/*--------------------------------*- C++ -*----------------------------------*\ | ========= | | | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox | | \\ / O peration | Version: dev | | \\ / A nd | Web: www.OpenFOAM.org | | \\/ M anipulation | | \*---------------------------------------------------------------------------*/ FoamFile { version 2.0; format ascii; class dictionary; object DMeshDict; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // geometry { unit_cube.stl { name cube; type triSurfaceMesh; } refinementBox { type searchableBox; min (0.25 0.25 -1000); max (0.75 0.75 1000); } } surfaceConformation { // The z-coordinate of the plane is taken from here. locationInMesh (0 0 0); pointPairDistanceCoeff 0.005; minEdgeLenCoeff 0.005; maxNotchLenCoeff 0.003; minNearPointDistCoeff 0.0025; maxQuadAngle 125; // Insert near-boundary point mirror or point-pairs insertSurfaceNearestPointPairs yes; // Mirror near-boundary points rather than insert point-pairs mirrorPoints no; // Insert point-pairs vor dual-cell vertices very near the surface insertSurfaceNearPointPairs yes; // Maximum number of iterations used in boundaryConform. maxBoundaryConformingIter 5; geometryToConformTo { cube { featureMethod extendedFeatureEdgeMesh; extendedFeatureEdgeMesh "unit_cube.extendedFeatureEdgeMesh"; } } additionalFeatures {} // Choose if to randomise the initial grid created by insertGrid. randomiseInitialGrid yes; // Perturbation fraction, 1 = cell-size. randomPerturbation 0.1; } motionControl { minCellSize 0.04; // Assign a priority to all requests for cell sizes, the highest overrules. defaultPriority 0; shapeControlFunctions { cube { type searchableSurfaceControl; priority 1; mode bothSides; cellSizeFunction linearDistance; linearDistanceCoeffs { distanceCellSizeCoeff 1; distanceCoeff 5; } surfaceCellSizeFunction uniformValue; uniformValueCoeffs { surfaceCellSizeCoeff 0.05; } } refinementBox { type searchableSurfaceControl; priority 1; mode bothSides; cellSizeFunction linearDistance; linearDistanceCoeffs { distanceCellSizeCoeff 1; distanceCoeff 5; } surfaceCellSizeFunction uniformValue; uniformValueCoeffs { surfaceCellSizeCoeff 0.05; } } } relaxationModel adaptiveLinear; adaptiveLinearCoeffs { relaxationStart 0.5; relaxationEnd 0.0; } objOutput no; meshedSurfaceOutput yes; // Near-wall region where cells are aligned with the wall specified as a // number of cell layers nearWallAlignedDist 3; } shortEdgeFilter { // Factor to multiply the average of a face's edge lengths by. // If an edge of that face is smaller than that value then delete it. shortEdgeFilterFactor 0.25; // Weighting for the lengths of edges that are attached to the boundaries. // Used when calculating the length of an edge. Default 2.0. edgeAttachedToBoundaryFactor 2.0; } extrusion { extrude off; #include "extrude2DMeshDict"; } // ************************************************************************* //