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angledDuct: Removed blockMeshDict.m4 and replaced by angledDuct dictionary.

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Vertices are generated using run time compilation functionality.

File duplication avoided by placement in:
tutorials/resources/blockMesh/angledDuct.
This commit is contained in:
Jakub Knir
2021-02-05 08:53:31 +00:00
parent 66c62e9296
commit 35f73c1c17
15 changed files with 135 additions and 861 deletions
Download Patch File Download Diff File Expand all files Collapse all files

4
tutorials/compressible/rhoPimpleFoam/RAS/angledDuct/Allrun
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@ -1,10 +1,8 @@
#!/bin/sh
cd ${0%/*} || exit 1 # Run from this directory
m4 system/blockMeshDict.m4 > system/blockMeshDict
# Source tutorial run functions
. $WM_PROJECT_DIR/bin/tools/RunFunctions
runApplication blockMesh
runApplication blockMesh -dict $FOAM_TUTORIALS/resources/blockMesh/angledDuct
runApplication $(getApplication)

148
tutorials/compressible/rhoPimpleFoam/RAS/angledDuct/system/blockMeshDict.m4
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@ -1,148 +0,0 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
`format' ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
//
dnl> -----------------------------------------------------------------
dnl> <STANDARD DEFINITIONS>
dnl>
changecom(//)changequote([,]) dnl>
define(calc, [esyscmd(perl -e 'print ($1)')]) dnl>
define(VCOUNT, 0) dnl>
define(vlabel, [[// ]pt VCOUNT ($1) define($1, VCOUNT)define([VCOUNT], incr(VCOUNT))]) dnl>
dnl>
define(hex2D, hex ($1b $2b $3b $4b $1f $2f $3f $4f)) dnl>
define(quad2D, ($1f $1b $2b $2f)) dnl>
define(frontQuad, ($1f $2f $3f $4f)) dnl>
define(backQuad, ($4b $3b $2b $1b)) dnl>
dnl>
dnl> </STANDARD DEFINITIONS>
dnl> -----------------------------------------------------------------
dnl>
define(ncells, 20) dnl>
define(ninlet, 15) dnl>
define(nporo, 20) dnl>
define(noutlet, 20) dnl>
dnl>
define(x0,0) dnl>
define(y0,0) dnl>
define(y0,0) dnl>
define(Cos,0.7071067812) dnl> == cos(45)
define(Sin,0.7071067812) dnl> == sin(45)
dnl>
define(width,50) dnl>
define(zBack,calc(-width/2)) dnl>
define(zFront,calc(width/2)) dnl>
define(leninlet,150)dnl>
define(lenporo,100)dnl>
define(lenoutlet,100)dnl>
dnl>
define(xhyp,calc(Sin*width)) dnl>
define(yhyp,calc(Cos*width)) dnl>
define(xinlet,leninlet)dnl>
define(xporo,calc(Cos*lenporo)) dnl>
define(yporo,calc(Sin*lenporo)) dnl>
define(xoutlet,calc(xporo + Cos*lenoutlet)) dnl>
define(youtlet,calc(yporo + Sin*lenoutlet)) dnl>
dnl>
convertToMeters 0.001;
vertices
(
// inlet region
( -xinlet y0 zBack ) vlabel(in1b)
( -xinlet yhyp zBack ) vlabel(in2b)
( -xinlet y0 zFront ) vlabel(in1f)
( -xinlet yhyp zFront ) vlabel(in2f)
// join inlet->outlet
( x0 y0 zBack ) vlabel(join1b)
( -xhyp yhyp zBack ) vlabel(join2b)
( x0 y0 zFront ) vlabel(join1f)
( -xhyp yhyp zFront ) vlabel(join2f)
// porosity ends ->outlet
( xporo yporo zBack ) vlabel(poro1b)
( calc(xporo - xhyp) calc(yporo + yhyp) zBack ) vlabel(poro2b)
( xporo yporo zFront ) vlabel(poro1f)
( calc(xporo - xhyp) calc(yporo + yhyp) zFront ) vlabel(poro2f)
// outlet
( xoutlet youtlet zBack ) vlabel(out1b)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zBack ) vlabel(out2b)
( xoutlet youtlet zFront ) vlabel(out1f)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zFront ) vlabel(out2f)
);
blocks
(
// inlet block
hex2D(in1, join1, join2, in2)
inlet ( ninlet ncells ncells ) simpleGrading (1 1 1)
// porosity block
hex2D(join1, poro1, poro2, join2)
porosity ( nporo ncells ncells ) simpleGrading (1 1 1)
// outlet block
hex2D(poro1, out1, out2, poro2)
outlet ( noutlet ncells ncells ) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
boundary
(
porosityWall
{
type wall;
faces
(
// porosity block
frontQuad(join1, poro1, poro2, join2)
// porosity block
backQuad(join1, poro1, poro2, join2)
// porosity block
quad2D(join1, poro1)
quad2D(poro2, join2)
);
}
inlet
{
type patch;
faces
(
quad2D(in2, in1)
);
}
outlet
{
type patch;
faces
(
quad2D(out2, out1)
);
}
);
// ************************************************************************* //

