Simulate with complex geometries and complex physics
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| %ABAQUS_AVMidpointIntplNode% | |
| %ABAQUS_AVMidpointShpdNode% | |
| %ABAQUS_IntplMidpoint% | |
| %ABAQUS_IntplNode% | |
| %ABAQUS_ShpdMidpoint% | |
| %ABAQUS_ShpdMidpointShpdNode% | |
| %ABAQUS_ShpdNode% | |
| %ACTIVE_always% | active during simulation |
| %ACTIVE_always% | active during simulation |
| %ACTIVE_function% | active during simulation by trigger function |
| %ACTIVE_function% | active during simulation by trigger function |
| %ACTIVE_init% | active during initial filling |
| %ACTIVE_init% | active during initial filling |
| %ACTIVE_interval% | active during simulation in time intervals |
| %ACTIVE_interval% | active during simulation in time intervals |
| %ACTIVE_nofill% | only visible during initial filling |
| %ACTIVE_nofill% | only visible during initial filling |
| %ACTIVE_noinit% | not active during initial filling |
| %ACTIVE_noinit% | not active during initial filling |
| %AND% | |
| %ASSIGN_FUNCTIONVALUE% | assign a function value to selected MESHFREE points |
| %ASSIGN_FUNCTIONVALUE% | |
| %AVERAGE_BND% | average of a functional based on all MESHFREE boundary points with respect to given boundary elements |
| %AVERAGE_BND% | |
| %AVERAGE_FS% | average of a functional based on all MESHFREE free surface points with respect to given material flags |
| %AVERAGE_FS% | |
| %AVERAGE_INT% | average of a functional based on all MESHFREE points with respect to given material flags |
| %AVERAGE_INT% | |
| %AVERAGE_MP% | average of a functional based on all non-irreducible monitor points with respect to given material flags |
| %AVERAGE_MP% | |
| %AVERAGE_XYPLANE% | |
| %BCON_CG% | |
| %BCON_E_tot% | |
| %BCON_Ma% | |
| %BCON_Mdot% | velocity boundary condition: mass flux |
| %BCON_Mdot% | |
| %BCON_PAMCRASH_CG% | |
| %BCON_PAMCRASH_Mdot% | |
| %BCON_PAMCRASH_RG% | |
| %BCON_PAMCRASH_T% | |
| %BCON_RG% | |
| %BCON_T% | |
| %BCON_T_tot% | |
| %BCON_Vdot% | velocity boundary conditions: volume flux |
| %BCON_Vdot% | |
| %BCON_contact% | |
| %BCON_explicit% | |
| %BCON_far_field% | |
| %BCON_free% | |
| %BCON_free_NoVisc% | |
| %BCON_implicit% | |
| %BCON_inflow% | |
| %BCON_none% | |
| %BCON_outflow% | |
| %BCON_p% | |
| %BCON_p_tot% | |
| %BCON_rho% | |
| %BCON_rho_va% | |
| %BCON_rho_vb% | |
| %BCON_rho_vn% | |
| %BCON_s% | |
| %BCON_s_ini% | |
| %BCON_slip% | |
| %BCON_va% | |
| %BCON_vb% | |
| %BCON_visc% | |
| %BCON_vn% | |
| %BCON_wall% | wall boundary condition for turbulence-eps |
| %BCON_wall% | wall boundary condition for turbulence-k |
| %BCON_wall% | |
| %BCON_wall_nosl% | |
| %BNDSLIP_ReprojectedAfterPassingOpenEdge% | mark state of slip movement of MESHFREE points along boundary |
| %BNDSLIP_TearOffAtOpenEdge% | mark state of slip movement of MESHFREE points along boundary |
| %BNDSLIP_TearOffAtRegularEdge% | mark state of slip movement of MESHFREE points along boundary |
| %BND_AVERAGE% | weighted average from the inner points |
| %BND_AVERAGE% | hydrostatic pressure boundary conditions: average of neighbors (Neumann type) |
| %BND_AVERAGE% | weighted average of the pressure values in the neighborhood of the boundary point |
| %BND_AVERAGE% | |
| %BND_BNDDOT% | |
| %BND_BlindAndEmpty% | |
| %BND_CAUCHY% | Cauchy boundary condition |
| %BND_CAUCHY% | |
| %BND_COLLISION% | velocity boundary condition to represent collisions |
| %BND_COLLISION% | |
| %BND_COULOMB_SLIDE% | |
| %BND_COULOMB_SLIP% | |
| %BND_COULOMB_STICK% | |
| %BND_DIRICH% | Dirichlet velocity boundary condition |
| %BND_DIRICH% | user provided values for turbulent wall stress |
| %BND_DIRICH% | Dirichlet boundary condition for stress tensor |
| %BND_DIRICH% | Dirichlet velocity boundary condition |
| %BND_DIRICH% | temperature Dirichlet boundary condition |
| %BND_DIRICH% | Dirichlet boundary condition for turbulence-eps |
| %BND_DIRICH% | Dirichlet boundary condition for turbulence-k |
| %BND_DIRICH% | classical Dirichlet condition (prescribe the function value at the boundary) |
| %BND_DIRICH% | |
| %BND_DRYFRICTION% | friction boundary condition for stress tensor |
| %BND_DRYFRICTION% | |
| %BND_DRYFRICTION_InContact% | |
| %BND_FRICTION% | friction boundary condition for stress tensor |
| %BND_FRICTION% | |
| %BND_HEATFLUX% | |
| %BND_HELMHOLTZ% | |
| %BND_IGES% | |
| %BND_IGES_curve% | |
| %BND_IGES_ignore% | |
| %BND_IGES_surface% | |
| %BND_IGES_trafo% | |
| %BND_INTERPHASE% | |
| %BND_INTERPHASE_dfdn% | |
| %BND_INTERPHASE_f% | |
| %BND_LAPLAC% | |
| %BND_Manifold_Free% | |
| %BND_Manifold_Interior% | |
| %BND_Manifold_Slip% | |
| %BND_NEUMANN% | Neumann velocity boundary condition |
| %BND_NEUMANN% | temperature Neumann boundary condition |
| %BND_NEUMANN% | Neumann boundary condition for turbulence-eps |
| %BND_NEUMANN% | Neumann boundary condition for turbulence-k |
| %BND_NEUMANN% | Neumann boundary conditions for the pressure (require a dedicated slope of the function in normal direction) |
| %BND_NEUMANN% | |
| %BND_NEUMANN_DIRICHLET% | |
| %BND_NUSSEL% | Nusselt velocity boundary condition |
| %BND_NUSSEL% | temperature Nusselt boundary condition |
| %BND_NUSSEL% | Nusselt boundary condition for turbulence-eps |
| %BND_NUSSEL% | Nusselt boundary condition for turbulence-k |
| %BND_NUSSEL% | |
| %BND_RADIATION% | applies heat flux at the boundary due to radiation |
| %BND_RADIATION% | |
| %BND_ROBIN% | Robin boundary condition |
| %BND_ROBIN% | |
