/*--------------------------------*- C++ -*----------------------------------*\ | ========= | | | \\ / F ield | foam-extend: Open Source CFD | | \\ / O peration | Version: 3.2 | | \\ / A nd | Web: http://www.foam-extend.org | | \\/ M anipulation | | \*---------------------------------------------------------------------------*/ FoamFile { version 2.0; format ascii; class dictionary; object changeDictionaryDict; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // dictionaryReplacement { U { internalField uniform ( 0.01 0 0 ); boundaryField { minX { type fixedValue; value uniform (0.01 0 0); } maxX { type inletOutlet; inletValue uniform (0 0 0); } maxY { type fixedValue; value uniform (0 0 0); } minZ { type fixedValue; value uniform (0 0 0); } maxZ { type fixedValue; value uniform (0 0 0); } topAir_to_leftSolid { type fixedValue; value uniform (0 0 0); } topAir_to_heater { type fixedValue; value uniform (0 0 0); } topAir_to_rightSolid { type fixedValue; value uniform (0 0 0); } } } T { internalField uniform 300; boundaryField { maxY { type fixedValue; value $internalField; } minX { type fixedValue; value $internalField; } maxX { type fixedValue; value $internalField; } minZ { type fixedValue; value $internalField; } maxZ { type fixedValue; value $internalField; } topAir_to_leftSolid { type solidWallMixedTemperatureCoupled; neighbourFieldName T; Kappa Kappa; value $internalField; } topAir_to_heater { type solidWallMixedTemperatureCoupled; neighbourFieldName T; Kappa Kappa; value $internalField; } topAir_to_rightSolid { type solidWallMixedTemperatureCoupled; neighbourFieldName T; Kappa Kappa; value $internalField; } } } epsilon { // Set the value on all bc to non-zero. Not used in simulation // since zeroGradient; only used in initialisation. boundaryField { minX { type fixedValue; value $internalField; } maxX { type zeroGradient; value $internalField; } minY { type zeroGradient; value $internalField; } maxY { type zeroGradient; value $internalField; } minZ { type zeroGradient; value $internalField; } maxZ { type zeroGradient; value $internalField; } topAir_to_leftSolid { type zeroGradient; value $internalField; } topAir_to_heater { type zeroGradient; value $internalField; } topAir_to_rightSolid { type zeroGradient; value $internalField; } } } k { internalField uniform 0.1; boundaryField { minX { type fixedValue; value $internalField; } maxX { type zeroGradient; value $internalField; } maxY { type zeroGradient; value $internalField; } minZ { type zeroGradient; value $internalField; } maxZ { type zeroGradient; value $internalField; } topAir_to_leftSolid { type zeroGradient; value $internalField; } topAir_to_heater { type zeroGradient; value $internalField; } topAir_to_rightSolid { type zeroGradient; value $internalField; } } } p { internalField uniform 1E5; boundaryField { minX { type buoyantPressure; value $internalField; } maxX { type waveTransmissive; field p; inletOutlet off; correctSupercritical off; phi phi; rho rho; psi psi; gamma 1.4; // cp/cv fieldInf 1e5; lInf 0.40; // double length of domain value $internalField; } maxY { type buoyantPressure; value $internalField; } minZ { type buoyantPressure; value $internalField; } maxZ { type buoyantPressure; value $internalField; } topAir_to_leftSolid { type buoyantPressure; value $internalField; } topAir_to_heater { type buoyantPressure; value $internalField; } topAir_to_rightSolid { type buoyantPressure; value $internalField; } } } } // ************************************************************************* //