#include "gtest/gtest.h" #include "cantera/transport/TransportData.h" #include "cantera/transport/MixTransport.h" #include "cantera/transport/MultiTransport.h" #include "cantera/transport/TransportFactory.h" #include "cantera/thermo/ThermoFactory.h" #include "cantera/thermo/IdealGasPhase.h" #include "cantera/thermo/NasaPoly2.h" #include "cantera/base/global.h" #include "cantera/base/stringUtils.h" #include "../thermo/thermo_data.h" using namespace Cantera; class TransportFromScratch : public testing::Test { public: TransportFromScratch() : sH2(new Species("H2", parseCompString("H:2"))) , sO2(new Species("O2", parseCompString("O:2"))) , sH2O(new Species("H2O", parseCompString("H:2 O:1"))) , tH2(new GasTransportData()) , tO2(new GasTransportData()) , tH2O(new GasTransportData()) { sH2->thermo.reset(new NasaPoly2(200, 3500, 101325, h2_nasa_coeffs)); sO2->thermo.reset(new NasaPoly2(200, 3500, 101325, o2_nasa_coeffs)); sH2O->thermo.reset(new NasaPoly2(200, 3500, 101325, h2o_nasa_coeffs)); tH2->setCustomaryUnits("linear", 2.92, 38.0, 0.0, 0.79, 280.0); tO2->setCustomaryUnits("linear", 3.458, 107.40, 0.0, 1.60, 3.80); tH2O->setCustomaryUnits("nonlinear", 2.605, 572.4, 1.844, 0.0, 4.00); sH2->transport = tH2; sO2->transport = tO2; sH2O->transport = tH2O; std::string phase_def = "ideal_gas(name='test', elements='O H'," "species='gri30: H2 O2 H2O')"; XML_Node* fxml = get_XML_from_string(phase_def); ref.reset(newPhase(*fxml->findByName("phase"))); test.reset(new IdealGasPhase()); test->addElement("O"); test->addElement("H"); test->addSpecies(sH2); test->addSpecies(sO2); test->addSpecies(sH2O); test->initThermo(); ref->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); } shared_ptr sH2, sO2, sH2O; shared_ptr tH2, tO2, tH2O; shared_ptr ref; shared_ptr test; }; TEST_F(TransportFromScratch, binaryDiffCoeffs) { Transport* trRef = newTransportMgr("Mix", ref.get()); MixTransport trTest; trTest.init(test.get()); size_t K = ref->nSpecies(); Array2D bdiffRef(3,3); Array2D bdiffTest(3,3); ref->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); trRef->getBinaryDiffCoeffs(K, &bdiffRef(0,0)); trTest.getBinaryDiffCoeffs(K, &bdiffTest(0,0)); for (size_t i=0; i < K; i++) { for (size_t j=0; j < K; j++) { EXPECT_DOUBLE_EQ(bdiffRef(i,j), bdiffTest(i,j)) << "i = " << i << ", j = " << j; } } } TEST_F(TransportFromScratch, mixDiffCoeffs) { Transport* trRef = newTransportMgr("Mix", ref.get()); MixTransport trTest; trTest.init(test.get()); size_t K = ref->nSpecies(); vector_fp Dref(3); vector_fp Dtest(3); ref->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); trRef->getMixDiffCoeffs(&Dref[0]); trTest.getMixDiffCoeffs(&Dtest[0]); for (size_t k=0; k < K; k++) { EXPECT_DOUBLE_EQ(Dref[k], Dtest[k]) << "k = " << k; } } TEST_F(TransportFromScratch, viscosity) { Transport* trRef = newTransportMgr("Mix", ref.get()); MixTransport trTest; trTest.init(test.get()); for (int i = 0; i < 10; i++) { double T = 300 + 111*i; ref->setState_TPX(T, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(T, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); EXPECT_DOUBLE_EQ(trRef->viscosity(), trTest.viscosity()) << "T = " << T; } } TEST_F(TransportFromScratch, thermalConductivityMix) { Transport* trRef = newTransportMgr("Mix", ref.get()); MixTransport trTest; trTest.init(test.get()); for (int i = 0; i < 10; i++) { double T = 300 + 111*i; ref->setState_TPX(T, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(T, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); EXPECT_DOUBLE_EQ(trRef->thermalConductivity(), trTest.thermalConductivity()) << "T = " << T; } } TEST_F(TransportFromScratch, multiDiffCoeffs) { Transport* trRef = newTransportMgr("Multi", ref.get()); MultiTransport trTest; trTest.init(test.get()); size_t K = ref->nSpecies(); Array2D Dref(3,3); Array2D Dtest(3,3); ref->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(400, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); trRef->getMultiDiffCoeffs(K, &Dref(0,0)); trTest.getMultiDiffCoeffs(K, &Dtest(0,0)); for (size_t i=0; i < K; i++) { for (size_t j=0; j < K; j++) { EXPECT_DOUBLE_EQ(Dref(i,j), Dtest(i,j)) << "i = " << i << ", j = " << j; } } } TEST_F(TransportFromScratch, thermalConductivityMulti) { Transport* trRef = newTransportMgr("Multi", ref.get()); MultiTransport trTest; trTest.init(test.get()); for (int i = 0; i < 10; i++) { double T = 300 + 111*i; ref->setState_TPX(T, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); test->setState_TPX(T, 5e5, "H2:0.5, O2:0.3, H2O:0.2"); EXPECT_DOUBLE_EQ(trRef->thermalConductivity(), trTest.thermalConductivity()) << "T = " << T; } } int main(int argc, char** argv) { printf("Running main() from transportFromScratch.cpp\n"); testing::InitGoogleTest(&argc, argv); int result = RUN_ALL_TESTS(); appdelete(); return result; }