Simulate with complex geometries and complex physics
D
| DDO_average | |
| DDO_laplace | |
| DEBUG_Check_CCOR | generate control write out for correction pressure |
| DEBUG_Check_PDYN | generate control write out for dynamic pressure |
| DEBUG_Check_PHYD | generate control write out for hydrostatic pressure |
| DEBUG_Check_VELO | generate control write out for velocity |
| DEBUG_DefaultRescue | |
| DEBUG_GeneralParameter | General list of debug parameters at the developers disposal |
| DEBUG_SHM_MPIwindow | GASDYN parameter for FPM2 |
| DELT_dt | (compulsory) maximum allowed time step size |
| DELT_dt_AddCond | (optional) defines a custom time step criterion |
| DELT_dt_AddCond | defines a custom time step criterion |
| DELT_dt | maximum allowed time step size |
| DELT_dt_min | (optional) minimum allowed time step size |
| DELT_dt_min | minimum allowed time step size |
| DELT_dt_start | (compulsory) time step size at the start of a simulation |
| DELT_dt_start | time step size at the start of a simulation |
| DELT_dt_variable | (optional) let MESHFREE control the time step size |
| DELT_dt_variable | let MESHFREE control the time step size |
| DEL_rel_dist_shuffle | |
| DIFFOP_ConsistentGradient | consistent gradient in the sense d/dn = n*grad (CV) |
| DIFFOP_ConsistentGradient | consistent gradient in the sense d/dn = n*grad (UCVO) |
| DIFFOP_ConsistentGradient | consistent gradient in the sense d/dn = n*grad (UCV) |
| DIFFOP_Neumann_ExcludeBND | (chamberwise) parameter to exclude boundary points from the neighborhood for the computation of the Neumann operators (CV) |
| DIFFOP_Neumann_ExcludeBND | (chamberwise) parameter to exclude boundary points from the neighborhood for the computation of the Neumann operators (UCVO) |
| DIFFOP_Neumann_ExcludeBND | (chamberwise) parameter to exclude boundary points from the neighborhood for the computation of the Neumann operators (UCV) |
| DIFFOP_PPI_Gradient | |
| DIFFOP_PPI_Laplace | |
| DIFFOP_PPI_Neumann | |
| DIFFOP_Version | version of least squares operators |
| DIFFOP_WeightReductionInCaseOfDeactivation | (chamberwise) parameter to reduce the weight of a neighbor point in case of deactivation (CV) |
| DIFFOP_WeightReductionInCaseOfDeactivation | (chamberwise) parameter to reduce the weight of a neighbor point in case of deactivation (UCVO) |
| DIFFOP_WeightReductionInCaseOfDeactivation | (chamberwise) parameter to reduce the weight of a neighbor point in case of deactivation (UCV) |
| DIFFOP_gradient | type of least squares approximation stencils for gradients |
| DIFFOP_kernel_Gradient | (chamberwise) factor for the weight kernel for the least squares approximation stencils for gradients (CV) |
| DIFFOP_kernel_Gradient | (chamberwise) factor for the weight kernel for the least squares approximation stencils for gradients (UCVO) |
| DIFFOP_kernel_Gradient | (chamberwise) factor for the weight kernel for the least squares approximation stencils for gradients (UCV) |
| DIFFOP_kernel_Laplace | (chamberwise) factor for the weight kernel for the least squares approximation stencils for the Laplacian (CV) |
| DIFFOP_kernel_Laplace | (chamberwise) factor for the weight kernel for the least squares approximation stencils for the Laplacian (UCVO) |
| DIFFOP_kernel_Laplace | (chamberwise) factor for the weight kernel for the least squares approximation stencils for the Laplacian (UCV) |
| DIFFOP_kernel_Neumann | (chamberwise) factor for the weight kernel for the least squares approximation stencils for Neumann operators (CV) |
| DIFFOP_kernel_Neumann | (chamberwise) factor for the weight kernel for the least squares approximation stencils for Neumann operators (UCVO) |
| DIFFOP_kernel_Neumann | (chamberwise) factor for the weight kernel for the least squares approximation stencils for Neumann operators (UCV) |
| DIFFOP_kernel_Transport | (chamberwise) factor for the weight kernel for the least squares approximation stencils for the transport operators (CV) |
| DIFFOP_kernel_Transport | (chamberwise) factor for the weight kernel for the least squares approximation stencils for the transport operators (UCVO) |
| DIFFOP_kernel_Transport | (chamberwise) factor for the weight kernel for the least squares approximation stencils for the transport operators (UCV) |
| DIFFOP_laplace | type of least squares approximation stencils for the Laplacian (CV) |
| DIFFOP_laplace | type of least squares approximation stencils for the Laplacian (UCVO) |
| DIFFOP_laplace | type of least squares approximation stencils for the Laplacian (UCV) |
| DP_UseOnlyRepulsiveContactForce | switch regarding attractive forces in spring-damper model (CV) |
