From 94d3e79a8617f88dc0219cfdeedfa3147833719d Mon Sep 17 00:00:00 2001
From: Adrian Kummerlaender
Date: Mon, 24 Jun 2019 14:43:36 +0200
Subject: Initialize at openlb-1-3
---
src/boundary/superBoundaryCondition2D.h | 189 ++++++++++++++++++++++++++++++++
1 file changed, 189 insertions(+)
create mode 100644 src/boundary/superBoundaryCondition2D.h
(limited to 'src/boundary/superBoundaryCondition2D.h')
diff --git a/src/boundary/superBoundaryCondition2D.h b/src/boundary/superBoundaryCondition2D.h
new file mode 100644
index 0000000..877bf58
--- /dev/null
+++ b/src/boundary/superBoundaryCondition2D.h
@@ -0,0 +1,189 @@
+/* This file is part of the OpenLB library
+ *
+ * Copyright (C) 2007 Mathias J. Krause
+ * 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
+ * A helper for initialising 2D boundaries -- header file.
+ */
+
+
+#ifndef SUPER_BOUNDARY_CONDITION_2D_H
+#define SUPER_BOUNDARY_CONDITION_2D_H
+
+#include
+#include "boundaryCondition2D.h"
+#include "advectionDiffusionBoundaryCondition2D.h" // -> for AdvectionDiffusion
+#include "geometry/blockGeometryStatistics2D.h"
+#include "core/superLattice2D.h"
+#include "io/ostreamManager.h"
+#include "geometry/superGeometry2D.h"
+#include "utilities/functorPtr.h"
+
+
+/// All OpenLB code is contained in this namespace.
+namespace olb {
+
+/// A helper for initialising 2D boundaries for super lattices.
+/** Here we have methods that initializes for a given global
+ * point or global range the local postprocessors and the
+ * communicator (_commBC in SuperLattice) for boundary conditions.
+ *
+ * This class is not intended to be derived from.
+ */
+template
+class sOnLatticeBoundaryCondition2D {
+public:
+ /// Constructor
+ sOnLatticeBoundaryCondition2D(SuperLattice2D& sLattice);
+ /// Copy construction
+ sOnLatticeBoundaryCondition2D(sOnLatticeBoundaryCondition2D const& rhs);
+ /// Copy assignment
+ sOnLatticeBoundaryCondition2D operator=(sOnLatticeBoundaryCondition2D rhs);
+ /// Destructor
+ ~sOnLatticeBoundaryCondition2D();
+
+ void addVelocityBoundary(FunctorPtr>&& indicator, T omega);
+ void addVelocityBoundary(SuperGeometry2D& superGeometry, int material, T omega);
+
+ void addSlipBoundary(FunctorPtr>&& indicator);
+ void addSlipBoundary(SuperGeometry2D& superGeometry, int material);
+
+ void addPartialSlipBoundary(T tuner, FunctorPtr>&& indicator);
+ void addPartialSlipBoundary(T tuner, SuperGeometry2D& superGeometry, int material);
+
+ void addTemperatureBoundary(FunctorPtr>&& indicator, T omega);
+ void addTemperatureBoundary(SuperGeometry2D& superGeometry, int material, T omega);
+
+ void addRegularizedTemperatureBoundary(FunctorPtr>&& indicator, T omega);
+ void addRegularizedTemperatureBoundary(SuperGeometry2D& superGeometry, int material, T omega);
+
+ void addRegularizedHeatFluxBoundary(FunctorPtr>&& indicator, T omega, T *heatFlux=nullptr);
+ void addRegularizedHeatFluxBoundary(SuperGeometry2D& superGeometry, int material, T omega, T *heatFlux=nullptr);
+
+ void addPressureBoundary(FunctorPtr>&& indicator, T omega);
+ void addPressureBoundary(SuperGeometry2D& superGeometry, int material, T omega);
+
+ void addConvectionBoundary(FunctorPtr>&& indicator, T omega, T* uAv=NULL);
+ void addConvectionBoundary(SuperGeometry2D& superGeometry, int material, T omega, T* uAv=NULL);
+
+ /// Implementation of a wetting boundary condition for the binary free energy model, consisting of a BounceBack
+ /// dynamics and an FreeEnergyWall PostProcessor.
