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T AFSM SUPG STABILIZATION PARAMETERS CALCULATED FROM THE QUADRATURE-POINT COMPONENTS OF THE ELEMENT-LEVEL MATRICES ECCOMAS 2004 J. ED AKIN TAYFUN TEZDUYAR Mechanical Engineering, Rice University Houston, Texas akin@rice.edu http://www.mems.rice.edu/TAFSM/
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T AFSM Quadrature-point based defined: c = ∑ q c q, k ~ = ∑ q k ~ q ( S1 ) q = || c q || / || k ~ q || I = ∑ q ( S1 ) q f (c q, k ~ q, …) Element work arrays: c q and k ~ q
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T AFSM Solution surface from Q4 elements and element-based S1
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T AFSM Contours for mesh Q4: SUGN1 (top), element based S1 (lower left), quadrature-point based S1 (lower right)
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T AFSM Contours for T3 mesh: SUGN1 (top), element based S1 (lower left), quadrature-point based S1 (lower right)
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T AFSM Quadrature-point-based S1 contours for: Q4 mesh (top), Q9 mesh (lower left), Q16 mesh (lower right)
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T AFSM Element-based S1 contours for: Q4 mesh (top), Q9 mesh (lower left), Q16 mesh (lower right)
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T AFSM Quadrature-point-based S1 contours for: T3 mesh (top), T6 mesh (lower left), T10 mesh (lower right)
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T AFSM Element-based S1 contours for: T3 mesh (top), T6 mesh (lower left), T10 mesh (lower right)
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T AFSM Constant y-plane solution for S1 from: Q4 mesh (top), T3 mesh (bottom)
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T AFSM Constant y-plane solution for Q4, Q9, Q16 for S1: quadrature-point-based (top), element-based (bottom)
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T AFSM Constant y-plane solution for T3, T6, T10 for S1 : quadrature-point-based (top), element-based (bottom)
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T AFSM Constant x-plane solution for quadrature-point-based S1 : Q4, Q9, Q16 meshes (top), T3, T6, T10 meshes (bottom)
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T AFSM Discrete Point Values of The previous contours hide information because they omit the mesh detail and are “smoothed” through different point locations: –Element-based at element centroid –Quadrature-point-based positions –Nodal-point-based positions
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T AFSM Finest T3 mesh followed by zoom-in by center flow rotation point for contour of: T3, T6, T10 elements, Q4, Q8, Q16 elements. Local Tau values are generally proportional to element length through the point, in the direction of the local velocity.
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T AFSM Full T3 Mesh
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T AFSM Zoom on T3 Mesh
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T AFSM Zoom on T6 Mesh
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T AFSM Full zoom T6 point values
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T AFSM Zoom on T10 Mesh
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T AFSM Zoom on Q8 Mesh
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T AFSM Full zoom on Q8 point values
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T AFSM Zoom on Q16 mesh
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T AFSM Conclusions Quadrature-point norm based values are efficient to compute. They yield higher values in local regions where the unit vector s or r rapidly changes its direction. The element-based norm is a general framework that automatically accounts for local length scales. Both norm-based methods decrease as the element polynomial order increases. Our favorite: element-based norm
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T AFSM APPENDIX 1 Regular T6 mesh uniform flow field test angles: 0 (horizontal edges), 23 (centroid), 45 (long edge), 90 (vertical edges)
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T AFSM 0 degrees
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T AFSM 23 degrees
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T AFSM 45 degrees
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T AFSM 90 degrees
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T AFSM APPENDIX 2 Results from previous ways to evaluate :
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