/*---------------------------------------------------------------------------*\ ========= | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / O peration | \\ / A nd | Copyright (C) 2012-2018 OpenFOAM Foundation \\/ M anipulation | ------------------------------------------------------------------------------- License This file is part of OpenFOAM. OpenFOAM is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. OpenFOAM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenFOAM. If not, see . // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // \page pageBoundaryConditions Boundary Conditions \ref grpBoundaryConditions are required to 'close' the simulation problem. Careful attention should be applied to their selection so as to create a well-posed system of equations, which can be solved numerically. \section secBoundaryConditionsOverview Overview The set of available \ref grpBoundaryConditions comprise of basic, turbulent and thermophysical types. \subsection secBC1 Basic boundary conditions - \ref grpConstraintBoundaryConditions - \ref grpInletBoundaryConditions - \ref grpOutletBoundaryConditions - \ref grpGenericBoundaryConditions - \ref grpCoupledBoundaryConditions - \ref grpWallBoundaryConditions \subsection secBC2 Turbulent flow boundary conditions - \ref grpRASBoundaryConditions \subsection secBC3 Thermophysical boundary conditions - \ref grpThermoBoundaryConditions \section secWallFunctions Wall-functions Wall-functions in OpenFOAM are modelled as boundary conditions, applied to the viscosity for momentum, and thermal diffusivity for energy. Wall-functions - \ref grpWallFunctions Thermal wall-functions for incompressible flow - \ref grpIcoWallFunctions Thermal wall-functions for compressible flow - \ref grpCmpWallFunctions \section secBoundaryConditions Typical usage for pressure-velocity systems The choice as to the most appropriate set of boundary conditions is dictated by the type of flow problem. In many cases, multiple possible selections exist; the following tables offer suggestions for subsonic flow. subsonic inlet (flow specified): \table Variable | Symbol | Type pressure | p | \link Foam::zeroGradientFvPatchField zeroGradient\endlink velocity | U | \link Foam::fixedValueFvPatchField fixedValue\endlink transported property | - | \link Foam::fixedValueFvPatchField fixedValue\endlink derived property | - | \link Foam::calculatedFvPatchField calculated\endlink or \link Foam::zeroGradientFvPatchField zeroGradient\endlink \endtable subsonic outlet: \table Variable | Symbol | Type pressure | p | \link Foam::fixedValueFvPatchField fixedValue\endlink velocity | U | \link Foam::inletOutletFvPatchField inletOutlet\endlink or \link Foam::pressureInletOutletVelocityFvPatchVectorField pressureInletOutletVelocity\endlink transported property | - | \link Foam::inletOutletFvPatchField inletOutlet\endlink derived property | - | \link Foam::calculatedFvPatchField calculated\endlink or \link Foam::zeroGradientFvPatchField zeroGradient\endlink \endtable wall (impermeable, non-slip): \table Variable | Symbol | Type pressure | p | \link Foam::zeroGradientFvPatchField zeroGradient\endlink velocity | U | \link Foam::fixedValueFvPatchField fixedValue\endlink transported property | - | \link Foam::fixedValueFvPatchField fixedValue\endlink derived property | - | \link Foam::calculatedFvPatchField calculated\endlink or \link Foam::zeroGradientFvPatchField zeroGradient\endlink \endtable \*---------------------------------------------------------------------------*/