| DP_UseOnlyRepulsiveContactForce | switch regarding attractive forces in spring-damper model (UCVO) |
| DP_UseOnlyRepulsiveContactForce | switch regarding attractive forces in spring-damper model (UCV) |
| DROPLETPHASE | Explicit solver for droplets which may interact and collect as water films along boundaries |
| DROPLETPHASE_AddDeParcelingCond | defines a custom criterion for parceling |
| DROPLETPHASE_AddParcelingCond | defines a custom criterion for parceling |
| DROPLETPHASE_LockedPoints_Collision | Mixed definition of repulsion / locking of DROPLETPHASE points at walls or clusters |
| DROPLETPHASE_LockedPoints_Collision | define collisions of DROPLETPHASE points with boundaries and locked clusters |
| DROPLETPHASE_LockedPoints_Detachment | releases DROPLETPHASE points from the %IDENT_locked% state |
| DROPLETPHASE_LockedPoints_Detachment | define detachment of DROPLETPHASE points from boundaries and locked clusters |
| DROPLETPHASE_LockedPoints_Modification | modify function values of DROPLETPHASE points in the %IDENT_locked% state |
| DROPLETPHASE_LockedPoints_Modification | modify function values of locked DROPLETPHASE points |
| DROPLETPHASE_MaxEquivalentParcelDiameter | Limiting maximum equivalent parcel diameter for parceling in DROPLETPHASE (CV) |
| DROPLETPHASE_MaxEquivalentParcelDiameter | Limiting maximum equivalent parcel diameter for parceling in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MaxEquivalentParcelDiameter | Limiting maximum equivalent parcel diameter for parceling in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MaxNeighboursForDeParceling | Limiting number of neigbors to trigger declustering in DROPLETPHASE (CV) |
| DROPLETPHASE_MaxNeighboursForDeParceling | Limiting number of neigbors to trigger declustering in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MaxNeighboursForDeParceling | Limiting number of neigbors to trigger declustering in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MaxRelativeParcelVelocity | Limiting maximum relative parcel velocity for parceling in DROPLETPHASE (CV) |
| DROPLETPHASE_MaxRelativeParcelVelocity | Limiting maximum relative parcel velocity for parceling in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MaxRelativeParcelVelocity | Limiting maximum relative parcel velocity for parceling in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MinNeighboursForParceling | Limiting number of neigbors to trigger declustering in DROPLETPHASE (CV) |
| DROPLETPHASE_MinNeighboursForParceling | Limiting number of neigbors to trigger clustering in DROPLETPHASE (UCVO) |
| DROPLETPHASE_MinNeighboursForParceling | Limiting number of neigbors to trigger clustering in DROPLETPHASE (UCVO) |
| DROPLETPHASE_ParcelingDiameterClasses | defines classes for diameters for parceling. And parceling is only done whent two parcels are in the same class. |
| DROPLETPHASE_SubcyclingMPICommunication | switch for MPI communication within each cycle of subcycling in DROPLETPHASE (CV) |
| DROPLETPHASE_SubcyclingMPICommunication | switch for MPI communication within each cycle of subcycling in DROPLETPHASE (UCVO) |
| DROPLETPHASE_SubcyclingMPICommunication | switch for MPI communication within each cycle of subcycling in DROPLETPHASE (UCV) |
| DROPLETPHASE_SubcyclingReadGravity | switch for updating gravity within each cycle of subcycling in DROPLETPHASE (CV) |
| DROPLETPHASE_SubcyclingReadGravity | switch for updating gravity within each cycle of subcycling in DROPLETPHASE (UCVO) |
| DROPLETPHASE_SubcyclingReadGravity | switch for updating gravity within each cycle of subcycling in DROPLETPHASE (UCV) |
| DROPLETPHASE__BC__ | Boundary Conditions for Dropletphase |
| DROPLETPHASE | Indices for the droplet and particle phase solver |
| DROPLETPHASE_nbTSforParceling | Number of time steps after which parceling will be done |
| DROPLETPHASE_nbTSforParceling | Number of time steps after which parceling will be done (UCVO) |
| DROPLETPHASE_nbTSforParceling | Number of time steps after which parceling will be done (UCV) |
| DROPLETPHASE_tools | |
| DSCR | discrete (locally variable) smoothing length definition |
| DarcyBasisVelocity | velocity of porous material [m/s] |
| DarcyBasisVelocity | Define velocity of porous material |
| DarcyConstant | coupling parameter for porous media [kg/(s*m^3)] |
| DarcyConstant | Define coupling parameter for porous material |
| Darcy_PrimaryDirection | |
| Darcy_PrimaryDirectionFactor | |
| DataStructure_SentBackFromFPM | exact data structure returned by MESHFREE upon data request |
| DataStructure_ToBeSentToFPM | exact data structure to send data request to MESHFREE |
| DaughterParticleDistribution | |
| DaughterParticleProbability | |
| DefineRestart | save restart files |