| %BND_SYSTUS% | |
| %BND_VONNEU% | Velocity Neumann boundary condition |
| %BND_VONNEU% | temperature Neumann boundary condition |
| %BND_VONNEU% | Neumann boundary condition for turbulence-eps |
| %BND_VONNEU% | Neumann boundary condition for turbulence-k |
| %BND_VONNEU% | Neumann boundary conditions for the pressure (require a dedicated slope of the function in normal direction) |
| %BND_VONNEU% | |
| %BND_arcl% | |
| %BND_arcs% | |
| %BND_blind% | |
| %BND_contact% | |
| %BND_contact_Explicit% | |
| %BND_contact_MRF% | |
| %BND_corner% | |
| %BND_count_BE% | current number of boundary elements belonging to the geometry |
| %BND_count_BE% | parameter for the real()-function (equation parser) |
| %BND_count_NP% | current number of node points belonging to the geometry |
| %BND_count_NP% | parameter for the real()-function (equation parser) |
| %BND_cube% | |
| %BND_cut% | cutting off points at metaplanes if used as IDENT |
| %BND_cylinder% | |
| %BND_disk% | |
| %BND_edge% | |
| %BND_far_field% | far-field velocity boundary condition |
| %BND_far_field% | far-field temperature boundary condition |
| %BND_far_field% | |
| %BND_fixed% | |
| %BND_free% | free surface boundary condition for stress tensor |
| %BND_free% | free surface boundary condition for velocities |
| %BND_free% | free surface boundary condition for temperature |
| %BND_free% | free surface boundary condition for turbulence-eps |
| %BND_free% | free surface boundary condition for turbulence-k |
| %BND_free% | hydrostatic pressure free surface boundary condition |
| %BND_free% | direct dynamic pressure boundary conditions at free surface |
| %BND_free% | |
| %BND_free_Barodesy% | |
| %BND_free_HypoPlast% | |
| %BND_free_InContact% | Implicit interphase condition for free surface with opposite phase |
| %BND_free_InContact% | interface boundary conditions for dynamic pressure on the strong side |
| %BND_free_InContact% | |
| %BND_free_InContact_Explicit% | Explicit interphase condition for free surface with opposite phase. |
| %BND_free_InContact_Explicit% | hydrostatic pressure contact boundary conditions for the case the contact phase is the light phase |
| %BND_free_InContact_Explicit% | |
| %BND_free_NoVisc% | non-viscous boundary condition for velocities |
| %BND_free_NoVisc% | |
| %BND_free_implicit% | direct dynamic pressure boundary conditions at free surface |
| %BND_free_implicit% | |
| %BND_free_implicit_InContact% | |
| %BND_free_implicit_InContact_Explicit% | |
| %BND_free_implicit_InContact_explicit% | direct dynamic pressure boundary conditions at phase boundary |
| %BND_inflow% | inflow velocity boundary condition (Dirichlet type) |
| %BND_inflow% | temperature inflow boundary condition |
| %BND_inflow% | inflow boundary condition for turbulence-eps |
| %BND_inflow% | inflow boundary condition for turbulence-k |
| %BND_inflow% | hydrostatic pressure boundary conditions: inflow condition |
| %BND_inflow% | quasi-stationary dynamic pressure boundary condition |
| %BND_inflow% | |
| %BND_line% | |
| %BND_node% | |
| %BND_none% | homogeneous Dirichlet velocity boundary condition |
| %BND_none% | treat the boundary point as if it would be an interior point |
| %BND_none% | |
| %BND_outflow% | velocity outflow boundary condition |
| %BND_outflow% | temperature outflow boundary condition |
| %BND_outflow% | hydrostatic pressure outflow boundary condition |
| %BND_outflow% | relaxed Dirichlet conditions, penalize differences between the current and the requested boundary values |
| %BND_outflow% | |
| %BND_plane% | |
| %BND_point% | |
| %BND_quad% | |
| %BND_slip% | Slip liquid layers for Dropletphase |
| %BND_slip% | slip boundary condition for stress tensor |
| %BND_slip% | velocity boundary conditions: slip with viscous friction |
| %BND_slip% | hydrostatic pressure boundary conditions: classical wall |
| %BND_slip% | direct dynamic pressure boundary conditions |
| %BND_slip% | |
| %BND_slip_InContact% | pressure contact boundary conditions for the case the contact phase is the heavy phase |
| %BND_slip_InContact% | interface boundary condition on the weak side |
| %BND_slip_InContact% | velocity boundary conditions at interfaces, implicit |
| %BND_slip_InContact% | |
| %BND_slip_InContact_Explicit% | hydrostatic pressure boundary condition for the case that the contact phase is the heavy phase |
| %BND_slip_InContact_Explicit% | velocity boundary conditions at interfaces, explicit |
| %BND_slip_InContact_Explicit% | |
| %BND_slip_average% | |
| %BND_tria% | |
| %BND_tria6N% | |
| %BND_void% | |
| %BND_wall% | wall boundary condition for stress tensor |
| %BND_wall% | velocity boundary conditions: pure slip |
| %BND_wall% | temperature wall boundary condition |
| %BND_wall% | wall boundary condition for turbulence-eps |
| %BND_wall% | wall boundary condition for turbulence-k |
| %BND_wall% | hydrostatic pressure boundary conditions: classical wall |
| %BND_wall% | quasi-stationary dynamic pressure boundary condition |
| %BND_wall% | |
| %BND_wall_InContact% | pressure contact boundary conditions for the case the contact phase is the heavy phase |
| %BND_wall_InContact% | |
| %BND_wall_InContact_Explicit% | contact velocity wall boundary condition |
| %BND_wall_InContact_Explicit% | hydrostatic pressure boundary condition for the case that the contact phase is the heavy phase |
| %BND_wall_InContact_Explicit% | |
| %BND_wall_NoLayerThickness% | |