4
tutorials/compressible/rhoPimpleFoam/RAS/angledDuctLTS/Allrun
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@ -1,10 +1,8 @@
#!/bin/sh
cd ${0%/*} || exit 1 # Run from this directory
m4 system/blockMeshDict.m4 > system/blockMeshDict
# Source tutorial run functions
. $WM_PROJECT_DIR/bin/tools/RunFunctions
runApplication blockMesh
runApplication blockMesh -dict $FOAM_TUTORIALS/resources/blockMesh/angledDuct
runApplication $(getApplication)

136
tutorials/compressible/rhoPimpleFoam/RAS/angledDuctLTS/system/blockMeshDict.m4
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@ -1,136 +0,0 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
`format' ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
//
dnl> -----------------------------------------------------------------
dnl> <STANDARD DEFINITIONS>
dnl>
changecom(//)changequote([,]) dnl>
define(calc, [esyscmd(perl -e 'print ($1)')]) dnl>
define(VCOUNT, 0) dnl>
define(vlabel, [[// ]pt VCOUNT ($1) define($1, VCOUNT)define([VCOUNT], incr(VCOUNT))]) dnl>
dnl>
define(hex2D, hex ($1b $2b $3b $4b $1f $2f $3f $4f)) dnl>
define(quad2D, ($1f $1b $2b $2f)) dnl>
define(frontQuad, ($1f $2f $3f $4f)) dnl>
define(backQuad, ($4b $3b $2b $1b)) dnl>
dnl>
dnl> </STANDARD DEFINITIONS>
dnl> -----------------------------------------------------------------
dnl>
define(ncells, 20) dnl>
define(ninlet, 15) dnl>
define(nporo, 20) dnl>
define(noutlet, 20) dnl>
dnl>
define(x0,0) dnl>
define(y0,0) dnl>
define(y0,0) dnl>
define(Cos,0.7071067812) dnl> == cos(45)
define(Sin,0.7071067812) dnl> == sin(45)
dnl>
define(width,50) dnl>
define(zBack,calc(-width/2)) dnl>
define(zFront,calc(width/2)) dnl>
define(leninlet,150)dnl>
define(lenporo,100)dnl>
define(lenoutlet,100)dnl>
dnl>
define(xhyp,calc(Sin*width)) dnl>
define(yhyp,calc(Cos*width)) dnl>
define(xinlet,leninlet)dnl>
define(xporo,calc(Cos*lenporo)) dnl>
define(yporo,calc(Sin*lenporo)) dnl>
define(xoutlet,calc(xporo + Cos*lenoutlet)) dnl>
define(youtlet,calc(yporo + Sin*lenoutlet)) dnl>
dnl>
convertToMeters 0.001;
vertices
(
// inlet region
( -xinlet y0 zBack ) vlabel(in1b)
( -xinlet yhyp zBack ) vlabel(in2b)
( -xinlet y0 zFront ) vlabel(in1f)
( -xinlet yhyp zFront ) vlabel(in2f)
// join inlet->outlet
( x0 y0 zBack ) vlabel(join1b)
( -xhyp yhyp zBack ) vlabel(join2b)
( x0 y0 zFront ) vlabel(join1f)
( -xhyp yhyp zFront ) vlabel(join2f)
// porosity ends ->outlet
( xporo yporo zBack ) vlabel(poro1b)
( calc(xporo - xhyp) calc(yporo + yhyp) zBack ) vlabel(poro2b)
( xporo yporo zFront ) vlabel(poro1f)
( calc(xporo - xhyp) calc(yporo + yhyp) zFront ) vlabel(poro2f)
// outlet
( xoutlet youtlet zBack ) vlabel(out1b)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zBack ) vlabel(out2b)
( xoutlet youtlet zFront ) vlabel(out1f)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zFront ) vlabel(out2f)
);
blocks
(
// inlet block
hex2D(in1, join1, join2, in2)
inlet ( ninlet ncells ncells ) simpleGrading (1 1 1)
// porosity block
hex2D(join1, poro1, poro2, join2)
porosity ( nporo ncells ncells ) simpleGrading (1 1 1)
// outlet block
hex2D(poro1, out1, out2, poro2)
outlet ( noutlet ncells ncells ) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
patches
(
wall porosityWall
(
// porosity block
frontQuad(join1, poro1, poro2, join2)
// porosity block
backQuad(join1, poro1, poro2, join2)
// porosity block
quad2D(join1, poro1)
quad2D(poro2, join2)
)
patch inlet
(
quad2D(in2, in1)
)
patch outlet
(
quad2D(out2, out1)
)
);
// ************************************************************************* //

