/* This file is part of the OpenLB library * * Copyright (C) 2006, 2007 Jonas Latt * E-mail contact: info@openlb.net * The most recent release of OpenLB can be downloaded at * * * This program 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 2 * of the License, or (at your option) any later version. * * This program 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 this program; if not, write to the Free * Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ /** \file * Implementation of boundary cell dynamics -- generic implementation. */ #ifndef ADE_MOMENTA_ON_BOUNDARIES_HH #define ADE_MOMENTA_ON_BOUNDARIES_HH #include #include "advectionDiffusionMomentaOnBoundaries.h" #include "dynamics/lbHelpers.h" #include "dynamics/firstOrderLbHelpers.h" namespace olb { ////////////////////// Class AdvectionDiffusionBM ////////////////////// template RegularizedTemperatureBM::RegularizedTemperatureBM(const T temperature) : AdvectionDiffusionBulkMomenta(), _temperature(temperature) { } template T RegularizedTemperatureBM::computeRho( Cell const& cell ) const { return _temperature; } template void RegularizedTemperatureBM::computeJ( Cell const& cell, T j[DESCRIPTOR::d] ) const { const T* u = cell.template getFieldPointer(); computeJneq( cell, j ); for (int iD=0; iD void RegularizedTemperatureBM::computeJneq( Cell const& cell, T jNeq[DESCRIPTOR::d] ) const { std::vector const& onWallIndices = util::subIndex(); std::vector const& normalIndices = util::subIndex(); const T* u = cell.template getFieldPointer(); T jNeqOnWall[DESCRIPTOR::d], jNeqNormal[DESCRIPTOR::d]; for (int iD=0; iD::equilibriumFirstOrder(onWallIndices[fIndex],_temperature,u)) * descriptors::c(onWallIndices[fIndex],iD); } } for (unsigned fIndex=0; fIndex::equilibriumFirstOrder(normalIndices[fIndex],_temperature,u)) * descriptors::c(normalIndices[fIndex],iD); } } for (int iD=0; iD void RegularizedTemperatureBM::defineRho( Cell& cell, T rho ) { _temperature = rho; } template void RegularizedTemperatureBM::defineRhoU( Cell& cell, T rho, const T u[DESCRIPTOR::d]) { _temperature = rho; T *u_ = cell.template getFieldPointer(); for (int iD = 0; iD < DESCRIPTOR::d; ++iD) { u_[iD] = u[iD]; } for (int iPop = 0; iPop < DESCRIPTOR::q; ++iPop) { cell[iPop] = lbHelpers::equilibriumFirstOrder( iPop, rho, u ); } } template RegularizedHeatFluxBM::RegularizedHeatFluxBM(T *heatFlux) : AdvectionDiffusionBulkMomenta() { for (int iDim = 0; iDim < DESCRIPTOR::d; iDim++) { if (heatFlux == nullptr) _heatFlux[iDim] = T(); else _heatFlux[iDim] = heatFlux[iDim]; } } template T RegularizedHeatFluxBM::computeRho( Cell const& cell ) const { std::vector const& onWallIndices = util::subIndex(); std::vector const& normalIndices = util::subIndex(); const T* u = cell.template getFieldPointer(); T rhoOnWall = T(); for (unsigned fIndex=0; fIndex void RegularizedHeatFluxBM::computeJ( Cell const& cell, T j[DESCRIPTOR::d] ) const { T temperature = computeRho(cell); const T* u = cell.template getFieldPointer(); for (int iD=0; iD void RegularizedHeatFluxBM::computeJneq( Cell const& cell, T jNeq[DESCRIPTOR::d] ) const { for (int iD=0; iD