Simulate with complex geometries and complex physics
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| THICKNESS | (optional, experimental) defines the thickness of the shell elements |
| TIMECHECK | measure performance (simulation time) for different tasks of MESHFREE |
| TIMECHECK_Level | time check only up to a given level |
| TOL_T | (control of time step size) error tolerance for computing the temperature using SDIRK2 method in EULERIMPL setting |
| TOL_keps | (control of time step size) error tolerance for computing the k-epsilon model using SDIRK2 method in EULERIMPL setting |
| TOL_v | (control of time step size) error tolerance for computing the velocity using SDIRK2 method in EULERIMPL setting |
| TOUCH | define the wetting/activation behavior of MESHFREE points along the given boundary part |
| TOUCH | (experimental) defines touch flags for boundary aliases |
| TOUCH | (required) define the wetting/activation behavior of MESHFREE points along the given boundary part |
| TOUCH | |
| TRANSPORT_ODE_fct_evaluation | (experimental) switch for additional function evaluation within the implicit time integration scheme in EULERIMPL setting |
| TWOSIDED | copy the boundary entity, re-orient it, and give other attributes to it |
| TWOSIDED | (experimental) copy the boundary entity re-orient it, and give other attributes to it |
| T_fin | (deprecated) end time |
| T_st | (deprecated) start time |
| Tables | define tables in the input file |
| TaylorQuinneyCoefficient | |
| TemperatureAlgorithm | |
| TemporarySwitch_InteriorToBoundary | for the current time step, temporarily define an interior point (%BND_none%) as a boundary point, and provide boundary conditions |
| TemporarySwitch_InteriorToBoundary | |
| Tend | (compulsory) maximum final time of a simulation |
| Tend | maximum final time of simulation |
| TestManagement | Test Management Plan |
| TimeControl | time control options |
| TimeIntegration | Order of time integration |
| TimeIntegrationAlgorithm | |
| TimeIntegration_N_final | (optional) final time step of a simulation |
| TimeIntegration_N_final | maximum number of timesteps |
| TimeStepCriteria | DROPLETPHASE - Time step criteria |
| TimestepFile | Results of INTEGRATION statements per timestep |
| TimestepFile_HeaderType | parameter determines if header of INTEGRATION statements is stored in first line of .timestep files or in separate .timestep.header files (CV) |
| TimestepFile_HeaderType | parameter determines if header of INTEGRATION statements is stored in first line of .timestep files or in separate .timestep.header files (UCVO) |
| TimestepFile_HeaderType | parameter determines if header of INTEGRATION statements is stored in first line of .timestep files or in separate .timestep.header files (UCV) |
| Tstart | (compulsory) initial time of a simulation |
| Tstart | initial time of simulation |
| TurbulenceModel | Selection of turbulence model |
| TurbulentForceWeight | weight for turbulent shear forces to apply on LS-DYNA bodies |
| Tutorial | simple, comprehensive examples in 3D |
| TwoArguments | real function in MESHFREE-equations with TWO parameters/arguments |
| TwoPhaseDarcy | water jet deflected by air |
| TwoPhaseHeatTransfer | heat transfer between two different phases with different temperatures |
| table() | access values of a begin_table environment |
| table_size() | get size of begin_table environment along one dimension |
| tan() | tangent |
| tanh() | hyperbolic tangent |
| tau | |
| thermalconduction | |
| thickenabs{ | move a given part of the geometry by an absolute value of distance |
| thickenabs{ | move a given part of the geometry by an absolute value of distance |
| thickenexp{ | move the given part of the boundary by a relative value, correlated to the locally given smoothing length |
| thickenexp{ | move the given part of the boundary by a relative value, correlated to the locally given smoothing length |
| timeAvg() | compute average of some function over time (or some other basis) within a certain interval |
| time_check | write out a detailed time check listing |
| time_check_sum | write out a sum-up conclusion of the time check |
| time_integration_expl | order of explicit time integration scheme in EULEREXPL setting |
| time_integration_impl | order of implicit time integration scheme in EULERIMPL setting |
| time_integration_impl_solve_v | order of implicit time integration scheme for velocity only (EULERIMPL) |
| time_step_gain | relative amount by which new timestep size can increase at maximum compared to old timestep size |
| time_step_loss | relative amount by which new timestep size can decrease at maximum compared to old timestep size (adaptive timestep size) |
| turn_6NodeTriangles_into_3NodeTriangles{ | Turn 6-node triangles into 3-node triangles |
| turn_6NodeTriangles_into_3NodeTriangles{ | Turn 6-node triangles into 3-node triangles |
| turn_down_BND_order | (chamberwise) parameter to automatically reduce the approximation order of a boundary point |
| tut3d_00 | TUTORIAL 0: Checking the geometry |
| tut3d_01 | TUTORIAL 1: flow in a simple tube |
| tut3d_02 | TUTORIAL 2: flow out of a tank |
| tut3d_03 | TUTORIAL 3: flow in open channel with obstacle |
| tut3d_04a | TUTORIAL 4: flow around a cylinder with local refinement |
| tut3d_04b | TUTORIAL 4b: flow around a cylinder with local refinement (geometry-based) |
| tut3d_05 | TUTORIAL 5: flow around a MOVING cylinder with MOVING local refinement |
| tut3d_06 | TUTORIAL 6: flow around a periodically moving cylinder |
| tut3d_07 | TUTORIAL 7: boiling flow in a bowl |
| tut3d_08 | TUTORIAL 8: simple pressing process |
| tut3d_09 | TUTORIAL 9: simple floating process |
| tut3d_10 | TUTORIAL 10: simple rolling process |