1
tutorials/compressible/rhoPorousSimpleFoam/angledDuctExplicit/system/blockMeshDict.m4
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@ -1 +0,0 @@
../../angledDuctImplicit/system/blockMeshDict.m4

4
tutorials/compressible/rhoPorousSimpleFoam/angledDuctImplicit/Allrun
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@ -1,14 +1,12 @@
#!/bin/sh
cd ${0%/*} || exit 1 # Run from this directory
m4 system/blockMeshDict.m4 > system/blockMeshDict
# Source tutorial run functions
. $WM_PROJECT_DIR/bin/tools/RunFunctions
application=$(getApplication)
runApplication blockMesh
runApplication blockMesh -dict $FOAM_TUTORIALS/resources/blockMesh/angledDuct
runApplication $application
#------------------------------------------------------------------------------

136
tutorials/compressible/rhoPorousSimpleFoam/angledDuctImplicit/system/blockMeshDict.m4
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@ -1,136 +0,0 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
`format' ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
//
dnl> -----------------------------------------------------------------
dnl> <STANDARD DEFINITIONS>
dnl>
changecom(//)changequote([,]) dnl>
define(calc, [esyscmd(perl -e 'print ($1)')]) dnl>
define(VCOUNT, 0) dnl>
define(vlabel, [[// ]pt VCOUNT ($1) define($1, VCOUNT)define([VCOUNT], incr(VCOUNT))]) dnl>
dnl>
define(hex2D, hex ($1b $2b $3b $4b $1f $2f $3f $4f)) dnl>
define(quad2D, ($1f $1b $2b $2f)) dnl>
define(frontQuad, ($1f $2f $3f $4f)) dnl>
define(backQuad, ($4b $3b $2b $1b)) dnl>
dnl>
dnl> </STANDARD DEFINITIONS>
dnl> -----------------------------------------------------------------
dnl>
define(ncells, 20) dnl>
define(ninlet, 15) dnl>
define(nporo, 20) dnl>
define(noutlet, 20) dnl>
dnl>
define(x0,0) dnl>
define(y0,0) dnl>
define(y0,0) dnl>
define(Cos,0.7071067812) dnl> == cos(45)
define(Sin,0.7071067812) dnl> == sin(45)
dnl>
define(width,50) dnl>
define(zBack,calc(-width/2)) dnl>
define(zFront,calc(width/2)) dnl>
define(leninlet,150)dnl>
define(lenporo,100)dnl>
define(lenoutlet,100)dnl>
dnl>
define(xhyp,calc(Sin*width)) dnl>
define(yhyp,calc(Cos*width)) dnl>
define(xinlet,leninlet)dnl>
define(xporo,calc(Cos*lenporo)) dnl>
define(yporo,calc(Sin*lenporo)) dnl>