| %BND_wall_nosl% | no slip boundary condition for stress tensor |
| %BND_wall_nosl% | velocity boundary conditions: pure no-slip |
| %BND_wall_nosl% | temperature wall no-slip boundary condition |
| %BND_wall_nosl% | no-slip wall boundary condition for turbulence-eps |
| %BND_wall_nosl% | no-slip wall boundary condition for turbulence-k |
| %BND_wall_nosl% | hydrostatic pressure boundary conditions: classical wall |
| %BND_wall_nosl% | quasi-stationary dynamic pressure boundary condition |
| %BND_wall_nosl% | |
| %BNDpoints_ExtractFromNodes% | |
| %BOUNDARYFILLING_Always% | |
| %BOUNDARYFILLING_Never% | |
| %BOUNDARYFILLING_OnlyIfActiveItself% | |
| %BOUNDARYFILLING_OnlyInActiveNeighborhood% | |
| %BUBBLE_EQN_DynamicPressure% | current dynamic bubble pressure for given bubble index |
| %BUBBLE_EQN_DynamicPressure% | parameter for the real()-function (equation parser) |
| %BUBBLE_EQN_TruePressure% | true bubble pressure for given bubble index |
| %BUBBLE_EQN_TruePressure% | parameter for the real()-function (equation parser) |
| %CHAMBER_BGK% | |
| %CHAMBER_DROPLETPHASE% | |
| %CHAMBER_Euler% | |
| %CHAMBER_EulerExpl% | |
| %CHAMBER_GASDYN% | |
| %CHAMBER_IT_v00% | |
| %CHAMBER_IT_vp0% | |
| %CHAMBER_KEPS% | |
| %CHAMBER_KOMEGA% | |
| %CHAMBER_LIQUID% | |
| %CHAMBER_Lagrange% | |
| %CHAMBER_LineUp% | |
| %CHAMBER_MANIFOLD% | |
| %CHAMBER_NoLineUp% | |
| %CHAMBER_None% | |
| %CHAMBER_PARTICLEPHASE% | |
| %CHAMBER_POPBAL% | |
| %CHAMBER_SHALLOWWATER% | |
| %CHAMBER_STANDBY% | |
| %CHAMBER_TM_BDF2% | |
| %CHAMBER_TM_EXPLICIT% | |
| %CHAMBER_TM_IMPLICIT% | |
| %CHAMBER_TM_MENTERSST% | |
| %CHAMBER_TM_REALIZABLE% | |
| %CHAMBER_TM_RNG% | |
| %CHAMBER_TM_STANDARD% | |
| %CHAMBER_TM_WILCOX% | |
| %CLOCK_STATISTICS_FLIQUID% | CLOCK time measured for the execution of the (pure) MESHFREE numerics at the current time step |
| %CLOCK_STATISTICS_FLIQUID% | parameter for the real()-function (equation parser) |
| %CLOCK_STATISTICS_ORGANIZE% | CLOCK time measured for the execution of the MESHFREE organization (point cloud management, geometry operations) at the current time step |
| %CLOCK_STATISTICS_ORGANIZE% | parameter for the real()-function (equation parser) |
| %CLOCK_STATISTICS_TOTAL_FLIQUID% | CLOCK time summed over all MESHFREE points and the entire simulation time of the (pure) MESHFREE numerics |
| %CLOCK_STATISTICS_TOTAL_FLIQUID% | parameter for the real()-function (equation parser) |
| %CLOCK_STATISTICS_TOTAL_ORGANIZE% | CLOCK time summed over all MESHFREE points and the entire simulation time of the MESHFREE organization |
| %CLOCK_STATISTICS_TOTAL_ORGANIZE% | parameter for the real()-function (equation parser) |
| %CLOCK_STATISTICS_TOTAL_SAMG% | CLOCK time for SAMG (BETA! USE WITH CAUTION!) |
| %CLOCK_STATISTICS_TOTAL_SAMG% | parameter for the real()-function (equation parser) |
| %CLUSTER_ReducedProperties_Bisection% | keyword for the functionality CLUSTER_ReducedProperties |
| %CLUSTER_ReducedProperties_MAX% | keyword for the functionality CLUSTER_ReducedProperties |
| %CLUSTER_ReducedProperties_MIN% | keyword for the functionality CLUSTER_ReducedProperties |
| %CLUSTER_ReducedProperties_SUM% | keyword for the functionality CLUSTER_ReducedProperties |
| %CLUSTER_ReducedProperties_WAVG% | keyword for the functionality CLUSTER_ReducedProperties |
| %CODI_BDF2% | second order BDF2 scheme for time integration of CODI |
| %CODI_CrankNicolson% | second order Crank-Nicolson scheme for time integration of CODI |
| %CODI_EULER_ONLY_UserDefinedVelocity% | |
| %CODI_explicit% | explicit Euler for time integration of CODI |
| %CODI_implicit% | implicit Euler for time integration of CODI |
| %CONSTRUCT_Area% | area of given alias-entities |
| %CONSTRUCT_Area% | |
| %CONSTRUCT_BoxMax% | maximum of enclosing box around given alias-entities |
| %CONSTRUCT_BoxMax% | |
| %CONSTRUCT_BoxMidPoint% | mid point of enclosing box around given alias-entities |
| %CONSTRUCT_BoxMidPoint% | |
| %CONSTRUCT_BoxMidPoint_Abs% | |
| %CONSTRUCT_BoxMin% | minimum of enclosing box around given alias-entities |
| %CONSTRUCT_BoxMin% | |
| %CONSTRUCT_COG% | center of gravity for given alias-entities |
| %CONSTRUCT_COG% | |
| %CONSTRUCT_EstablishCurveVolumeVersusHeight% | establish a 2-row-curve that provides the height-volume-relation of a closed part of geometry |
| %CONSTRUCT_EstablishCurveVolumeVersusHeight% | |
| %CONSTRUCT_IncludeIGESfaces% | provoke usage of IGES faces in CONSTRUCT statements |
| %CONSTRUCT_Normal% | normal with respect to given alias-entities |
| %CONSTRUCT_Normal% | |
| %CONSTRUCT_NormalDividedByArea% | area-averaged normal with respect to given alias-entities |
| %CONSTRUCT_NormalDividedByArea% | |
| %CONSTRUCT_PointBasedOnAbsoluteVolume% | Computes a point that defines a given volume inside a closed structure |
| %CONSTRUCT_PointBasedOnAbsoluteVolume% | |
| %CONSTRUCT_PointBasedOnRelativeVolume% | compute a point that defines a given volume inside a closed structure |
| %CONSTRUCT_PointBasedOnRelativeVolume% | |
| %CONSTRUCT_Tangent1% | first tangent with respect to given normal vector and alias-entities |
| %CONSTRUCT_Tangent1% | |
| %CONSTRUCT_Tangent2% | second tangent with respect to given normal vector and alias-entities |
| %CONSTRUCT_Tangent2% | |
| %CONSTRUCT_Volume% | volume of a (necessarily) closed geometrical part |
| %CONSTRUCT_Volume% | |
| %CONSTRUCT_VolumeForGivenHeight% | compute the volume of a closed body restricted by a certain height |
| %CONSTRUCT_VolumeForGivenHeight% | |
