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Preprocessor
| scFLOW | SC/Tetra | ||
|---|---|---|---|
| Modeling | CAD data Interface (import) | Parasolid, STEP, JT, STL, IGES, ACIS, CATIA V6, CATIA V5, CATIA V4, Creo Elements/Pro (Pro/Engineer), SOLIDWORKS, NX, Solid Edge, Inventor, DWG, DXF (3D-face), 3DM, VDAFS, IFC, Nastran, MDL | Parasolid, STEP, STL, IGES, ACIS, CATIA V5, CATIA V4, Creo Elements/Pro (Pro/Engineer), SOLIDWORKS, NX, Solid Edge, Inventor, DXF (3D-face), VDAFS, Abaqus, Nastran, Design Space, Plot3D, CGNS |
| CAD data Interface (export) | Parasolid, MDL | STL, Nastran, CGNS, Parasolid, MDL | |
| Primitives | Cuboid, cylinder, sphere | Cuboid, cylinder, sphere, rectangle (panel) | |
| Geometry modification | Data cleaning, editing solid, editing sheet, cross-section and extraction, coordinate conversion, wrapping | Data cleaning, editing solid, editing sheet, cross-section and extraction, coordinate conversion, turbomachinery (single-pitch extraction), wrapping | |
| Mesh generation and faceter | Tetrahedron | ● | |
| Pentahedron (prism, pyramid) | ● | ||
| Hexahedron | ● (manual setting) |
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| Cuboid | ● (when the spacial hexahedral mesh is used) | ● (when the internal hexahedral mesh is used) |
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| Polygon (polyhedron) | ● | ||
| Sweep mesh | ● | ● | |
| Thin mesh | ● | ||
| Voxel fitting mesher | ● | ||
| Solid-based surface mesher | ● | ||
| Parasolid faceter | ● | ● | |
| Solid-based facetor | ● | ||
| Conditions | Easy set-up through wizard | ● | ● |
| Unused dialogs hidden | ● | ● | |
| Collective settings to undefined regions | ● | ● | |
| Material property library (editable) | ● | ● | |
| Laminated materials | ● | ● (laminated panel) |
|
| Operation and control environment | VB Interface | ● | ● |
| Selectable mouse operation modes | ● | ● | |
| Mapping | ● | ● | |
| Viewer mode | ● |
Solver
| scFLOW | SC/Tetra | ||
|---|---|---|---|
| Mesh | Unstructured mesh | ● | ● |
| Overset mesh | ● | ● | |
| Mesh adaptation | ● | ● | |
| Mesh adaptation in solver | ● | ||
| Discontinuous mesh interface | ● | ● | |
| ALE (rotation, translation, stretch) | ● | ● | |
| 6-degree-of-freedom motion (6DOF) | ● | ● | |
| Mixing plane | ● | ● | |
| Numerical scheme | Finite volume method | ● | ● |
| Pressure correction | SIMPLEC, SIMPLE, PISO | SIMPLEC, SIMPLE, revised SIMPLEC | |
| Convection term accuracy | 1st/2nd order (MUSCL/QUICK) upwind scheme, 2nd-order central difference (LES) | 1st/2nd order (MUSCL/QUICK) upwind scheme, 2nd-order central difference (LES) | |
| Matrix | MILUCG-STAB, AMGCG-STAB, CGCCG-STAB | MILUCG-STAB, AMG, AMGCG-STAB, CGCCG-STAB | |
| Density based | ● (defect correction method, JFNK method) | ● (defect correction method) |
|
| Steady-state / transient calculation | ● | ● | |
| Flow types | Incompressible fluid | ● | ● |
| Compressible | ● | ● | |
| fluid | |||
| Non-Newtonian | ● | ● | |
| fluid | |||
| Buoyancy (Boussinesq approximation) | ● | ● | |
| Multiple fluids | ● | ● | |
| Gas mixing | ● | ● | |
| Turbulence models | Standard k-ε model, RNG k-ε model, MP k-ε model, AKN linear low-Reynolds number k-ε model, realizable k-ε model, SST k-ω model, MPAKN linear low-Reynolds number k-ε model, Spalart-Allmaras one equation model, LKE k-kL-ε model, SST-SAS model, LES, DES | Standard k-ε model, RNG k-ε model, MP k-ε model, AKN linear low-Reynolds number k-ε model, GPC linear low-Reynolds number k-ε model, non-linear low-Reynolds number k-ε model, realizable k-ε model, SST k-ω model, MPAKN linear low-Reynolds number k-ε model, Spalart-Allmaras one equation model, LKE k-kL-ω model, SST-SAS model, LES, DES, VLES | |