define(xoutlet,calc(xporo + Cos*lenoutlet)) dnl>
define(youtlet,calc(yporo + Sin*lenoutlet)) dnl>
dnl>
convertToMeters 0.001;
vertices
(
// inlet region
( -xinlet y0 zBack ) vlabel(in1b)
( -xinlet yhyp zBack ) vlabel(in2b)
( -xinlet y0 zFront ) vlabel(in1f)
( -xinlet yhyp zFront ) vlabel(in2f)
// join inlet->outlet
( x0 y0 zBack ) vlabel(join1b)
( -xhyp yhyp zBack ) vlabel(join2b)
( x0 y0 zFront ) vlabel(join1f)
( -xhyp yhyp zFront ) vlabel(join2f)
// porosity ends ->outlet
( xporo yporo zBack ) vlabel(poro1b)
( calc(xporo - xhyp) calc(yporo + yhyp) zBack ) vlabel(poro2b)
( xporo yporo zFront ) vlabel(poro1f)
( calc(xporo - xhyp) calc(yporo + yhyp) zFront ) vlabel(poro2f)
// outlet
( xoutlet youtlet zBack ) vlabel(out1b)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zBack ) vlabel(out2b)
( xoutlet youtlet zFront ) vlabel(out1f)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zFront ) vlabel(out2f)
);
blocks
(
// inlet block
hex2D(in1, join1, join2, in2)
inlet ( ninlet ncells ncells ) simpleGrading (1 1 1)
// porosity block
hex2D(join1, poro1, poro2, join2)
porosity ( nporo ncells ncells ) simpleGrading (1 1 1)
// outlet block
hex2D(poro1, out1, out2, poro2)
outlet ( noutlet ncells ncells ) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
patches
(
wall porosityWall
(
// porosity block
frontQuad(join1, poro1, poro2, join2)
// porosity block
backQuad(join1, poro1, poro2, join2)
// porosity block
quad2D(join1, poro1)
quad2D(poro2, join2)
)
patch inlet
(
quad2D(in2, in1)
)
patch outlet
(
quad2D(out2, out1)
)
);
// ************************************************************************* //

4
tutorials/compressible/rhoSimpleFoam/angledDuctExplicitFixedCoeff/Allrun
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@ -1,14 +1,12 @@
#!/bin/sh
cd ${0%/*} || exit 1 # Run from this directory
m4 system/blockMeshDict.m4 > system/blockMeshDict
# Source tutorial run functions
. $WM_PROJECT_DIR/bin/tools/RunFunctions
application=$(getApplication)
runApplication blockMesh
runApplication blockMesh -dict $FOAM_TUTORIALS/resources/blockMesh/angledDuct
runApplication $application
#------------------------------------------------------------------------------