| %CONVERT_TO_INTEGER% | convert a set of construct variables to integer |
| %CONVERT_toInteger% | |
| %COORDTRANS_LSDYNA% | |
| %COORDTRANS_cone% | |
| %COORDTRANS_linear% | |
| %COORDTRANS_radial% | |
| %COORDTRANS_ring% | |
| %COORDTRANS_spherical% | |
| %COUPLE_PAM% | |
| %COUPLE_SYSTUS% | |
| %CPU_STATISTICS_FLIQUID% | CPU time measured for the execution of the (pure) MESHFREE numerics at the current time step |
| %CPU_STATISTICS_FLIQUID% | parameter for the real()-function (equation parser) |
| %CPU_STATISTICS_ORGANIZE% | CPU time measured for the execution of the MESHFREE organization (point cloud management, geometry operations) at the current time step |
| %CPU_STATISTICS_ORGANIZE% | parameter for the real()-function (equation parser) |
| %CPU_STATISTICS_TOTAL_FLIQUID% | CPU time summed over all MESHFREE points and the entire simulation time of the (pure) MESHFREE numerics |
| %CPU_STATISTICS_TOTAL_FLIQUID% | parameter for the real()-function (equation parser) |
| %CPU_STATISTICS_TOTAL_ORGANIZE% | CPU time summed over all MESHFREE points and the entire simulation time of the MESHFREE organization |
| %CPU_STATISTICS_TOTAL_ORGANIZE% | parameter for the real()-function (equation parser) |
| %CUMU_ASSIGN% | assign a value to a monitor item along the boundary |
| %CUMU_ASSIGN% | |
| %CUMU_AVERAGE% | |
| %CUMU_INTERVAL% | cumulate the monitor values of newly created monitor points on the BE a save interval is finished |
| %CUMU_INTERVAL% | |
| %CUMU_MAXIMUM% | |
| %CUMU_MINIMUM% | |
| %CUMU_NONE% | do not cumulate the monitor values on the boundary elements (BE) |
| %CUMU_NONE% | |
| %CUMU_SIMULATION% | cumulate the monitor values of newly created monitor points on the BE throughout the simulation |
| %CUMU_SIMULATION% | |
| %CUMU_SMOOTH% | smooth monitor items along the boundary in every time step |
| %CUMU_SMOOTH% | |
| %CUMU_SMOOTH_AreaBased% | smooth monitor items along the boundary in every time step |
| %CUMU_SMOOTH_AreaBased% | |
| %CUMU_SMOOTH_StopAtEdges% | |
| %CUMU_SUMMATION% | |
| %CUMU_USER_INTERVAL% | |
| %ConsistencyChecksAtStartup_STOP% | stop MESHFREE if the consistency check applies |
| %ConsistencyChecksAtStartup_STOP% | |
| %ConsistencyChecksAtStartup_WARNING% | write a message in the warnings file if the consistency check applies |
| %ConsistencyChecksAtStartup_WARNING% | |
| %CouplingBFT_OtherSimulation_IsFPM% | other running (coupled) simulation is MESHFREE |
| %CouplingBFT_OtherSimulation_IsFPM% | |
| %CouplingBFT_RequestMyselfToWait% | request myself (current simulation) to wait for another running simulation |
| %CouplingBFT_RequestMyselfToWait% | |
| %CouplingBFT_RequestOtherProcessToWait% | request another running simulation to wait for myself |
| %CouplingBFT_RequestOtherProcessToWait% | |
| %DIFFOP_gradient_DELAUNAY% | |
| %DIFFOP_gradient_GASDYN% | |
| %DIFFOP_gradient_MLS% | |
| %DIFFOP_laplace_DELAUNAY_VORONOI% | |
| %DIFFOP_laplace_GASDYN% | |
| %DIFFOP_laplace_LS% | |
| %DIFFOP_laplace_MLS% | |
| %DIFFOP_laplace_optimized% | |
| %DIFFOP_laplace_simplex% | |
| %DPLP_EnergyFactor% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DPLP_ForceDetachment% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DPLP_FrictionCoeff% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DPLP_LockedPointJustDetached% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DPLP_ModificationsUponCollision% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DPLP_ModificationsUponDetachment% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DPLP_ReflexionAngleDeviation% | keyword for DROPLETPHASE_LockedPoints - functions |
| %DropletSource_Multiplicity% | optional parameter for the DropletSource |
| %DropletSource_ParcelRate% | optional parameter for the DropletSource |
| %DropletSource_ParcelSize% | optional parameter for the DropletSource |
| %DropletSource_doNotCreateDropletsOutside% | optional parameter for the DropletSource |
| %DropletSource_provideCounter% | current status of the droplet counter of a given/defined DropletSource |
| %DropletSource_provideCounter% | parameter for the real()-function (equation parser) |
| %DropletSource_provideCurrentVolume% | current status of the actually injected volume by a given/defined DropletSource |
| %DropletSource_provideCurrentVolume% | parameter for the real()-function (equation parser) |
| %DropletSource_provideTargetVolume% | current status of the target volume of a given/defined DropletSource |
| %DropletSource_provideTargetVolume% | parameter for the real()-function (equation parser) |
| %DropletSource_triggerByPoints% | argument for DropletSource |
| %EQN_BEmap_ClosestPoint% | Map value of closest point on BE |
| %EQN_BEmap_Shephard% | Map Shepard interpolation over points on BE |
| %EQN_BEmap_Sum% | Map sum over points on BE |
| %EQN_JOINT_F(1)% | |
| %EQN_JOINT_F(2)% | |
| %EQN_JOINT_F(3)% | |
| %EQN_JOINT_M(1)% | |
| %EQN_JOINT_M(2)% | |
| %EQN_JOINT_M(3)% | |
| %EQN_JOINT_x(1)% | |
| %EQN_JOINT_x(2)% | |
| %EQN_JOINT_x(3)% | |
| %EQN_KEPS_minAlphaH% | estimate of boundary layer thickness |
| %EQN_KEPS_minAlphaH% | argument of the Y()-function in the equation parser |
| %EQN_KEPS_yStar% | nondimensional position in turbulent layer (y_star) |
| %EQN_KEPS_yStar% | argument of the Y()-function in the equation parser |
| %EQN_Proj_ALL% | projection of a MESHFREE-entity from a different chamber using all types of points (interior and boundary) |
