Multidisciplinary Exploration of DRAGON: an ONERA Hybrid ...
Cassiopée - ONERA
Transcript of Cassiopée - ONERA
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- Cassiopée -Pre- and Post-processing forCFD python CGNS workflow
S. Péron, C. Benoit, P. Raud, S. Landier
CFD Workflow : Meshing, Solving, Visualizing...OSD : Onera Scientific Day – October 3rd, 2012
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Python/CGNS
Based on Python/CGNS CGNS: standard/well established data model Python: high level script language, easy to use Python/CGNS standard (M. Poinot)
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Python/CGNS
Full CFD computation case is stored in a tree Meshes, BCs, settings...
Tree is stored as an imbricated set of python lists
Cassiopée: a set of functions (python modules)− t' = f(t), t is the python CGNS tree− Generator : Mesh generation module− Transform : block transformation module− Connector : connectivity module− Post : solution post-processing module
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TFIs
Normal extrusion
Generator
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Surface orthogonal walk
Surface boolean operators
Surface delaunay
Generator
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Mesh refinement
Octrees
Generator
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Projections
Mesh smoothing
Mesh merging
Transform
Mesh splitting
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Connector
Blanking Chimera connectivity : overlap optimization, interpolation coefficient computation
Automatic detection of matching boundaries
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Post
Surface extraction
Iso-surface extraction Signed distance field
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Application to automatic grid assembly(collar grids + chimera)
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Collar mesh generation Overset grid assembly
Union
Difference
Extract wall BCs
Workflow
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Surface walk on bodies
Volume grid generation
Collar mesh generation
Extract intersectioncontour
Union
Difference
0°<θ<120°
θ>120°
TFI
Extrusion
Extrusion
Add BCs and connectivity
1 grid
2 overset grids
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Example : DGV fuselage with a strut
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Application to Cartesian mesh generationand adaptation
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Framework
• The computational domain is partitioned into:
– near-body regions around bodies (fuselage, wing, ...)
– off-body regions
• Each geometrical component is meshed independently by a set of grids extending a short distance in the domain
• Off-body regions are described by a set of adaptive Cartesian grids, overlapping near-body grids
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Analytical surface mesh
Extrusion: volume mesh
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
CFD solver
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
CFD solver
Sensor computation
Projection of the sensor on the octree mesh
Refinement indicator computation
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
CFD solver
Sensor computation
Projection of the sensor on the octree mesh
Refinement indicator computation
Octree mesh adaptation
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
CFD solver
Sensor computation
Projection of the sensor on the octree mesh
Refinement indicator computation
Octree mesh adaptation
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
Sol. interpolation on the new mesh
CFD solver
Sensor computation
Projection of the sensor on the octree mesh
Refinement indicator computation
Octree mesh adaptation
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Analytical surface mesh
Extrusion: volume mesh
Octree mesh generation
octree2Struct
Chimera assembly
Sol. interpolation on the new mesh
CFD solver
Sensor computation
Projection of the sensor on the octree mesh
Refinement indicator computation
Octree mesh adaptation
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Example: RANS simulation of the flow on a NACA0015 rounded tip wing
• Simulation:
– Exp. by McAlister & Takahashi
– M=0.1235 , AoA=12°, Re = 2 million
– Rectangular wing, rounded tip and root, blunt trailing edge
• Near-body mesh:
– Near-body mesh obtained by extrusion from the analytical surface mesh: 297x101x90 points
– Overlap BCs applied at external borders
– Spacing at external borders ~ 2%c
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Initial octree mesh refined in the vicinity of external surfaces of the near-body mesh
Derivation to Cartesian grids, with dxmin
=2%c (8MPts over 72 blocks)
Chimera assembly with overlap optimization
RANS simulation using AUSM+ scheme, Wilcox k-ω turbulence model
Cartesian off-body mesh adaptation performed according to the previous workflow:
– Sensor field: streamwise component of the vorticity
– Adaptation performed every 500 iteration (9 times)
Workflow
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Réf : S. Péron, C. Benoit, «Automatic off-body overset adaptive Cartesian mesh method based on an octree approach», Journal of Computational Physics, 2012,http://dx.doi.org/10.1016/j.jcp.2012.07.029 (on line)
Vorticity magnitude |ω|=1
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Conclusion
• Cassiopée contains a set of pre- and post-processing functions
• All the functions operate on the same data (CGNS/Python tree)
• This enables to quickly design solutions for mesh generation/adaptation/assembly and post-processing.