136
tutorials/compressible/rhoSimpleFoam/angledDuctExplicitFixedCoeff/system/blockMeshDict.m4
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@ -1,136 +0,0 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
`format' ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
//
dnl> -----------------------------------------------------------------
dnl> <STANDARD DEFINITIONS>
dnl>
changecom(//)changequote([,]) dnl>
define(calc, [esyscmd(perl -e 'print ($1)')]) dnl>
define(VCOUNT, 0) dnl>
define(vlabel, [[// ]pt VCOUNT ($1) define($1, VCOUNT)define([VCOUNT], incr(VCOUNT))]) dnl>
dnl>
define(hex2D, hex ($1b $2b $3b $4b $1f $2f $3f $4f)) dnl>
define(quad2D, ($1f $1b $2b $2f)) dnl>
define(frontQuad, ($1f $2f $3f $4f)) dnl>
define(backQuad, ($4b $3b $2b $1b)) dnl>
dnl>
dnl> </STANDARD DEFINITIONS>
dnl> -----------------------------------------------------------------
dnl>
define(ncells, 20) dnl>
define(ninlet, 15) dnl>
define(nporo, 20) dnl>
define(noutlet, 20) dnl>
dnl>
define(x0,0) dnl>
define(y0,0) dnl>
define(y0,0) dnl>
define(Cos,0.7071067812) dnl> == cos(45)
define(Sin,0.7071067812) dnl> == sin(45)
dnl>
define(width,50) dnl>
define(zBack,calc(-width/2)) dnl>
define(zFront,calc(width/2)) dnl>
define(leninlet,150)dnl>
define(lenporo,100)dnl>
define(lenoutlet,100)dnl>
dnl>
define(xhyp,calc(Sin*width)) dnl>
define(yhyp,calc(Cos*width)) dnl>
define(xinlet,leninlet)dnl>
define(xporo,calc(Cos*lenporo)) dnl>
define(yporo,calc(Sin*lenporo)) dnl>
define(xoutlet,calc(xporo + Cos*lenoutlet)) dnl>
define(youtlet,calc(yporo + Sin*lenoutlet)) dnl>
dnl>
convertToMeters 0.001;
vertices
(
// inlet region
( -xinlet y0 zBack ) vlabel(in1b)
( -xinlet yhyp zBack ) vlabel(in2b)
( -xinlet y0 zFront ) vlabel(in1f)
( -xinlet yhyp zFront ) vlabel(in2f)
// join inlet->outlet
( x0 y0 zBack ) vlabel(join1b)
( -xhyp yhyp zBack ) vlabel(join2b)
( x0 y0 zFront ) vlabel(join1f)
( -xhyp yhyp zFront ) vlabel(join2f)
// porosity ends ->outlet
( xporo yporo zBack ) vlabel(poro1b)
( calc(xporo - xhyp) calc(yporo + yhyp) zBack ) vlabel(poro2b)
( xporo yporo zFront ) vlabel(poro1f)
( calc(xporo - xhyp) calc(yporo + yhyp) zFront ) vlabel(poro2f)
// outlet
( xoutlet youtlet zBack ) vlabel(out1b)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zBack ) vlabel(out2b)
( xoutlet youtlet zFront ) vlabel(out1f)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zFront ) vlabel(out2f)
);
blocks
(
// inlet block
hex2D(in1, join1, join2, in2)
inlet ( ninlet ncells ncells ) simpleGrading (1 1 1)
// porosity block
hex2D(join1, poro1, poro2, join2)
porosity ( nporo ncells ncells ) simpleGrading (1 1 1)
// outlet block
hex2D(poro1, out1, out2, poro2)
outlet ( noutlet ncells ncells ) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
patches
(
wall porosityWall
(
// porosity block
frontQuad(join1, poro1, poro2, join2)
// porosity block
backQuad(join1, poro1, poro2, join2)
// porosity block
quad2D(join1, poro1)
quad2D(poro2, join2)
)
patch inlet
(
quad2D(in2, in1)
)
patch outlet
(
quad2D(out2, out1)
)
);
// ************************************************************************* //

1
tutorials/incompressible/porousSimpleFoam/angledDuctExplicit/system/blockMeshDict.m4
View File

