ASL  0.1.7
Advanced Simulation Library
locomotive_laminar.cc

Example: Locomotive with laminar flow Required input file: locomotive.stl

/*
* Advanced Simulation Library <http://asl.org.il>
*
* Copyright 2015 Avtech Scientific <http://avtechscientific.com>
*
*
* This file is part of Advanced Simulation Library (ASL).
*
* ASL is free software: you can redistribute it and/or modify it
* under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, version 3 of the License.
*
* ASL 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with ASL. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include <aslGeomInc.h>
#include <aslDataInc.h>
#include <num/aslLBGK.h>
#include <num/aslLBGKBC.h>
typedef float FlT;
//typedef double FlT;
using asl::AVec;
{
double l(bl.getBPosition()[0]-bl.position[0]+bl.dx);
double rTunnel((bl.getBPosition()[2]-bl.position[2])/2.);
double dx(bl.dx);
asl::AVec<int> size(bl.getSize());
asl::AVec<> center(.5*(bl.getBPosition()+bl.position));
center[1]=bl.position[1]+.25*rTunnel;
asl::AVec<> centerG(center);
centerG[1]=bl.position[1];
auto tunnel(-(generateDFCylinder(rTunnel, makeAVec(l,0.,0.), center) &
generateDFPlane(makeAVec(0.,-1.,0.), centerG)));
return normalize(tunnel, dx);
}
int main(int argc, char* argv[])
{
// Optionally add appParamsManager to be able to manipulate at least
// hardware parameters(platform/device) through command line/parameters file
asl::ApplicationParametersManager appParamsManager("locomotive_laminar",
"1.0");
asl::Parameter<string> input("input", "path to the geometry input file");
appParamsManager.load(argc, argv);
Param dx(0.5);
Param dt(1.);
Param nu(.01);
AVec<int> size(makeAVec(150., 37., 53.2)*(1./dx.v()));
asl::Block bl(size,dx.v(),makeAVec(-10.,-1.63, -31.6));
Param nuNum(nu.v()*dt.v()/dx.v()/dx.v());
std::cout << "Data initialization..." << endl;
auto locomotive(asl::readSurface(input.v(), bl));
asl::Block block(locomotive->getInternalBlock());
auto tunnelMap(asl::generateDataContainerACL_SP<FlT>(block, 1, 1u));
asl::initData(tunnelMap, generateTunnel(block));
auto forceField(asl::generateDataContainerACL_SP<FlT>(block, 3, 1u));
asl::initData(forceField, makeAVec(0.,0.,0.));
std::cout << "Finished"<<endl;
std::cout << "Numerics initialization..." << endl;
asl::SPLBGK lbgk(new asl::LBGK(block,
&asl::d3q15()));
lbgk->init();
lbgkUtil->initF(acl::generateVEConstant(.1,.0,.0));
auto vfTunnel(asl::generatePFConstant(makeAVec(0.1,0.,0.)));
std::vector<asl::SPNumMethod> bc;
std::vector<asl::SPNumMethod> bcV;
bc.push_back(generateBCVelocity(lbgk, vfTunnel, tunnelMap));
bcV.push_back(generateBCVelocityVel(lbgk, vfTunnel, tunnelMap));
// bcV.push_back(generateBCNoSlipRho(lbgk, tunnelMap));
bc.push_back(generateBCNoSlip(lbgk, locomotive));
bcV.push_back(generateBCNoSlipVel(lbgk, locomotive));
// bcV.push_back(generateBCNoSlipRho(lbgk, locomotive));
bc.push_back(generateBCConstantPressureVelocity(lbgk, 1., makeAVec(0.1,0.,0.), {asl::X0, asl::XE}));
initAll(bc);
initAll(bcV);
auto computeForce(generateComputeSurfaceForce(lbgk, forceField, locomotive));
computeForce->init();
cout << "Finished" << endl;
cout << "Computing..." << endl;
asl::Timer timer;
asl::WriterVTKXML writer(appParamsManager.getDir() + "locomotive_laminar");
writer.addScalars("locomotive", *locomotive);
writer.addScalars("tunnel", *tunnelMap);
writer.addScalars("rho", *lbgk->getRho());
writer.addVector("v", *lbgk->getVelocity());
writer.addVector("force", *forceField);
executeAll(bcV);
computeForce->execute();
writer.write();
timer.start();
for(unsigned int i(1); i < 2001; ++i)
{
lbgk->execute();
if(!(i%200))
{
cout<<i<<endl;
executeAll(bcV);
computeForce->execute();
writer.write();
}
}
timer.stop();
cout << "Finished" << endl;
cout << "Computation statistic:" << endl;
cout << "Real Time = " << timer.realTime() << "; Processor Time = "
<< timer.processorTime() << "; Processor Load = "
<< timer.processorLoad() * 100 << "%" << endl;
return 0;
}