| %EQN_Proj_BND% | projection of a MESHFREE-entity from a different chamber using only boundary points |
| %EQN_Proj_INT% | projection of a MESHFREE-entity from a different chamber using only interior points |
| %EQN_Reduct_Accumulated% | |
| %EQN_Reduct_iCluster% | |
| %EQN_SolidAngle% | POINTWISE evaluation!!! currently EXPERIMENTAL!!! Delivering the solid angle formed by the surrounding tetras of some point |
| %EQN_SolidAngle% | compute the solid angle formed by the surrounding tetras of the point |
| %EQN_SolidAngle% | argument of the Y()-function in the equation parser |
| %EQN_d% | abbreviation for %EQN_default% |
| %EQN_default% | enforce default values for optional parameters in equations |
| %EQN_locop_gapsize% | parameter for equation-function locop() |
| %EQN_locop_lap% | parameter for equation-function locop() |
| %EQN_locop_max% | parameter for equation-function locop() |
| %EQN_locop_min% | parameter for equation-function locop() |
| %EQN_locop_quality% | parameter for equation-function locop() |
| %EQN_locop_sum% | parameter for equation-function locop() |
| %EQN_nbsum_filtered% | Select filtered list |
| %EQN_nbsum_nonfiltered% | Select non-filtered list |
| %EQN_opDrPh_Diffusion% | parameter for equation-function opDrPh |
| %EQN_opDrPh_Momentum% | parameter for equation-function opDrPh |
| %EVENT_AbortFPM% | abort MESHFREE event handle |
| %EVENT_AbortFPM% | |
| %EVENT_ChooseSaveEnvironment% | |
| %EVENT_DataProjection% | event handle to project data from other parts of the geometry |
| %EVENT_DataProjection% | |
| %EVENT_DeletePoint% | deletion of point event handle |
| %EVENT_DeletePoint% | |
| %EVENT_DeleteResume% | write resume event handle |
| %EVENT_DeleteResume% | |
| %EVENT_FunctionManipulation% | pointwise function manipulation event handle |
| %EVENT_FunctionManipulation% | |
| %EVENT_Message% | print message event handle |
| %EVENT_Message% | |
| %EVENT_Msg% | print message event handle |
| %EVENT_Msg% | |
| %EVENT_PerformAfterHowManyTimeCycles% | cycle of event execution |
| %EVENT_PerformAfterHowManyTimeCycles% | |
| %EVENT_PublicTrigger% | evaluate event trigger as public expression |
| %EVENT_PublicTrigger% | |
| %EVENT_SaveResults% | save computational results event handle |
| %EVENT_SaveResults% | |
| %EVENT_StopFPM% | stop MESHFREE event handle |
| %EVENT_StopFPM% | |
| %EVENT_WriteRestart% | write restart event handle |
| %EVENT_WriteRestart% | |
| %EVENT_WriteResume% | write resume event handle |
| %EVENT_WriteResume% | |
| %EVENT_all_PC% | |
| %EVENT_only_PC_STANDBY% | evaluate event trigger as public expression |
| %EVENT_only_PC_STANDBY% | |
| %ElapsedTimeIntegrationCycle% | elapsed CPU time for (pure) MESHFREE numerics |
| %ElapsedTimeIntegrationCycle% | parameter for the real()-function (equation parser) |
| %ElapsedTimePointOrganization% | elapsed CPU time for MESHFREE organization |
| %ElapsedTimePointOrganization% | parameter for the real()-function (equation parser) |
| %EtaGrad_Classical% | |
| %EtaGrad_Identity% | |
| %FLIQUID_NbParticles% | current number of ACTIVE MESHFREE points |
| %FLIQUID_NbParticles% | parameter for the real()-function (equation parser) |
| %FPM_variablename% | renamed to %variablename% |
| %GASDYN_Mass% | parameter for the real()-function (equation parser) |
| %GASDYN_MassAnalytical% | parameter for the real()-function (equation parser) |
| %GASDYN_MassCorrection% | parameter for the real()-function (equation parser) |
| %GASDYN_TotalEnergy% | parameter for the real()-function (equation parser) |
| %GASDYN_TotalEnergyAnalytical% | parameter for the real()-function (equation parser) |
| %GASDYN_TotalEnergyCorrection% | parameter for the real()-function (equation parser) |
| %GEO_Inside% | |
| %GEO_Inside% | reorient (parts of) geometry towards its inside |
| %GEO_Outside% | |
| %GEO_Outside% | reorient (parts of) geometry towards its outside |
| %GEO_RemoveClusterByIndex% | |
| %GEO_RemoveClusterByIndex% | |
| %GEO_RemoveClusterClosestToGivenPoint% | |
| %GEO_RemoveClusterClosestToGivenPoint% | |
| %GEO_Tube% | reorient a part of the geometry in the tube sense |
| %GEO_Tube% | |
| %GEO_Vector% | geometry reorientation based on a given vector |
| %GEO_Vector% | |
| %GEO_close% | |
| %GEO_open% | |
| %GEO_removeBasedOnCOG% | |
| %GEO_removeBasedOnNodes% | |
| %GradtEtaGrad_DerivedOperator%_ | |
| %GradtEtaGrad_DirectApproximation% | |
| %GradtEtaGrad_Identity% | |
| %GradtEtaGrad_None% | |
| %GradtEtaGrad_StarStencil% | |
| %HEAT_EQ_1D_BC% | optional parameter for temperature boundary condition |
| %H_constant% | constant smoothing length or smoothing length given as equation |
| %H_constant% | |
| %H_linear% | linear smoothing length distribution with respect to a plane |
| %H_linear% | |
| %H_radial% | radial smoothing length distribution with respect to an infinite tube |
| %H_radial% | |
| %H_ring% | annular smooth length distribution with respect to a torus |
| %H_ring% | |
| %H_spherical% | spherical smoothing length distribution around points or geometry elements |
| %H_spherical% | |
| %IDENT_BlindAndEmpty% | invisible flux measurement BE (IDENT) |
| %IDENT_BlindAndEmpty% | BlindAndEmpty IDENT-identifier (CONST) |
| %IDENT_ThinFilm% | wall layer points (IDENT) |
| %IDENT_blind% | distance-only BE |
| %IDENT_cut% | cut-off points at metaplanes (IDENT) |
| %IDENT_cut% | cut IDENT identifier (CONST) |
| %IDENT_free% | free surface BE (IDENT) |
| %IDENT_free% | free surface IDENT identifier (CONST) |
| %IDENT_inflow% | inflow BE (IDENT) |