@ -1 +0,0 @@
../../angledDuctImplicit/system/blockMeshDict.m4

4
tutorials/incompressible/porousSimpleFoam/angledDuctImplicit/Allrun
View File

@ -1,11 +1,9 @@
#!/bin/sh
cd ${0%/*} || exit 1 # Run from this directory
m4 system/blockMeshDict.m4 > system/blockMeshDict
# Source tutorial run functions
. $WM_PROJECT_DIR/bin/tools/RunFunctions
runApplication blockMesh
runApplication blockMesh -dict $FOAM_TUTORIALS/resources/blockMesh/angledDuct
runApplication $(getApplication)

137
tutorials/incompressible/porousSimpleFoam/angledDuctImplicit/system/blockMeshDict.m4
View File

@ -1,137 +0,0 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
`format' ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
//
dnl> -----------------------------------------------------------------
dnl> <STANDARD DEFINITIONS>
dnl>
changecom(//)changequote([,]) dnl>
define(calc, [esyscmd(perl -e 'print ($1)')]) dnl>
define(VCOUNT, 0) dnl>
define(vlabel, [[// ]pt VCOUNT ($1) define($1, VCOUNT)define([VCOUNT], incr(VCOUNT))]) dnl>
dnl>
define(hex2D, hex ($1b $2b $3b $4b $1f $2f $3f $4f)) dnl>
define(quad2D, ($1f $1b $2b $2f)) dnl>
define(frontQuad, ($1f $2f $3f $4f)) dnl>
define(backQuad, ($4b $3b $2b $1b)) dnl>
dnl>
dnl> </STANDARD DEFINITIONS>
dnl> -----------------------------------------------------------------
dnl>
define(ncells, 20) dnl>
define(ninlet, 15) dnl>
define(nporo, 20) dnl>
define(noutlet, 20) dnl>
dnl>
define(x0,0) dnl>
define(y0,0) dnl>
define(y0,0) dnl>
define(Cos,0.7071067812) dnl> == cos(45)
define(Sin,0.7071067812) dnl> == sin(45)
dnl>
define(width,50) dnl>
define(zBack,calc(-width/2)) dnl>
define(zFront,calc(width/2)) dnl>
define(leninlet,150)dnl>
define(lenporo,100)dnl>
define(lenoutlet,100)dnl>
dnl>
define(xhyp,calc(Sin*width)) dnl>
define(yhyp,calc(Cos*width)) dnl>
define(xinlet,leninlet)dnl>
define(xporo,calc(Cos*lenporo)) dnl>
define(yporo,calc(Sin*lenporo)) dnl>
define(xoutlet,calc(xporo + Cos*lenoutlet)) dnl>
define(youtlet,calc(yporo + Sin*lenoutlet)) dnl>
dnl>
convertToMeters 0.001;
vertices
(
// inlet region
( -xinlet y0 zBack ) vlabel(in1b)
( -xinlet yhyp zBack ) vlabel(in2b)
( -xinlet y0 zFront ) vlabel(in1f)
( -xinlet yhyp zFront ) vlabel(in2f)
// join inlet->outlet
( x0 y0 zBack ) vlabel(join1b)
( -xhyp yhyp zBack ) vlabel(join2b)
( x0 y0 zFront ) vlabel(join1f)
( -xhyp yhyp zFront ) vlabel(join2f)
// porosity ends ->outlet
( xporo yporo zBack ) vlabel(poro1b)
( calc(xporo - xhyp) calc(yporo + yhyp) zBack ) vlabel(poro2b)
( xporo yporo zFront ) vlabel(poro1f)
( calc(xporo - xhyp) calc(yporo + yhyp) zFront ) vlabel(poro2f)
// outlet
( xoutlet youtlet zBack ) vlabel(out1b)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zBack ) vlabel(out2b)
( xoutlet youtlet zFront ) vlabel(out1f)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zFront ) vlabel(out2f)
);
blocks
(
// inlet block
hex2D(in1, join1, join2, in2)
inlet ( ninlet ncells ncells ) simpleGrading (1 1 1)
// porosity block
hex2D(join1, poro1, poro2, join2)
porosity ( nporo ncells ncells ) simpleGrading (1 1 1)
// outlet block
hex2D(poro1, out1, out2, poro2)
outlet ( noutlet ncells ncells ) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
patches
(
wall porosityWall
(
// porosity block
frontQuad(join1, poro1, poro2, join2)
// porosity block
backQuad(join1, poro1, poro2, join2)
// porosity block
quad2D(join1, poro1)
quad2D(poro2, join2)
)
patch inlet
(
quad2D(in2, in1)
)
patch outlet
(
quad2D(out2, out1)
)
);
// ************************************************************************* //

