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/core/thermalUnitConverter.hh | 206 +++++++++++++++++++++++++++++++++++++++
1 file changed, 206 insertions(+)
create mode 100644 src/core/thermalUnitConverter.hh
(limited to 'src/core/thermalUnitConverter.hh')
diff --git a/src/core/thermalUnitConverter.hh b/src/core/thermalUnitConverter.hh
new file mode 100644
index 0000000..c1005bf
--- /dev/null
+++ b/src/core/thermalUnitConverter.hh
@@ -0,0 +1,206 @@
+/* This file is part of the OpenLB library
+ *
+ * Copyright (C) 2017 Max Gaedtke, Albert Mink
+ * 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.
+*/
+
+
+#ifndef THERMALUNITCONVERTER_HH
+#define THERMALUNITCONVERTER_HH
+
+#include
+#include
+#include
+#include "core/singleton.h"
+#include "io/fileName.h"
+
+/// All OpenLB code is contained in this namespace.
+namespace olb {
+
+template
+void ThermalUnitConverter::print() const
+{
+ clout << "----------------- UnitConverter information -----------------" << std::endl;
+ clout << "-- Parameters:" << std::endl;
+ clout << "Resolution: N= " << this->getResolution() << std::endl;
+ clout << "Lattice velocity: latticeU= " << this->getCharLatticeVelocity() << std::endl;
+ clout << "Lattice relaxation frequency: omega= " << this->getLatticeRelaxationFrequency() << std::endl;
+ clout << "Lattice relaxation time: tau= " << this->getLatticeRelaxationTime() << std::endl;
+ clout << "Thermal Lattice relaxation frequency: omega_AD= " << this->getLatticeThermalRelaxationFrequency() << std::endl;
+ clout << "Thermal Lattice relaxation time: tau_AD= " << this->getLatticeThermalRelaxationTime() << std::endl;
+ clout << "Characteristical length(m): charL= " << this->getCharPhysLength() << std::endl;
+ clout << "Characteristical speed(m/s): charU= " << this->getCharPhysVelocity() << std::endl;
+ clout << "Phys. kinematic viscosity(m^2/s): charNu= " << this->getPhysViscosity() << std::endl;
+ clout << "Phys. density(kg/m^d): charRho= " << this->getPhysDensity() << std::endl;
+ clout << "Characteristical pressure(N/m^2): charPressure= " << this->getCharPhysPressure() << std::endl;
+ clout << "Reynolds number: reynoldsNumber= " << this->getReynoldsNumber() << std::endl;
+
+ clout << "-------------------------------------------------------------" << std::endl;
+
+ clout << "----------------- ThermalUnitConverter information -----------------" << std::endl;
+ clout << "-- Parameters:" << std::endl;
+ clout << "Phys. Delta X(m): physDeltaX= " << this->getPhysDeltaX() << std::endl;
+ clout << "Phys. Delta T(s): physDeltaT= " << this->getPhysDeltaT() << std::endl;
+ clout << "Characteristical pressure(N/m^2): charPressure= " << this->getCharPhysPressure() << std::endl;
+ clout << "Phys. Thermal Conductivity(W/m/K): physThermalCondcticity= " << getThermalConductivity() << std::endl;
+ clout << "Phys. specific Heat Capacity(J/kg/K): physSpecificHeatCapacity= " << getPhysSpecificHeatCapacity() << std::endl;
+ clout << "Phys. Thermal Expasion Coefficent(K^-1): physThermalExpansionCoefficent= " << getPhysThermalExpansionCoefficient() << std::endl;
+ clout << "Characteristical Phys. low Temperature(K): charPhysLowTemperature= " << getCharPhysLowTemperature() << std::endl;
+ clout << "Characteristical Phys. high Temperature(K): charPhysHighTemperature= " << getCharPhysHighTemperature() << std::endl;
+ clout << "Prandtl number: prandtlNumber= " << getPrandtlNumber() << std::endl;
+ clout << "Rayleigh number: rayleighNumber= " << getRayleighNumber() << std::endl;
