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Return to: 2D NASA Wall-Mounted Hump Separated Flow Validation Case Intro Page
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Grids from Workshop - 2D NASA Wall-Mounted Hump Separated Flow Validation Case
Two grids are supplied on this page
for the NASA wall-mounted hump case. These are the "fine" and "medium" levels of structured grid used for
the NASA CFDVAL2004 Workshop, with interior
plenum included. Compare to the
Grids (no plenum).
These grids include a contoured upper wall (to approximately account for side-plate blockage).
The fine grid contains 210,060 grid points, and the medium grid contains 52,952 grid points (every other point
from the fine grid in each coordinate direction).
The finest grid has minimum spacing at the wall of approximately y=8 x 10-6, giving an approximate average
y+ between 0.1 and 0.2 at the Reynolds number run.
The grid is stretched in the wall-normal direction, and the grid spacing at the upper wall
assumes usage of a slip-wall BC there.
The figures below show two views of the coarser grid.
Note: be sure to use double precision when reading the grids!
STRUCTURED VERSIONS OF GRIDS
PLOT3D Files
The structured PLOT3D grids are given in two different ways, as 2-D grids (x-y plane) or as 3-D grids (two
identical x-z planes, separated by a distance y=1,
giving one spanwise cell for all grid levels). You may use whichever is more convenient for your particular
application.
Format for the structured 2D grids is PLOT3D-type, formatted, MG, 2D (nbl=1) - note that you
must use double precision when reading! :
read(2,*) nbl
read(2,*) (idim(n),jdim(n),n=1,nbl)
do n=1,nbl
read(2,*) ((x(i,j,n),i=1,idim(n)),j=1,jdim(n)),
+ ((y(i,j,n),i=1,idim(n)),j=1,jdim(n))
enddo
Download the 2-D version of the grids in PLOT3D format here:
Format for the structured 3D grid is PLOT3D-type, formatted, MG, 3D (nbl=1, and idim in this case is 2) - note that you must use double precision when reading! :
read(2,*) nbl
read(2,*) (idim(n),jdim(n),kdim(n),n=1,nbl)
do n=1,nbl
read(2,*) (((x(i,j,k,n),i=1,idim(n)),j=1,jdim(n)),k=1,kdim(n)),
+ (((y(i,j,k,n),i=1,idim(n)),j=1,jdim(n)),k=1,kdim(n)),
+ (((z(i,j,k,n),i=1,idim(n)),j=1,jdim(n)),k=1,kdim(n))
enddo
Download the 3-D version of the grids in PLOT3D format here:
If desired, example Neutral Map Files associated with 3-D version of the grids are given here (these files specify grid indices associated with each boundary condition - see The Neutral Map File):
CGNS Files
The structured grids are also available as CGNS files (3-D versions only, with two identical x-z planes, separated by a distance y=1, giving one spanwise cell for all grid levels). Note that the BCs written inside the CGNS files are for guidance only, and may not reflect the appropriate BCs needed for your application. To read/write CGNS files, (free) software may be necessary if your pre/post-processing tools do not already handle it. See: CGNS Website for details.
Download the 3-D version of the grids in CGNS format (gzipped) here:
UNSTRUCTURED VERSIONS OF GRIDS
CGNS Files
The unstructured versions of the same grids are all given as CGNS files. Note that the BCs written inside the CGNS files are for guidance only, and may not reflect the appropriate BCs needed for your application. To read/write CGNS files, (free) software may be necessary if your pre/post-processing tools do not already handle it. See: CGNS Website for details.
The unstructured grids are all given as 3-D grids (two identical x-z planes, separated by a distance y=1, giving one spanwise cell for all grid levels). They are given as hexahedra (quadrilaterals in the x-z plane).
Download the unstructured CGNS grids (gzipped) as 3-D hexahedra (quadrilaterals in x-z plane) here:
Return to: 2D NASA Wall-Mounted Hump Separated Flow Validation Case Intro Page
Return to: Turbulence Modeling Resource Home Page
Responsible NASA Official:
Ethan Vogel
Page Curator:
Clark Pederson
Last Updated: 05/15/2021