| %IDENT_inflow% | inflow IDENT identifier (CONST) |
| %IDENT_locked% | State to mark points as locked in DROPLETPHASE |
| %IDENT_none% | inactive BE (IDENT) |
| %IDENT_none% | none IDENT identifier (CONST) |
| %IDENT_outflow% | outflow BE (IDENT) |
| %IDENT_outflow% | outflow IDENT identifier (CONST) |
| %IDENT_slip% | movable wall points BE (IDENT) |
| %IDENT_slip% | slip IDENT identifier (CONST) |
| %IDENT_void% | invisible precision measurement BE (IDENT) |
| %IDENT_void% | void IDENT identifier (CONST) |
| %IDENT_wall% | non-moving wall points BE (IDENT) |
| %IDENT_wall% | wall IDENT identifier (CONST) |
| %IDENT_wall_NoLayerThickness% | non-moving wall points (IDENT) |
| %IDENT_wall_NoLayerThickness% | wall IDENT identifier ignoring dist_LayerThickness (CONST) |
| %INTEGRATION_ABSFLUX% | flux integration of a functional by counting the MESHFREE points that slip over a given control surface independent of the direction |
| %INTEGRATION_ABSFLUX% | |
| %INTEGRATION_ABSFLUX_TIME% | time and flux integration of a functional by counting the MESHFREE points that slip over a given control surface independent of the direction |
| %INTEGRATION_ABSFLUX_TIME% | |
| %INTEGRATION_BE_DIRECT% | surface integration of a scalar value on boundary elements |
| %INTEGRATION_BE_DIRECT% | |
| %INTEGRATION_BE_DIRECT_TIME% | surface and time integration of a scalar value on boundary elements |
| %INTEGRATION_BE_DIRECT_TIME% | |
| %INTEGRATION_BND% | surface integration of a vector valued function along pieces of boundary |
| %INTEGRATION_BND% | |
| %INTEGRATION_BND_DIRECT% | surface integration of a scalar value along pieces of boundary |
| %INTEGRATION_BND_DIRECT% | |
| %INTEGRATION_BND_DIRECT_Proj_BND% | approximation of a functional at a BND_point by MESHFREE interpolation with respect to neighboring boundary points |
| %INTEGRATION_BND_DIRECT_Proj_BND% | |
| %INTEGRATION_BND_DIRECT_TIME% | surface and time integration of a scalar value along pieces of boundary |
| %INTEGRATION_BND_DIRECT_TIME% | |
| %INTEGRATION_BND_DIRECT_TIME_Proj_BND% | time-integrated approximation of a functional at a BND_point by MESHFREE interpolation with respect to neighboring boundary points |
| %INTEGRATION_BND_DIRECT_TIME_Proj_BND% | |
| %INTEGRATION_BND_OUTSIDE% | one-sided surface integration of a vector valued function along pieces of boundary |
| %INTEGRATION_BND_OUTSIDE% | |
| %INTEGRATION_BND_TIME% | surface and time integration of a vector valued function along pieces of boundary |
| %INTEGRATION_BND_TIME% | |
| %INTEGRATION_Comment% | comment/remark specifier for integration statements |
| %INTEGRATION_FLUX% | flux integration of a functional by counting the MESHFREE points that slip over a given control surface |
| %INTEGRATION_FLUX% | |
| %INTEGRATION_FLUX_DROPLETPHASE% | flux integration of a functional by counting the DROPLETPHASE points that slip over a given control surface |
| %INTEGRATION_FLUX_DROPLETPHASE% | |
| %INTEGRATION_FLUX_IN% | flux integration of a functional by counting the newly injected MESHFREE points |
| %INTEGRATION_FLUX_IN% | |
| %INTEGRATION_FLUX_TIME% | time and flux integration of a functional by counting the MESHFREE points that slip over a given control surface |
| %INTEGRATION_FLUX_TIME% | |
| %INTEGRATION_FS% | surface integration of a vector valued function along the free surface |
| %INTEGRATION_FS% | |
| %INTEGRATION_FS_DIRECT% | surface integration of a scalar value along the free surface |
| %INTEGRATION_FS_DIRECT% | |
| %INTEGRATION_FS_DIRECT_TIME% | surface and time integration of a scalar value along the free surface |
| %INTEGRATION_FS_DIRECT_TIME% | |
| %INTEGRATION_FS_TIME% | surface and time integration of a vector valued function along the free surface |
| %INTEGRATION_FS_TIME% | |
| %INTEGRATION_FilterByTime% | trigger the write outs time .timestep files based on intervals of simulation time |
| %INTEGRATION_FilterByTime% | |
| %INTEGRATION_FilterByTimestepCounter% | trigger the write outs time .timestep files based on intervals of number of time steps executed |
| %INTEGRATION_FilterByTimestepCounter% | |
| %INTEGRATION_Header% | header information identifier for INTEGRATION |
| %INTEGRATION_INT% | volume integration of a functional with respect to a given material |
| %INTEGRATION_INT% | |
| %INTEGRATION_INT_TIME% | volume and time integration of a functional with respect to a given material |
| %INTEGRATION_INT_TIME% | |
| %INTEGRATION_Percentile% | restrict integration/min/max to a selected percentile-subset regarding a given function |
| %INTEGRATION_Remark% | comment/remark specifier for integration statements |
| %INTEGRATION_SkipByTime% | skip computation of integrations for a given time interval |
| %INTEGRATION_SkipByTime% | |
| %INTEGRATION_SkipByTimestepCounter% | skip computation of integrations for a number of timesteps |
| %INTEGRATION_SkipByTimestepCounter% | |
| %INTEGRATION_Values(1)% | deprecated |
| %INTEGRATION_Values(2)% | deprecated |
| %INTEGRATION_Values(3)% | deprecated |
| %INTEGRATION_Values(4)% | deprecated |
| %INTEGRATION_Values(5)% | deprecated |
| %KOP_trans_modification% | keyword for KOP_transition - function |
| %KeepUserValues% | |
| %KineticEnergy% | total kinetic energy of a given chamber |
| %KineticEnergy% | parameter for the real()-function (equation parser) |
| %KineticEnergy_Defect_O2% | second order defect of kinetic energy during time integration |