4
tutorials/multiphase/interFoam/RAS/angledDuct/Allrun
View File

@ -1,10 +1,8 @@
#!/bin/sh
cd ${0%/*} || exit 1 # Run from this directory
m4 system/blockMeshDict.m4 > system/blockMeshDict
# Source tutorial run functions
. $WM_PROJECT_DIR/bin/tools/RunFunctions
runApplication blockMesh
runApplication blockMesh -dict $FOAM_TUTORIALS/resources/blockMesh/angledDuct
runApplication $(getApplication)

148
tutorials/multiphase/interFoam/RAS/angledDuct/system/blockMeshDict.m4
View File

@ -1,148 +0,0 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
`format' ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
//
dnl> -----------------------------------------------------------------
dnl> <STANDARD DEFINITIONS>
dnl>
changecom(//)changequote([,]) dnl>
define(calc, [esyscmd(perl -e 'print ($1)')]) dnl>
define(VCOUNT, 0) dnl>
define(vlabel, [[// ]pt VCOUNT ($1) define($1, VCOUNT)define([VCOUNT], incr(VCOUNT))]) dnl>
dnl>
define(hex2D, hex ($1b $2b $3b $4b $1f $2f $3f $4f)) dnl>
define(quad2D, ($1f $1b $2b $2f)) dnl>
define(frontQuad, ($1f $2f $3f $4f)) dnl>
define(backQuad, ($4b $3b $2b $1b)) dnl>
dnl>
dnl> </STANDARD DEFINITIONS>
dnl> -----------------------------------------------------------------
dnl>
define(ncells, 20) dnl>
define(ninlet, 15) dnl>
define(nporo, 20) dnl>
define(noutlet, 20) dnl>
dnl>
define(x0,0) dnl>
define(y0,0) dnl>
define(y0,0) dnl>
define(Cos,0.7071067812) dnl> == cos(45)
define(Sin,0.7071067812) dnl> == sin(45)
dnl>
define(width,50) dnl>
define(zBack,calc(-width/2)) dnl>
define(zFront,calc(width/2)) dnl>
define(leninlet,150)dnl>
define(lenporo,100)dnl>
define(lenoutlet,100)dnl>
dnl>
define(xhyp,calc(Sin*width)) dnl>
define(yhyp,calc(Cos*width)) dnl>
define(xinlet,leninlet)dnl>
define(xporo,calc(Cos*lenporo)) dnl>
define(yporo,calc(Sin*lenporo)) dnl>
define(xoutlet,calc(xporo + Cos*lenoutlet)) dnl>
define(youtlet,calc(yporo + Sin*lenoutlet)) dnl>
dnl>
convertToMeters 0.001;
vertices
(
// inlet region
( -xinlet y0 zBack ) vlabel(in1b)
( -xinlet yhyp zBack ) vlabel(in2b)
( -xinlet y0 zFront ) vlabel(in1f)
( -xinlet yhyp zFront ) vlabel(in2f)
// join inlet->outlet
( x0 y0 zBack ) vlabel(join1b)
( -xhyp yhyp zBack ) vlabel(join2b)
( x0 y0 zFront ) vlabel(join1f)
( -xhyp yhyp zFront ) vlabel(join2f)
// porosity ends ->outlet
( xporo yporo zBack ) vlabel(poro1b)
( calc(xporo - xhyp) calc(yporo + yhyp) zBack ) vlabel(poro2b)
( xporo yporo zFront ) vlabel(poro1f)
( calc(xporo - xhyp) calc(yporo + yhyp) zFront ) vlabel(poro2f)
// outlet
( xoutlet youtlet zBack ) vlabel(out1b)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zBack ) vlabel(out2b)
( xoutlet youtlet zFront ) vlabel(out1f)
( calc(xoutlet - xhyp) calc(youtlet + yhyp) zFront ) vlabel(out2f)
);
blocks
(
// inlet block
hex2D(in1, join1, join2, in2)
inlet ( ninlet ncells ncells ) simpleGrading (1 1 1)
// porosity block
hex2D(join1, poro1, poro2, join2)
porosity ( nporo ncells ncells ) simpleGrading (1 1 1)
// outlet block
hex2D(poro1, out1, out2, poro2)
outlet ( noutlet ncells ncells ) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
boundary
(
porosityWall
{
type wall;
faces
(
// porosity block
frontQuad(join1, poro1, poro2, join2)
// porosity block
backQuad(join1, poro1, poro2, join2)
// porosity block
quad2D(join1, poro1)
quad2D(poro2, join2)
);
}
inlet
{
type patch;
faces
(
quad2D(in2, in1)
);
}
outlet
{
type patch;
faces
(
quad2D(out2, out1)
);
}
);
// ************************************************************************* //

