ---------------DESIGN SURF SCATRA MANIFOLD INITIAL FIELD CONDITIONS :: // FIELD (choices: ScaTra) "init field" // FUNCT .. _designssimanifoldkineticssurfconditions: DESIGN SSI MANIFOLD KINETICS SURF CONDITIONS -------------------------------------------- kinetics model for coupling scatra <-> scatra on manifold :: -----------------------DESIGN SSI MANIFOLD KINETICS SURF CONDITIONS :: // : // : // ConditionID // ManifoldConditionID // KINETIC_MODEL (choices: ConstantInterfaceResistance) // ONOFF > // RESISTANCE // E- // : // ConditionID // ManifoldConditionID // KINETIC_MODEL (choices: Butler-VolmerReduced) // NUMSCAL // STOICHIOMETRIES > // E- // K_R // ALPHA_A // ALPHA_C // : // ConditionID // ManifoldConditionID // KINETIC_MODEL (choices: NoInterfaceFlux) .. _designpointmanifolddirichconditions: DESIGN POINT MANIFOLD DIRICH CONDITIONS --------------------------------------- Point Dirichlet :: ----------------------------DESIGN POINT MANIFOLD DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> .. _designlinemanifolddirichconditions: DESIGN LINE MANIFOLD DIRICH CONDITIONS -------------------------------------- Line Dirichlet :: -----------------------------DESIGN LINE MANIFOLD DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> .. _designsurfmanifolddirichconditions: DESIGN SURF MANIFOLD DIRICH CONDITIONS -------------------------------------- Surface Dirichlet :: -----------------------------DESIGN SURF MANIFOLD DIRICH CONDITIONS :: // NUMDOF // ONOFF > // VAL > // FUNCT >> .. _designssiinterfacecontactlineconditions: DESIGN SSI INTERFACE CONTACT LINE CONDITIONS -------------------------------------------- SSI Interface Contact :: -----------------------DESIGN SSI INTERFACE CONTACT LINE CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface_side" // S2I_KINETICS_ID // CONTACT_CONDITION_ID .. _designssiinterfacecontactsurfconditions: DESIGN SSI INTERFACE CONTACT SURF CONDITIONS -------------------------------------------- SSI Interface Contact :: -----------------------DESIGN SSI INTERFACE CONTACT SURF CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface_side" // S2I_KINETICS_ID // CONTACT_CONDITION_ID .. _designsstiinterfacemeshtyinglineconditions: DESIGN SSTI INTERFACE MESHTYING LINE CONDITIONS ----------------------------------------------- SSTI Interface Meshtying :: --------------------DESIGN SSTI INTERFACE MESHTYING LINE CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface side" // S2I_KINETICS_ID .. _designsstiinterfacemeshtyingsurfconditions: DESIGN SSTI INTERFACE MESHTYING SURF CONDITIONS ----------------------------------------------- SSTI Interface Meshtying :: --------------------DESIGN SSTI INTERFACE MESHTYING SURF CONDITIONS :: // ConditionID // INTERFACE_SIDE (choices: Master|Slave|Undefined) "interface side" // S2I_KINETICS_ID .. _designsurfaceparticlewall: DESIGN SURFACE PARTICLE WALL ---------------------------- Wall for particle interaction with (optional) material definition :: ---------------------------------------DESIGN SURFACE PARTICLE WALL :: // MAT .. _taylorgalerkinoutflowsurfconditions: TAYLOR GALERKIN OUTFLOW SURF CONDITIONS --------------------------------------- Surface Taylor Galerkin Outflow :: ----------------------------TAYLOR GALERKIN OUTFLOW SURF CONDITIONS .. _taylorgalerkinneumanninflowsurfconditions: TAYLOR GALERKIN NEUMANN INFLOW SURF CONDITIONS ---------------------------------------------- Surface Taylor Galerkin Neumann Inflow :: ---------------------TAYLOR GALERKIN NEUMANN INFLOW SURF CONDITIONS .. _reinitializationtaylorgalerkinsurfconditions: REINITIALIZATION TAYLOR GALERKIN SURF CONDITIONS ------------------------------------------------ Surface reinitialization Taylor Galerkin :: -------------------REINITIALIZATION TAYLOR GALERKIN SURF CONDITIONS .. _designlinelevelsetcontactcondition: DESIGN LINE LEVEL SET CONTACT CONDITION --------------------------------------- level-set condition for contact points :: ----------------------------DESIGN LINE LEVEL SET CONTACT CONDITION .. _designpointlevelsetcontactcondition: DESIGN POINT LEVEL SET CONTACT CONDITION ---------------------------------------- level-set condition for contact points :: ---------------------------DESIGN POINT LEVEL SET CONTACT CONDITION .. _designlinebeampotentialchargeconditions: DESIGN LINE BEAM POTENTIAL CHARGE CONDITIONS -------------------------------------------- Beam_Potential_Line_Charge_Density :: -----------------------DESIGN LINE BEAM POTENTIAL CHARGE CONDITIONS :: // POTLAW // VAL // FUNCT > (default: none) .. _designpointrigidspherepotentialchargeconditions: DESIGN POINT RIGIDSPHERE POTENTIAL CHARGE CONDITIONS ---------------------------------------------------- Rigidsphere_Potential_Point_Charge :: ---------------DESIGN POINT RIGIDSPHERE POTENTIAL CHARGE CONDITIONS :: // POTLAW // VAL // FUNCT > (default: none) .. _designlineperiodicrve2dboundaryconditions: DESIGN LINE PERIODIC RVE 2D BOUNDARY CONDITIONS ----------------------------------------------- definition of edges forming 2D periodic boundary conditions :: --------------------DESIGN LINE PERIODIC RVE 2D BOUNDARY CONDITIONS :: // EDGE (default: undefined) (choices: undefined|x+|x-|y+|y-) "edge line id" .. _designsurfperiodicrve3dboundaryconditions: DESIGN SURF PERIODIC RVE 3D BOUNDARY CONDITIONS ----------------------------------------------- definition of surfaces forming 3D periodic boundary conditions :: --------------------DESIGN SURF PERIODIC RVE 3D BOUNDARY CONDITIONS :: // SURF (default: undefined) (choices: undefined|x+|x-|y+|y-|z+|z-) "surface id" .. _designpointperiodicrve2dboundaryreferenceconditions: DESIGN POINT PERIODIC RVE 2D BOUNDARY REFERENCE CONDITIONS ---------------------------------------------------------- definition of reference points defining the reference vector of the periodic boundarycondition - only required if RVE_REFERENCE_POINTS = automatic :: ---------DESIGN POINT PERIODIC RVE 2D BOUNDARY REFERENCE CONDITIONS :: // POSITION (default: undefined) (choices: N1|N1B|N1L|N2|N3|N4|undefined) "position of reference node" .. _designpointcoupleddofequationconditions: DESIGN POINT COUPLED DOF EQUATION CONDITIONS -------------------------------------------- definition of the term of a linear couple equation coupling different degrees of freedom in 2d :: -----------------------DESIGN POINT COUPLED DOF EQUATION CONDITIONS :: // EQUATION "EQUATION" // ADD (default: undefined) (choices: dispx|dispy|undefined) "degrees of freedom" // COEFFICIENT .. _designlinebeamfilamentconditions: DESIGN LINE BEAM FILAMENT CONDITIONS ------------------------------------ Beam_Line_Filament_Condition :: -------------------------------DESIGN LINE BEAM FILAMENT CONDITIONS :: // ID "filament id" // TYPE (default: Arbitrary) (choices: Actin|Arbitrary|Collagen|actin|arbitrary|collagen) .. _designpointpenaltycouplingconditions: DESIGN POINT PENALTY COUPLING CONDITIONS ---------------------------------------- Couples