| Thermal analysis | Heat conduction (fluid/solid) | ● | ● |
| Convective heat transfer | ● | ● | |
| Heat radiation (view factor method) | ● | ● | |
| Heat radiation (flux method) | ● | ● | |
| Heat conduction panel | ● | ● | |
| Moving heat conduction panel | ● | ||
| Solar radiation | ● | ● | |
| Joule heat | ● | ● | |
| Mean radiation temperature calculation | ● | ● | |
| Graphic output of rays from lamp | ● | ● | |
| Diffusion analysis | Diffusivity | ● | ● |
| SORET effect | ● | ● | |
| Passive scalar | ● | ||
| Index for ventilation effciency / thermal comfort | PMV/SET* | ● | ● |
| Humidity / dew condensation analysis | Relative humidity / absolute humidity | ● | ● |
| Dew condensation | ● | ● | |
| Reaction analysis | Chemical reaction | ● | ● |
| Combustion reaction | ● Eddy-dissipation model | ● Eddy-dissipation model |
|
| Thermal CVD analysis | ● | ||
| Particle analysis | Marker particles | ● | ● |
| Mass particles | ● | ● | |
| Charged particles | ● (user-defined function) | ● (user-defined function) |
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| Spray model | ● | ● | |
| Liquid film | ● | ● | |
| Transforming dew condensation | ● | ● | |
| Transforming fluid / volume rate | ● (VOF method) | ● (VOF method) |
|
| Discrete element method (DEM) | Contact model | Linear spring dashpot model, Hertz-Mindlin model, Walton-Braun model | |
| Cloth model | ● | ||
| String model | ● | ||
| Cluster model | ● | ||
| Cohesion model | ● | ||
| Thermal | ● | ||
| Ad / desorption (Humidity) | ● | ||
| Dissolution | ● | ||
| Dynamic domain | ● | ||
| Multiphase flow analysis | Free surface | ● (VOF method, steady-state/transient, multiphase) | ● (VOF method, transient) |
| Solidification / melting | ● | ● | |
| Boil / condensation | ● (VOF method, Dispersed multiphase flow) | ● (VOF method) |
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| Evaporation / condensation | ● | ● | |
| Cavitation model / erosion index | ● | ● | |
| Dispersed multiphase flow | ● | ● | |
| Population balance model | ● | ||
| Aerodynamic noise analysis | Ffowcs Williams & Hawkings' equation | ● | ● |
| Weak compressible flow model | ● | ||
| Sound source detection model | ● | ● | |
| Current analysis | Conductor current | ● | ● |
| Conductor potential | ● | ● | |
| Thermo-regulation model | JOS, JOS-2 | ● | ● |
| Flow conditions | Velocity | ● | ● |
| Volume flow rate | ● | ● | |
| Mass flow rate | ● | ● | |
| Power law | ● | ||
| Pressure (static pressure / total pressure) | ● | ● | |
| Natural inflow / outflow | ● | ● | |
| Fan model | ● | ● | |
| Wave generation, wave dissipation | ● | ● (VOF method) |
|
| Thermal conditions | Fixed temperature | ● | ● |
| Heat source | ● | ● | |
| Heat transfer coefficient | ● | ● | |
| Contact heat transfer coefficient | ● | ● | |
| Wall conditions | No-slip (stationary wall) | ● | ● |
| Free-slip (symmetry wall) | ● | ● | |
| Log-law condition | ● | ● | |
| Low-Re-number adaptive wall function | ● | ● | |
| Surface roughness | ● | ● | |
| Wall model (LES) | ● | ||
| Pressure conditions | Fixed pressure | ● | ● |
| Pressure loss | ● | ● | |
| Porous media | ● | ● | |
| Source conditions | Volume force/pressure loss | ● | ● |
| Heat generation | ● | ● | |
| Smoke source (diffusing materials) | ● | ● | |
| Turbulence generation | ● | ● | |
| Solid shear heating | ● | ● | |
| Simplified propeller model | ● | ● | |
| Simplified rotor model | ● | ||
| User-defined conditions | Variables table / functions | ● | ● |
