Isotropic Mesh Generation

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sphere and two blade wake sym pg. 118-120

  • (a) Input Surface
  • (b) cdfm: 0; #tets: 57K
  • (c) cdfm: 0.2; #tets: 58K
  • (d) cdfm: 0.6; #tets: 129K
  • (e) cdfm: 0.8; #tets: 854K
  • (f) cdfm: 0.9; #tets: 7.68M

Cuts of tetrahedral grids of a sphere generated for varied cdfm ∈ [0, 1]. Blue corresponds to larger values of the distribution function. Red corresponds to smaller values of the distribution function.





  • (a) Input Surface
  • (b) Distribution function on the boundary
  • (c) cdfm: 0; #tets: 806K
  • (d) cdfm: 0.1; #tets: 1.41M
  • (e) cdfm: 0.2; #tets: 4.97M
  • (f) cdfm: 0.3; #tets: 16.54M

Cuts of tetrahedral grids of two blades with merging wakes and a symmetry plane enclosed in an outer boundary generated for varied cdfm ∈ [0, 1] (shown in (c)-(f)). The input surface is depicted in (a)-(b). The wake region is modeled as an embedded/ transparent delete surface.





nacelle, rocket, and lv2b pg. 122-124

  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER

more nacelle, rocket, and lv2b pg. 125-127

  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER
  • PLACEHOLDER

aircraft pg. 140-142