beam nodes that lie on the same position :: ---------------------------DESIGN POINT PENALTY COUPLING CONDITIONS :: // POSITIONAL_PENALTY_PARAMETER // ROTATIONAL_PENALTY_PARAMETER .. _beaminteraction/beamtobeamcontactconditions: BEAM INTERACTION/BEAM TO BEAM CONTACT CONDITIONS ------------------------------------------------ Beam-to-beam contact conditions :: -------------------BEAM INTERACTION/BEAM TO BEAM CONTACT CONDITIONS :: // COUPLING_ID .. _beaminteraction/beamtosolidvolumemeshtyingvolume: BEAM INTERACTION/BEAM TO SOLID VOLUME MESHTYING VOLUME ------------------------------------------------------ Beam-to-volume mesh tying conditions - volume definition :: -------------BEAM INTERACTION/BEAM TO SOLID VOLUME MESHTYING VOLUME :: // COUPLING_ID .. _beaminteraction/beamtosolidvolumemeshtyingline: BEAM INTERACTION/BEAM TO SOLID VOLUME MESHTYING LINE ---------------------------------------------------- Beam-to-volume mesh tying conditions - line definition :: ---------------BEAM INTERACTION/BEAM TO SOLID VOLUME MESHTYING LINE :: // COUPLING_ID .. _beaminteraction/beamtosolidsurfacemeshtyingsurface: BEAM INTERACTION/BEAM TO SOLID SURFACE MESHTYING SURFACE -------------------------------------------------------- Beam-to-surface mesh tying conditions - surface definition :: -----------BEAM INTERACTION/BEAM TO SOLID SURFACE MESHTYING SURFACE :: // COUPLING_ID .. _beaminteraction/beamtosolidsurfacemeshtyingline: BEAM INTERACTION/BEAM TO SOLID SURFACE MESHTYING LINE ----------------------------------------------------- Beam-to-surface mesh tying conditions - line definition :: --------------BEAM INTERACTION/BEAM TO SOLID SURFACE MESHTYING LINE :: // COUPLING_ID .. _beaminteraction/beamtosolidsurfacecontactsurface: BEAM INTERACTION/BEAM TO SOLID SURFACE CONTACT SURFACE ------------------------------------------------------ Beam-to-surface contact conditions - surface definition :: -------------BEAM INTERACTION/BEAM TO SOLID SURFACE CONTACT SURFACE :: // COUPLING_ID .. _beaminteraction/beamtosolidsurfacecontactline: BEAM INTERACTION/BEAM TO SOLID SURFACE CONTACT LINE --------------------------------------------------- Beam-to-surface contact conditions - line definition :: ----------------BEAM INTERACTION/BEAM TO SOLID SURFACE CONTACT LINE :: // COUPLING_ID .. _designlineehlmortarcouplingconditions2d: DESIGN LINE EHL MORTAR COUPLING CONDITIONS 2D --------------------------------------------- Line EHL (elasto-hydro-dynamic) Coupling :: ----------------------DESIGN LINE EHL MORTAR COUPLING CONDITIONS 2D :: // InterfaceID // Side (choices: Master|Slave) "interface side" // Initialization (default: Active) (choices: Active|Inactive) "initialization" // FrCoeffOrBound (default: 0) .. _designsurfehlmortarcouplingconditions3d: DESIGN SURF EHL MORTAR COUPLING CONDITIONS 3D --------------------------------------------- Surface EHL (elasto-hydro-dynamic) Coupling :: ----------------------DESIGN SURF EHL MORTAR COUPLING CONDITIONS 3D :: // InterfaceID // Side (choices: Master|Slave) "interface side" // Initialization (default: Active) (choices: Active|Inactive) "initialization" // FrCoeffOrBound (default: 0) .. _designoxygenpartialpressurecalculationlineconditions: DESIGN OXYGEN PARTIAL PRESSURE CALCULATION LINE CONDITIONS ---------------------------------------------------------- PoroMultiphaseScatra Oxygen Partial Pressure Calculation line condition :: ---------DESIGN OXYGEN PARTIAL PRESSURE CALCULATION LINE CONDITIONS :: // SCALARID "scalar id of oxygen partial pressure" // n "n" // Pb50 "Pb50" // CaO2_max "CaO2_max" // alpha_bl_eff "alpha_bl_eff" // rho_oxy "rho_oxy" // rho_bl "rho_bl" .. _designoxygenpartialpressurecalculationsurfconditions: DESIGN OXYGEN PARTIAL PRESSURE CALCULATION SURF CONDITIONS ---------------------------------------------------------- PoroMultiphaseScatra Oxygen Partial Pressure Calculation surface condition :: ---------DESIGN OXYGEN PARTIAL PRESSURE CALCULATION SURF CONDITIONS :: // SCALARID "scalar id of oxygen partial pressure" // n "n" // Pb50 "Pb50" // CaO2_max "CaO2_max" // alpha_bl_eff "alpha_bl_eff" // rho_oxy "rho_oxy" // rho_bl "rho_bl" .. _designoxygenpartialpressurecalculationvolconditions: DESIGN OXYGEN PARTIAL PRESSURE CALCULATION VOL CONDITIONS --------------------------------------------------------- PoroMultiphaseScatra Oxygen Partial Pressure Calculation volume condition :: ----------DESIGN OXYGEN PARTIAL PRESSURE CALCULATION VOL CONDITIONS :: // SCALARID "scalar id of oxygen partial pressure" // n "n" // Pb50 "Pb50" // CaO2_max "CaO2_max" // alpha_bl_eff "alpha_bl_eff" // rho_oxy "rho_oxy" // rho_bl "rho_bl" .. _microscaleconditions: MICROSCALE CONDITIONS --------------------- Microscale Boundary :: ----------------------------------------------MICROSCALE CONDITIONS .. _designvolstclayer: DESIGN VOL STC LAYER -------------------- Layer for Multilayered STC :: -----------------------------------------------DESIGN VOL STC LAYER :: // ConditionID .. _contactconstitutivelawreference: Contact Constitutive Law Reference ================================== :: -------------------------------------------CONTACT CONSTITUTIVE LAW :: // : // : // LAW // CoConstLaw_brokenrational: // A "scaling factor" // B "asymptote" // C "y intercept" // Offset (default: 0) "offset for contact to start" // : // LAW // CoConstLaw_power: // A "scaling factor" // B "power coefficient" // Offset (default: 0) "offset for contact to start" // : // LAW // CoConstLaw_cubic: // A "A" // B "B" // C "C" // D "D" // Offset (default: 0) "offset for contact to start" // : // LAW // CoConstLaw_linear: // A "slope" // B "y intercept" // Offset (default: 0) "offset for contact to start" // : // LAW // CoConstLaw_mirco: // FirstMatID "First material ID" // SecondMatID "Second material ID" // LateralLength "length of lateral side of the BEM patch" // Resolution "resolution of the surface" // PressureGreenFunFlag (default: true) "Use pressure-based Green function instead of a point-force-based" // InitialTopologyStdDeviationFunct (default: 100) "Function id for Initial Standard deviation for the random-midpoint generator" // HurstExponentFunct (default: 100) "Function for Hurst exponent of the surface" // RandomTopologyFlag (default: true) "Use random midpoint generator flag" // RandomSeedFlag (default: false) "Random seed flag" // RandomGeneratorSeed (default: 95) "Use random seed to reproduce results" // Tolerance (default: 0.01) "Tolerance for the convergence of force" // MaxIteration (default: 1000) "Maximum iteration of NNLS" // WarmStartingFlag (default: true) "Warm-starting flag, solution accelerator" // Offset (default: 0) "offset for contact to start" // FiniteDifferenceFraction (default: 0.001) "Fraction of perturbation difference compared to the actual gap" // ActiveGapTolerance (default: 1e-06) "Minimum gap to consider a node as active" // TopologyFilePath (default: ) "Path to file with micro-topology data"