/dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/include/cantera/transport/ |
H A D | TransportBase.h | 368 const doublereal* grad_T, in getElectricCurrent() argument 396 virtual void getSpeciesFluxes(size_t ndim, const doublereal* const grad_T, 419 const doublereal* grad_T, in getSpeciesFluxesES() argument 425 getSpeciesFluxes(ndim, grad_T, ldx, grad_X, ldf, fluxes); in getSpeciesFluxesES() 444 const doublereal* grad_T, in getSpeciesVdiff() argument 471 const doublereal* grad_T, in getSpeciesVdiffES() argument 477 getSpeciesVdiff(ndim, grad_T, ldx, grad_X, ldf, Vdiff); in getSpeciesVdiffES()
|
H A D | MixTransport.h | 148 virtual void getSpeciesFluxes(size_t ndim, const doublereal* const grad_T,
|
H A D | MultiTransport.h | 71 virtual void getSpeciesFluxes(size_t ndim, const doublereal* const grad_T,
|
/dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/test_problems/mixGasTransport/ |
H A D | mixGasTransport.cpp | 124 vector_fp grad_T(3, 0.0); in main() local 132 grad_T[0] = (T2 - T1) / dist; in main() 133 grad_T[1] = (T3 - T1) / dist; in main() 196 tran->getSpeciesFluxes(2, grad_T.data(), nsp, in main()
|
/dports/math/libmesh/libmesh-1.6.2/examples/adjoints/adjoints_ex4/ |
H A D | side_postprocess.C | 50 const Gradient grad_T = c.side_gradient(0, qp); in side_postprocess() local 53 dQoI_1 += JxW[qp] * (grad_T * face_normals[qp] * x * (x - 1.)); in side_postprocess()
|
H A D | L-shaped.C | 96 Gradient grad_T = c.interior_gradient(0, qp); in element_time_derivative() local 100 F(i) += JxW[qp] * (grad_T * dphi[i][qp]); in element_time_derivative()
|
/dports/math/libmesh/libmesh-1.6.2/examples/adjoints/adjoints_ex1/ |
H A D | side_postprocess.C | 50 const Gradient grad_T = c.side_gradient(0, qp); in side_postprocess() local 53 dQoI_1 += JxW[qp] * (grad_T * face_normals[qp]); in side_postprocess()
|
H A D | L-shaped.C | 95 Gradient grad_T = c.interior_gradient(0, qp); in element_time_derivative() local 99 F(i) += JxW[qp] * (grad_T * dphi[i][qp]); in element_time_derivative()
|
/dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/test_problems/multiGasTransport/ |
H A D | multiGasTransport.cpp | 132 vector_fp grad_T(3, 0.0); in main() local 140 grad_T[0] = (T2 - T1) / dist; in main() 141 grad_T[1] = (T3 - T1) / dist; in main() 200 tran->getSpeciesFluxes(2, grad_T.data(), nsp, in main()
|
/dports/math/libmesh/libmesh-1.6.2/examples/adjoints/adjoints_ex6/ |
H A D | poisson.C | 165 Gradient grad_T = c.interior_gradient(0, qp); in element_time_derivative() local 176 F(i) += JxW[qp] * ( (f * phi[i][qp]) - alpha*(grad_T * dphi[i][qp]) ) ; in element_time_derivative()
|
/dports/math/libmesh/libmesh-1.6.2/examples/fem_system/fem_system_ex4/ |
H A D | heatsystem.C | 120 Gradient grad_T = c.interior_gradient(T_var, qp); in element_time_derivative() local 139 F(i) += JxWxNK * (grad_T * dphi[i][qp] + forcing * phi[i][qp]); in element_time_derivative()
|
/dports/math/libmesh/libmesh-1.6.2/examples/adjoints/adjoints_ex5/ |
H A D | heatsystem.C | 153 Gradient grad_T = c.interior_gradient(0, qp); in element_time_derivative() local 156 F(i) += JxW[qp] * -parameters[0] * (grad_T * dphi[i][qp]); in element_time_derivative()
|
/dports/math/libmesh/libmesh-1.6.2/examples/adjoints/adjoints_ex2/ |
H A D | L-shaped.C | 92 Gradient grad_T = c.interior_gradient(0, qp); in element_time_derivative() local 96 F(i) += JxW[qp] * (parameters[0] + (2.*parameters[1])) * (grad_T * dphi[i][qp]); in element_time_derivative()
|
/dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/src/transport/ |
H A D | TransportBase.cpp | 107 void Transport::getSpeciesFluxes(size_t ndim, const doublereal* const grad_T, in getSpeciesFluxes() argument
|
H A D | MixTransport.cpp | 66 void MixTransport::getSpeciesFluxes(size_t ndim, const doublereal* const grad_T, in getSpeciesFluxes() argument
|
H A D | MultiTransport.cpp | 172 void MultiTransport::getSpeciesFluxes(size_t ndim, const doublereal* const grad_T, in getSpeciesFluxes() argument 184 if (grad_T[i] != 0.0) { in getSpeciesFluxes() 250 doublereal grad_logt = grad_T[n]/m_temp; in getSpeciesFluxes()
|