+
+
+ clout << "-------------------------------------------------------------" << std::endl;
+
+ clout << "----------------- Conversion factors:-----------------" << std::endl;
+ clout << "Voxel length(m): physDeltaX= " << this->getConversionFactorLength() << std::endl;
+ clout << "Time step(s): physDeltaT= " << this->getConversionFactorTime() << std::endl;
+ clout << "Velocity factor(m/s): physVelocity= " << this->getConversionFactorVelocity() << std::endl;
+ clout << "Density factor(kg/m^3): physDensity= " << this->getConversionFactorDensity() << std::endl;
+ clout << "Mass factor(kg): physMass= " << this->getConversionFactorMass() << std::endl;
+ clout << "Viscosity factor(m^2/s): physViscosity= " << this->getConversionFactorViscosity() << std::endl;
+ clout << "Force factor(N): physForce= " << this->getConversionFactorForce() << std::endl;
+ clout << "Pressure factor(N/m^2): physPressure= " << this->getConversionFactorPressure() << std::endl;
+
+ clout << "-------------------------------------------------------------" << std::endl;
+
+ clout << "----------------- ThermalConversion factors:-----------------" << std::endl;
+ clout << "Temperature(K): temperature= " << getConversionFactorTemperature() << std::endl;
+ clout << "Thermal Duffusity(m^2/s): physThermalDiffusity= " << getConversionFactorThermalDiffusivity() << std::endl;
+ clout << "specific Heat Capacity(J/kg): physSpecificHeatCapacity= " << getConversionFactorSpecificHeatCapacity() << std::endl;
+ clout << "Thermal Coductivity(W/m/K): physThermalCondcticity= " << getConversionFactorThermalConductivity() << std::endl;
+ clout << "HeatFlux(W): physHeatFlux= " << getConversionFactorHeatFlux() << std::endl;
+
+ clout << "-------------------------------------------------------------" << std::endl;
+
+}
+/*
+template
+void ThermalUnitConverter::writeDatFile(std::string const& title) const
+{
+ std::string dataFile = singleton::directories().getLogOutDir() + title + ".dat";
+
+ if (singleton::mpi().isMainProcessor())
+ {
+ std::ofstream fout;
+ fout.open(dataFile.c_str(), std::ios::trunc);
+
+ fout << "----------------- ThermalUnitConverter information -----------------" << std::endl;
+ fout << "-- Parameters:" << std::endl;
+ fout << "Phys. Delta X: physDeltaX= " << getPhysDeltaX() << std::endl;
+ fout << "Phys. Delta T: physDeltaT= " << getPhysDeltaT() << std::endl;
+ fout << "Characteristical pressure(N/m^2): charPressure= " << getCharPhysPressure() << std::endl;
+ fout << "Phys. Thermal Conductivity: physThermalCondcticity= " << getPhysThermalCondcticity() << std::endl;
+ fout << "Phys. specific Heat Capacity: physSpecificHeatCapacity= " << getPhysSpecificHeatCapacity() << std::endl;
+ fout << "Phys. Thermal Expasion Coefficent physThermalExpansionCoefficent= " << getPhysThermalExpasionCoefficent << std::endl;
+ fout << "Characteristical Phys. low Temperature charPhysLowTemperature= " << getCharPhysLowTemperature << std::endl;
+ fout << "Characteristical Phys. high Temperature charPhysHighTemperature= " << getCharPhysHighTemperature << std::endl;
+ fout << std::endl;
+
+ fout << "-- Conversion factors:" << std::endl;
+ fout << "Temperature: temperature= " << getConversionFactorTemperature() << std::endl;
+ fout << "Thermal Duffusity: physThermalDiffusity= " << getConversionFactorThermalDiffusivity() << std::endl;
+ fout << "specific Heat Capacity: physSpecificHeatCapacity= " << getConversionFactorSpecificHeatCapacity() << std::endl;