| %KineticEnergy_Defect_O2% | parameter for the real()-function (equation parser) |
| %KineticEnergy_Defect_gradPv% | first order defect of kinetic energy during time integration due to pressure |
| %KineticEnergy_Defect_gradPv% | parameter for the real()-function (equation parser) |
| %KineticEnergy_Defect_rhogDv% | first order defect of kinetic energy during time integration due to gravity |
| %KineticEnergy_Defect_rhogDv% | parameter for the real()-function (equation parser) |
| %KineticEnergy_DifferenceInOrganize% | change of kinetic energy in some chamber during MESHFREE organization |
| %KineticEnergy_DifferenceInOrganize% | parameter for the real()-function (equation parser) |
| %KineticEnergy_DifferenceInOrganize2% | change of kinetic energy in some chamber during MESHFREE organization at the end of the time step |
| %KineticEnergy_DifferenceInOrganize2% | parameter for the real()-function (equation parser) |
| %KineticEnergy_DifferenceInTimeStep% | change of kinetic energy in some chamber during (pure) MESHFREE numerics |
| %KineticEnergy_DifferenceInTimeStep% | parameter for the real()-function (equation parser) |
| %MASSFLOW_DROPLETPHASE% | mass flux integration of a functional by counting the DROPLETPHASE points that are injected at all inflow surfaces |
| %MASSFLOW_DROPLETPHASE% | |
| %MAXIMUM_BE% | maximum of a scalar value with respect to boundary elements |
| %MAXIMUM_BE% | |
| %MAXIMUM_BENP% | (experimental) maximum of a scalar value with respect to boundary node points |
| %MAXIMUM_BENP% | |
| %MAXIMUM_BND% | maximum of a functional based on all MESHFREE boundary points with respect to given boundary elements |
| %MAXIMUM_BND% | |
| %MAXIMUM_FS% | maximum of a functional based on all MESHFREE free surface points with respect to given material flags |
| %MAXIMUM_FS% | |
| %MAXIMUM_INT% | maximum of a functional based on all MESHFREE points with respect to given material flags |
| %MAXIMUM_INT% | |
| %MAXIMUM_MP% | maximum of a functional based on all non-irreducible monitor points with respect to given material flags |
| %MAXIMUM_MP% | |
| %MED_ADBLUE% | |
| %MED_BARODESY% | |
| %MED_CARREAU% | |
| %MED_DOUGH% | |
| %MED_GLASS% | |
| %MED_HOOK% | |
| %MED_HYPOPLAST% | |
| %MED_JOHNSON_COOK% | parameters for calculating viscosity in the Johnson-Cook model |
| %MED_JOHNSON_COOK% | specifier for the Johnson Cook Stress flow stress model |
| %MED_JOHNSON_COOK_PROJ% | |
| %MED_KAMRIN% | A generalized sand model based on the Kamrin paper |
| %MED_LIQUID_FILM% | viscosity definition in liquid films [Pa*s] |
| %MED_LIQUID_FILM% | |
| %MED_PUR% | |
| %MED_REDLICH_KWONG% | |
| %MED_USER_STRESS_TENSOR% | specifier for a user defined stress tensor |
| %MED_VFT% | |
| %MED_WATER% | |
| %MED_YIELDSTRESS% | |
| %MED_YIELDSTRESS_PROJ% | |
| %MED_air% | |
| %MED_foam% | |
| %MED_fuel% | |
| %MED_none% | |
| %MEMORIZEDelete_NbParticles% | current number of MESHFREE points that are deleted due to MEMORIZE_Write statements |
| %MEMORIZEDelete_NbParticles% | parameter for the real()-function (equation parser) |
| %MEMORIZEKeep_NbParticles% | current number of MESHFREE points that are kept due to MEMORIZE_Write statements |
| %MEMORIZEKeep_NbParticles% | parameter for the real()-function (equation parser) |
| %MEMORIZE_AdditionalFunctionManipulation% | additional function manipulation MEMORIZE_Read handle |
| %MEMORIZE_AdditionalFunctionManipulation% | |
| %MEMORIZE_Cycle% | cycle configuration MEMORIZE_Read handle |
| %MEMORIZE_Cycle% | |
| %MEMORIZE_DeletePoint% | deletion of point MEMORIZE_Write handle |
| %MEMORIZE_DeletePoint% | |
| %MEMORIZE_KeepPoint% | retention of point MEMORIZE_Write handle |
| %MEMORIZE_KeepPoint% | |
| %MEM_STATISTICS_ALLOC% | currently allocated memory of the node with the highest workload |
| %MEM_STATISTICS_ALLOC% | parameter for the real()-function (equation parser) |
| %MEM_STATISTICS_AVAIL% | currently available memory per node |
| %MEM_STATISTICS_AVAIL% | parameter for the real()-function (equation parser) |
| %MINIMUM_BE% | minimum of a scalar value with respect to boundary elements |
| %MINIMUM_BE% | |
| %MINIMUM_BENP% | (experimental) minimum of a scalar value with respect to boundary node points |
| %MINIMUM_BENP% | |
| %MINIMUM_BND% | minimum of a functional based on all MESHFREE boundary points with respect to given boundary elements |
| %MINIMUM_BND% | |
| %MINIMUM_FS% | minimum of a functional based on all MESHFREE free surface points with respect to given material flags |
| %MINIMUM_FS% | |
| %MINIMUM_INT% | minimum of a functional based on all MESHFREE points with respect to given material flags |
| %MINIMUM_INT% | |
| %MINIMUM_MP% | minimum of a functional based on all non-irreducible monitor points with respect to given material flags |
| %MINIMUM_MP% | |
| %MONITORPOINTS_CREATION_AtBoundary% | create monitor points at the boundary due to user-defined conditions |
| %MONITORPOINTS_CREATION_AtBoundary% | |
| %MONITORPOINTS_CREATION_ByCluster% | (experimental) create monitor points due to user-defined clusters |
| %MONITORPOINTS_CREATION_Inside% | create monitor points not attached to a boundary due to user-defined conditions |
| %MONITORPOINTS_CREATION_Inside% | |
| %MONITORPOINTS_CREATION_IrreducibleFPMpoint% | mark MESHFREE points to be irreducible |
| %MONITORPOINTS_CREATION_IrreducibleFPMpoint% | |
| %MONITORPOINTS_CREATION_PenetrationOfBlindAndEmptyBoundary% | create monitor points if MESHFREE points penetrate IDENT_BlindAndEmpty boundary |
