/*--------------------------------*- C++ -*----------------------------------*\ | ========= | | | \\ / F ield | foam-extend: Open Source CFD | | \\ / O peration | Version: 3.0 | | \\ / A nd | Web: http://www.extend-project.de | | \\/ M anipulation | | \*---------------------------------------------------------------------------*/ FoamFile { version 2.0; format ascii; class dictionary; object blockMeshDict; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // //process this file using: m4 -P blockMeshDict.m4 > blockMeshDict //m4 definitions ----------------------------- m4_changecom(//)m4_changequote([,]) m4_define(calc, [m4_esyscmd(perl -e 'printf ($1)')]) m4_define(pi, 3.14159265358979323844) m4_define(rad, [calc($1*pi/180.0)]) m4_define(VCOUNT, 0) m4_define(vlabel, [[// ]Vertex $1 = VCOUNT m4_define($1, VCOUNT)m4_define([VCOUNT], m4_incr(VCOUNT))]) //Geometry ----------------------------------- // 2 planes levels m4_define(zA, 0.0) m4_define(zB, 0.1) // Angle span for inner block m4_define(angleB, rad( 60.0)) m4_define(angleD, rad( 150.0)) // Angle span for outer block m4_define(angleA, rad( 5.0)) m4_define(angleC, rad(41.0)) // Radial dimensions m4_define(r1, 1.0) m4_define(r2, 2.0) m4_define(r3, 3.0) // Mesh parameters m4_define(nCells, 5) m4_define(BLOCKSIZE_UPSTREAM, 25 17 1) m4_define(BLOCKSIZE_DOWNSTREAM, 25 27 1) m4_define(grading, 1.0) // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // convertToMeters 1; vertices ( //Plane A: //Bottom of curved block (calc(r1*cos(angleB)) calc(r1*sin(angleB)) zA) vlabel(A0) (calc(r2*cos(angleB)) calc(r2*sin(angleB)) zA) vlabel(A1) (calc(r1*cos(angleD)) calc(r1*sin(angleD)) zA) vlabel(A2) (calc(r2*cos(angleD)) calc(r2*sin(angleD)) zA) vlabel(A3) //Plane B: //Top of curved block (calc(r1*cos(angleB)) calc(r1*sin(angleB)) zB) vlabel(B0) (calc(r2*cos(angleB)) calc(r2*sin(angleB)) zB) vlabel(B1) (calc(r1*cos(angleD)) calc(r1*sin(angleD)) zB) vlabel(B2) (calc(r2*cos(angleD)) calc(r2*sin(angleD)) zB) vlabel(B3) //Plane A: Bottom of straight block (calc(r2*cos(angleA)) calc(r2*sin(angleA)) zA) vlabel(B4) (calc(r3*cos(angleA)) calc(r3*sin(angleA)) zA) vlabel(B5) (calc(r2*cos(angleC)) calc(r2*sin(angleC)) zA) vlabel(B6) (calc(r3*cos(angleC)) calc(r3*sin(angleC)) zA) vlabel(B7) //Plane B: Top of straight block (calc(r2*cos(angleA)) calc(r2*sin(angleA)) zB) vlabel(C0) (calc(r3*cos(angleA)) calc(r3*sin(angleA)) zB) vlabel(C1) (calc(r2*cos(angleC)) calc(r2*sin(angleC)) zB) vlabel(C2) (calc(r3*cos(angleC)) calc(r3*sin(angleC)) zB) vlabel(C3) ); blocks ( hex ( A0 A1 A3 A2 B0 B1 B3 B2 ) (BLOCKSIZE_UPSTREAM) simpleGrading (1 1 grading) hex ( B4 B5 B7 B6 C0 C1 C3 C2 ) (BLOCKSIZE_DOWNSTREAM) simpleGrading (1 1 grading) ); edges ( // --- PLANE A: Bottom of curved block arc A0 A2 (calc(r1*cos((angleB+angleD)/2)) calc(r1*sin((angleB+angleD)/2)) zA) arc A1 A3 (calc(r2*cos((angleB+angleD)/2)) calc(r2*sin((angleB+angleD)/2)) zA) // --- PLANE B: Top of curved block arc B0 B2 (calc(r1*cos((angleB+angleD)/2)) calc(r1*sin((angleB+angleD)/2)) zB) arc B1 B3 (calc(r2*cos((angleB+angleD)/2)) calc(r2*sin((angleB+angleD)/2)) zB) // --- PLANE A: Bottom of straight block arc B4 B6 (calc(r2*cos((angleA+angleC)/2)) calc(r2*sin((angleA+angleC)/2)) zA) arc B5 B7 (calc(r3*cos((angleA+angleC)/2)) calc(r3*sin((angleA+angleC)/2)) zA) // --- PLANE B: Top of straight block arc C0 C2 (calc(r2*cos((angleA+angleC)/2)) calc(r2*sin((angleA+angleC)/2)) zB) arc C1 C3 (calc(r3*cos((angleA+angleC)/2)) calc(r3*sin((angleA+angleC)/2)) zB) ); patches ( patch outflow ( ( B5 B7 C3 C1 ) ) patch inflow ( ( A0 B0 B2 A2 ) ) cyclicGgi upstreamPerio1 ( (B4 B5 C1 C0) ) cyclicGgi upstreamPerio2 ( (B6 C2 C3 B7) ) mixingPlane upstreamMixingPlanePatch ( ( B4 C0 C2 B6 ) ) mixingPlane downstreamMixingPlanePatch ( ( A1 A3 B3 B1 ) ) symmetryPlane downstreamWall ( ( A0 A2 A3 A1 ) ( B0 B1 B3 B2 ) ) symmetryPlane upstreamWall ( ( C1 C3 C2 C0) (B4 B6 B7 B5) ) cyclicGgi downstreamPerio1 ( (A0 A1 B1 B0) ) cyclicGgi downstreamPerio2 ( (A2 B2 B3 A3) ) ); mergePatchPairs ( );