+ fout << "Thermal Coductivity: physThermalCondcticity= " << getConversionFactorThermalConductivity() << std::endl;
+ fout << "HeatFlux: physHeatFlux= " << getConversionFactorHeatFlux() << std::endl;
+
+ fout << "-------------------------------------------------------------" << std::endl;
+
+ fout.close();
+ }
+}
+*/
+/*
+template
+ThermalUnitConverter* createThermalUnitConverter(XMLreader const& params)
+{
+ OstreamManager clout(std::cout,"createThermalUnitConverter");
+ params.setWarningsOn(false);
+
+ T physDeltaX;
+ T physDeltaT;
+
+ T charPhysHighTemperature;
+ T charPhysLowTemperature;
+ T physThermalCondcticity;
+ T physDensity;
+ T charPhysPressure = 0;
+
+ int resolution;
+ T latticeRelaxationTime;
+ T charLatticeVelocity;
+
+ // params[parameter].read(value) sets the value or returns false if the parameter can not be found
+ params["Application"]["ThermalPhysParameters"]["CharPhysLowTemperature"].read(charPhysLowTemperature);
+ params["Application"]["ThermalPhysParameters"]["charPhysHighTemperature"].read(charPhysHighTemperature);
+ params["Application"]["ThermalPhysParameters"]["PhysThermalCondcticity"].read(physThermalCondcticity);
+ params["Application"]["ThermalPhysParameters"]["PhysDensity"].read(physDensity);
+ params["Application"]["ThermalPhysParameters"]["CharPhysPressure"].read(charPhysPressure);
+
+ if (!params["Application"]["Discretization"]["PhysDeltaX"].read(physDeltaX,false)) {
+ if (!params["Application"]["Discretization"]["Resolution"].read(resolution,false)) {
+ if (!params["Application"]["Discretization"]["CharLatticeVelocity"].read(charLatticeVelocity,false)) {
+ // NOT found physDeltaX, resolution or charLatticeVelocity
+ clout << "Error: Have not found PhysDeltaX, Resolution or CharLatticeVelocity in XML file."
+ << std::endl;
+ exit (1);
+ }
+ else {
+ // found charLatticeVelocity
+ if (params["Application"]["Discretization"]["PhysDeltaT"].read(physDeltaT,false)) {
+ physDeltaX = charPhysVelocity / charLatticeVelocity * physDeltaT;
+ }
+ else if (params["Application"]["Discretization"]["LatticeRelaxationTime"].read(latticeRelaxationTime,false)) {
+ physDeltaX = physViscosity * charLatticeVelocity / charPhysVelocity * descriptors::invCs2() / (latticeRelaxationTime - 0.5);
+ }
+ }
+ }
+ else {
+ // found resolution
+ physDeltaX = charPhysLength / resolution;
+ }
+ }
+ // found physDeltaX
+ if (!params["Application"]["Discretization"]["PhysDeltaT"].read(physDeltaT,false)) {
+ if (!params["Application"]["Discretization"]["LatticeRelaxationTime"].read(latticeRelaxationTime,false)) {
+ if (!params["Application"]["Discretization"]["CharLatticeVelocity"].read(charLatticeVelocity,false)) {
+ // NOT found physDeltaT, latticeRelaxationTime and charLatticeVelocity
+ clout << "Error: Have not found PhysDeltaT, LatticeRelaxationTime or CharLatticeVelocity in XML file."
+ << std::endl;
+ exit (1);
+ }
+ else {
+ // found charLatticeVelocity
+ physDeltaT = charLatticeVelocity / charPhysVelocity * physDeltaX;
+ }
+ }
+ else {
+ // found latticeRelaxationTime
+ physDeltaT = (latticeRelaxationTime - 0.5) / descriptors::invCs2() * physDeltaX * physDeltaX / physViscosity;
+ }
+ }
+
+ return new ThermalUnitConverter(physDeltaX, physDeltaT, charPhysLength, charPhysVelocity, physViscosity, physDensity,T physThermalConductivity,T physSpecificHeatCapacity,T physThermalExpansionCoefficient,T charPhysLowTemperature,T charPhysHighTemperature, charPhysPressure);
+}*/
+
+} // namespace olb
+
+#endif
--
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