| %MONITORPOINTS_CREATION_PenetrationOfBlindAndEmptyBoundary%constconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstRestartconstRestartconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconstconsttwoconsttwoconstconstconstconstconstconstconstconstconstconstBCON_CNTCTGASDYNLIQUIDBCONBCON_CNTCTGASDYNBCON_CNTCTBCONBCONBCON_CNTCT | velocity boundary conditions at interfaces |
| %ind_v(2)% | y-component of velocity [m/s] |
| %ind_v(2)% | y-component of velocity [m/s] |
| %ind_v(2)% | y-component of velocity vector |
| %ind_v(3)% | z-component of velocity [m/s] |
| %ind_v(3)% | z-component of velocity [m/s] |
| %ind_v(3)% | z-component of velocity vector |
| %ind_v0Darcy(1)% | |
| %ind_v0Darcy(1)% | velocity of the porous basis material, x-component, unit: m/s |
| %ind_v0Darcy(2)% | |
| %ind_v0Darcy(2)% | velocity of the porous basis material, y-component, unit: m/s |
| %ind_v0Darcy(3)% | |
| %ind_v0Darcy(3)% | velocity of the porous basis material, z-component, unit: m/s |
| %ind_v_0(1)% | velocity of the previous time step, x-component |
| %ind_v_0(1)% | velocity of the previous time step, x-component |
| %ind_v_0(2)% | velocity of the previous time step, y-component |
| %ind_v_0(2)% | velocity of the previous time step, y-component |
| %ind_v_0(3)% | velocity of the previous time step, z-component |
| %ind_v_0(3)% | velocity of the previous time step, z-component |
| %ind_v_3d(1)% | |
| %ind_v_3d(2)% | |
| %ind_v_3d(3)% | |
| %ind_v_Euler(1)% | transport velocity in EULERIAN framework Y(ind_v(1),i) - Y(ind_v_trans(1),i), x-component, unit=m/s |
| %ind_v_Euler(2)% | transport velocity in EULERIAN framework Y(ind_v(2),i) - Y(ind_v_trans(2),i), y-component, unit=m/s |
| %ind_v_Euler(3)% | transport velocity in EULERIAN framework Y(ind_v(3),i) - Y(ind_v_trans(3),i), z-component, unit=m/s |
| %ind_v_cont(1)% | |
| %ind_v_cont(2)% | |
| %ind_v_cont(3)% | |
| %ind_v_dot(1)% | if droplets collect at the boundary as a film: additional acceleration due to film dynamics (surface tension, layer thickness etc.), x-component [m/s^2] |
| %ind_v_dot(2)% | if droplets collect at the boundary as a film: additional acceleration due to film dynamics (surface tension, layer thickness etc.), y-component [m/s^2] |
| %ind_v_dot(3)% | if droplets collect at the boundary as a film: additional acceleration due to film dynamics (surface tension, layer thickness etc.), z-component [m/s^2] |
| %ind_v_p(1)% | x-component of the velocity of boundary movement |
| %ind_v_p(2)% | x-component of the velocity of boundary movement |
| %ind_v_p(3)% | x-component of the velocity of boundary movement |
| %ind_v_residual(1)% | residual of velocity (x-component) |
| %ind_v_residual(2)% | residual of velocity (y-component) |
| %ind_v_residual(3)% | residual of velocity (z-component) |
| %ind_v_tild(1)% | velocity before correction, x-component |
| %ind_v_tild(2)% | velocity before correction, y-component |
| %ind_v_tild(3)% | velocity before correction, z-component |
| %ind_v_times_v0% | scalar product (v-v_p)*(v0-v_p) |
| %ind_v_trans(1)% | velocity a point is actually moving with, x-component, unit=m/s |
| %ind_v_trans(2)% | velocity a point is actually moving with, y-component, unit=m/s |
| %ind_v_trans(3)% | velocity a point is actually moving with, z-component, unit=m/s |
| %ind_v_uw(1)% | upwind velocity [m/s], x-component |
| %ind_v_uw(2)% | upwind velocity [m/s], y-component |
| %ind_v_uw(3)% | upwind velocity [m/s], z-component |
| %ind_vn_a% | |
| %ind_vn_b% | |
| %ind_vn_n% | |
| %ind_vol% | numerical weight of point |
| %ind_volBubble% | volume of macroscopic bubble |
| %ind_vol_user% | user given weight for the points used in the MLS approximation |
| %ind_vrel(1)% | |
| %ind_vrel(2)% | |
| %ind_vrel(3)% | |
| %ind_vt_n(1)% | normal derivative of tangential velocity, x-component |
| %ind_vt_n(2)% | normal derivative of tangential velocity, y-component |
| %ind_vt_n(3)% | normal derivative of tangential velocity, z-component |
| %ind_x(1)% | x-component of point position, unit=meters |
| %ind_x(2)% | y-component of point position, unit=meters |
| %ind_x(3)% | z-component of point position, unit=meters |
| %ind_x0(1)% | x-component initial point position, unit=meters |
| %ind_x0(2)% | y-component initial point position, unit=meters |
| %ind_x0(3)% | z-component initial point position, unit=meters |
| %ind_xR(1)% | x-component of point position in real coordinates, unit=meters |
| %ind_xR(2)% | y-component of point position in real coordinates, unit=meters |
| %ind_xR(3)% | z-component of point position in real coordinates, unit=meters |
| %ind_x_displaced(1)% | x-component of point position before distance to boundary computation, unit = meters |
| %ind_x_displaced(2)% | y-component of point position before distance to boundary computation, unit = meters |
| %ind_x_displaced(3)% | z-component of point position before distance to boundary computation, unit = meters |
| %ind_x_dot(1)% | change of position of point (movement velocity), x-component |
| %ind_x_dot(2)% | change of position of point (movement velocity), y-component |
| %ind_x_dot(3)% | change of position of point (movement velocity), z-component |
| %ind_x_dot1(1)% | time change rate of position of previous time step n-1, x-component |
| %ind_x_dot1(2)% | time change rate of position of previous time step n-1, y-component |
| %ind_x_dot1(3)% | time change rate of position of previous time step n-1, z-component |