129
tutorials/resources/blockMesh/angledDuct Normal file
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@ -0,0 +1,129 @@
/*--------------------------------*- C++ -*----------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | Website: https://openfoam.org
\\ / A nd | Version: dev
\\/ M anipulation |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
format ascii;
class dictionary;
object blockMeshDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
// Block definition for a porosity with an angled inlet/outlet
// the porosity is not aligned with the main axes
convertToMeters 0.001;
angle 45;
width 50;
lenInlet 150;
lenPoro 100;
lenOutlet 100;
yzCells 20;
nInletCells 15;
nPoroCells 20;
nOutletCells 20;
vertices #codeStream
{
codeInclude
#{
#include "pointField.H"
#include "transformField.H"
#};
code
#{
const scalar halfWidth = ($width)/2.0;
// Length between the bend and outlet
const scalar distOutlet = $lenPoro + $lenOutlet;
pointField points
({
point(0, 0, -halfWidth), // pt 0
point($lenPoro, 0, -halfWidth), // pt 1
point(distOutlet, 0, -halfWidth), // pt 2
point(0, $width, -halfWidth), // pt 3
point($lenPoro, $width, -halfWidth), // pt 4
point(distOutlet, $width, -halfWidth) // pt 5
});
// Rotate points around z-axis
points = transform(Rz(-degToRad($angle)), points);
// Append points 6 and 7
points.append(points[0]); // pt 6
points.append(points[3]); // pt 7
points[6].x() = -$lenInlet;
points[7].x() = -$lenInlet;
// Duplicate z points
points.append(cmptMultiply(points, vector(1, 1, -1)));
os << points;
#};
};
blocks
(
// Inlet block
hex (6 0 3 7 14 8 11 15)
inlet ($nInletCells $yzCells $yzCells) simpleGrading (1 1 1)
// Porosity block
hex (0 1 4 3 8 9 12 11)
porosity ($nPoroCells $yzCells $yzCells) simpleGrading (1 1 1)
// Outlet block
hex (1 2 5 4 9 10 13 12)
outlet ($nOutletCells $yzCells $yzCells) simpleGrading (1 1 1)
);
defaultPatch
{
name walls;
type wall;
}
boundary
(
porosityWall
{
type wall;
faces
(
(8 9 12 11)
(0 3 4 1)
(0 1 9 8)
(3 11 12 4)
);
}
inlet
{
type patch;
faces
(
(14 15 7 6)
);
}
outlet
{
type patch;
faces
(
(2 5 13 10)
);
}
);
// ************************************************************************* //