| Script functions (JavaScript) | ● | ||
| User-defined function (compilation required) | ● | ● | |
| Calculation control environment | Job management | ● | ● |
| Monitoring the calculation status | ● | ● | |
| Email notification of the calculation | ● | ● | |
| VB interface | ● | ● | |
| Output for visualization | Wavelet transform | ● | |
| Post files output | Software Cradle post files (FPH) | Software Cradle post files (FLD, iFLD) | |
| Output for third party software | Abaqus, Nastran, Actran, Femtet, Adams, Marc, JMAG-Designer, EMSolution, FlowNoise, GT-SUITE, FieldView | Abaqus, Nastran, Femtet, ADVENTURECluster, JMAG-Designer, EMSolution, Optimus, Isight, modeFRONTIER, LMS Virtual.Lab, Actran, FlowNoise, GT-SUITE, KULI, Flowmaster, LOGE, EnSight, FieldView, AVS |
Postprocessor
| scFLOW | SC/Tetra | ||
|---|---|---|---|
| Drawing functions | Mesh, vector, contour plots | ● | |
| Isosurface, streamline, pathline, volume rendering | ● | ||
| Geometry display | ● (STL file, NFB file, Wavefront OBJ file) |
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| 2D graph | ● | ||
| Mirror/Periodical copy | ● | ||
| Vortex center | ● | ||
| Drawing position / orientation | Arbitrary plane, surface, entire volume, cylinder | ● | |
| Streamlines, isosurface | ● | ||
| Pathlines | ● | ||
| Arbitrary scaling | ● | ||
| Arbitrary pick | ● (scalar / vector value) |
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| Special effects | Oil flow | ● (on plane / surface) |
|
| Texture mapping | ● (on plane / surface, arbitrary geometry with texture) |
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| Lighting, luster, gradation | ● (preset, arbitrary) |
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| Transparency, water-like expression, shadow | ● | ||
| Ray, Cloth, String, Surface of particles, Road line, Heat transfer, IPC-2581 | ● | ||
| Photorealistic | ● | ||
| Animation | Vector animation | ● | |
| Flow line animation | ● | ||
| Cut-plane sweeping | ● | ||
| Marker particle | ● (turbulent diffusion effect) |
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| Automatic translation of view point | ● (view / focus points can be set) |
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| Key-frame animation, Time line | ● | ||
| Animation interpolated between cycles | ● | ||
| Analysis results | Variable registration (function registration) | ● | |
| Integral (surface / volume) | ● (scalar / vector integration) |
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| Comparison | ● (clipping function, image compare) |
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| Projected area calculation | ● | ||
| Automatic search of the local max / min positions | ● | ||
| Import of CSV data | ● | ||
| Automatic change of colorbar | ● (preset, arbitrary) |
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| Complex values data graphing | ● | ||
| Data image output | Microsoft BMP, JPG, PNG | ● (size, resolution adjustable) |
|
| CradleViewer | ● (support steady-state / transient animation, attach to Office applications) |
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| AVI, WMV, MP4 | ● | ||
| VRML,FBX,STL | ● | ||
| Copy&paste 3D onto Powerpoint | ● | ||
| Operation and control environment | Selectable help function | ● | |
| OpenGL (Hardware acceleration, software rendering) | ● | ||
| VB interface | ● | ||
| Selectable mouse operation modes | ● | ||
| Stereoscopic view | ● | ||
| Plug-in functionality | ● | ||
| Partial open field file by SSH | ● | ||
Wróć na stronę Oprogramowania Cradle.