| DefinitionRepresentativeDensity | define the representative density |
| DefinitionRepresentativeMass | define the representative mass |
| DeletedOrInactivePoints | deleted or inactive points giving away their mass to active points |
| DeriveDivergenceOfVelocity | how to compute the divergence of velocity from mass conservation |
| DerivePoissonEquationForPressure | how to compute the pressure from the equation of momentum |
| DerivedPointData | |
| DesiredAndNominalDivergenceOfVelocity | derive a formulation for the desired divergence of velocity |
| DiffLaw | |
| DifferentTypesOfPressureBoundaryConditions | |
| DovmmUntilTime_DovpmFromTime | parameter to control the execution of v-- and vp- solvers in two-phase LIQUID simulations with respect to time |
| DovpmFromTime | parameter to control the execution of the vp- solver in two-phase LIQUID simulations with respect to time |
| Download | Download executables and dependencies |
| DropletCollisions | DROPLETPHASE - Modeling of collisions between droplets |
| DropletSource | generate a sequence of spherical droplets |
| DropletSource | |
| DruckerPragerModel | use the GeneralYieldStress functionality to describe the behavior of granular materials |
| DtDom() | distance to a given alias domain |
| DynamicPressure | dynamic pressure derived from momentum equation |
| DynamicPressureAlgorithm | |
| dYdm() | transport operator for given transport velocity |
| dYdn() | normal derivative of MESHFREE-entity |
| dYdx() | x-derivative of MESHFREE-entity |
| dYdy() | y-derivative of MESHFREE-entity |
| dYdz() | z-derivative of MESHFREE-entity |
| damping_p_corr | (chamberwise) parameter to reduce the dynamic pressure as initial guess for the next time level (CV) |
| damping_p_corr | (chamberwise) parameter to reduce the dynamic pressure as initial guess for the next time level (UCVO) |
| damping_p_corr | (chamberwise) parameter to reduce the dynamic pressure as initial guess for the next time level (UCV) |
| dcurv() | derivative of a given curve |
| delaunay_reduction | switch for Delaunay reduction procedure |
| deleteParticlesOn{} | delete MESHFREE points by an arithmetic criterion |
| delete{ | delete all the geometry belonging to a given alias-group |
| delete{ | delete all the geometry belonging to a given alias-group |
| delta_uw | |
| delta_uw_bp | |
| density | material density [kg/m^3] |
| density | |
| depvar_default | defines the index for the independent variable in 1D curves |
| depvar_default{ | defines the index for the independent variable in 1D curves |
| depvar_horizontal | defines the index for the horizontal independent variable in 2D curves |
| depvar_horizontal{ | defines the index for the horizontal independent variable in 2D curves |
| depvar_vertical | defines the index for the vertical independent variable in 2D curves |
| depvar_vertical{ | defines the index for the vertical independent variable in 2D curves |
| dequn() | derivative of a given equation |
| dist_BND_from_FS | (deprecated) |
| dist_FS_from_BND | define hole size for the free surface detection |
| dist_FS_new_part | |
| dist_LayerThickness | minimal thickness for degenerated 3D phase |
| dist_aip | initial relative distance to boundary of a newly injected MESHFREE point (aip = add injected points) |
| dist_between_phases | |
| dist_merge_opp_face | |
| dist_parceling | (experimental / Under development) Maximum relative distance to initiate parceling |
| dist_parceling_FreeFlight | (experimental / Under development) Maximum relative distance to initiate parceling |
| dist_parceling_FreeFlight | (experimental / Under development) Maximum relative distance to initiate parceling in free flight (UCVO) |
| dist_parceling_FreeFlight | (experimental / Under development) Maximum relative distance to initiate parceling in free flight (UCVO) |
| dist_parceling | (experimental / Under development) Maximum relative distance to initiate parceling (UCVO) |
| dist_parceling | (experimental / Under development) Maximum relative distance to initiate parceling (UCVO) |
| dist_rab | relative allowed minimum distance of MESHFREE points to boundary (rab = remove at boundary) |
| dist_rip | relative allowed minimum distance between MESHFREE points (rip = remove interior points) |
| distanceToBND{} | recompute the distance of each point with respect to the boundary |
| divergenceV | |
| drand() | discrete random number generator |
| dtBND() | (experimental) closest distance to boundary (free surface or regular) in the neighborhood of a MESHFREE point |
| duplicate{ | Duplicate part of the geometry and apply a new alias |
| duplicate{ | Duplicate part of the geometry and apply a new alias |