+ /// \param[in] alpha_ - Parameter related to the interface width. [lattice units]
+ /// \param[in] kappa1_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] kappa2_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] h1_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] h2_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] latticeNumber - determines the number of the free energy lattice to set the boundary accordingly
+ void addFreeEnergyWallBoundary(FunctorPtr>&& indicator, T alpha, T kappa1, T kappa2, T h1, T h2, int latticeNumber);
+ /// Implementation of a wetting boundary condition for the binary free energy model, consisting of a BounceBack
+ /// dynamics and an FreeEnergyWall PostProcessor.
+ /// \param[in] alpha_ - Parameter related to the interface width. [lattice units]
+ /// \param[in] kappa1_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] kappa2_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] h1_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] h2_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] latticeNumber - determines the number of the free energy lattice to set the boundary accordingly
+ void addFreeEnergyWallBoundary(SuperGeometry2D& superGeometry, int material, T alpha, T kappa1, T kappa2, T h1, T h2, int latticeNumber);
+
+ /// Implementation of a wetting boundary condition for the ternary free energy model, consisting of a BounceBack
+ /// dynamics and an FreeEnergyWall PostProcessor.
+ /// \param[in] alpha_ - Parameter related to the interface width. [lattice units]
+ /// \param[in] kappa1_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] kappa2_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] kappa3_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] h1_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] h2_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] h3_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] latticeNumber - determines the number of the free energy lattice to set the boundary accordingly
+ void addFreeEnergyWallBoundary(FunctorPtr>&& indicator, T alpha, T kappa1, T kappa2, T kappa3, T h1, T h2, T h3, int latticeNumber);
+ /// Implementation of a wetting boundary condition for the ternary free energy model, consisting of a BounceBack
+ /// dynamics and an FreeEnergyWall PostProcessor.
+ /// \param[in] alpha_ - Parameter related to the interface width. [lattice units]
+ /// \param[in] kappa1_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] kappa2_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] kappa3_ - Parameter related to surface tension. [lattice units]
+ /// \param[in] h1_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] h2_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] h3_ - Parameter related to resulting contact angle of the boundary. [lattice units]
+ /// \param[in] latticeNumber - determines the number of the free energy lattice to set the boundary accordingly
+ void addFreeEnergyWallBoundary(SuperGeometry2D& superGeometry, int material, T alpha, T kappa1, T kappa2, T kappa3, T h1, T h2, T h3, int latticeNumber);
+
+ /// Implementation of a inlet boundary condition for the partner lattices of the binary or ternary free energy model.
+ void addFreeEnergyInletBoundary(SuperGeometry2D& superGeometry, int material, T omega, std::string type, int latticeNumber);
+ /// Implementation of a inlet boundary condition for the partner lattices of the binary or ternary free energy model.
+ void addFreeEnergyInletBoundary(FunctorPtr>&& indicator, T omega, std::string type, int latticeNumber);
+
+ /// Implementation of a outlet boundary condition for the partner lattices of the binary or ternary free energy model.
+ void addFreeEnergyOutletBoundary(SuperGeometry2D& superGeometry, int material, T omega, std::string type, int latticeNumber);
+ /// Implementation of a outlet boundary condition for the partner lattices of the binary or ternary free energy model.
+ void addFreeEnergyOutletBoundary(FunctorPtr>&& indicator, T omega, std::string type, int latticeNumber);
+
+ /// Adds needed Cells to the Communicator _commBC in SuperLattice
+ void addPoints2CommBC(FunctorPtr>&& indicator);
+ void addPoints2CommBC(SuperGeometry2D& superGeometry, int material);
+
+ SuperLattice2D& getSuperLattice()
+ {
+ return _sLattice;
+ };
+ std::vector* >& getBlockBCs()
+ {
+ return _blockBCs;
+ };
+ std::vector*>& getADblockBCs()
+ {
+ return _ADblockBCs;
+ };
+ int getOverlap()
+ {
+ return _overlap;
+ };
+ void setOverlap(int overlap)
+ {
+ _overlap = overlap;
+ };
+
+ void outputOn();
+ void outputOff();
+
+private:
+ mutable OstreamManager clout;
+ SuperLattice2D& _sLattice;
+ std::vector* > _blockBCs;
+ std::vector*> _ADblockBCs; // -> for AdvectionDiffusion
+ int _overlap;
+ bool _output;
+};
+
+
+template >
+void createLocalBoundaryCondition2D(sOnLatticeBoundaryCondition2D& sBC);
+
+template >
+void createInterpBoundaryCondition2D(sOnLatticeBoundaryCondition2D& sBC);
+
+template >
+void createExtFdBoundaryCondition2D(sOnLatticeBoundaryCondition2D& sBC);
+
+} // namespace olb
+
+#endif
--
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