newtonian_state.h - OpenGrok cross reference for /libCEED/examples/fluids/qfunctions/newtonian

Lines Matching full:pressure
38   Y[0] = s.pressure;  in UnpackState_Y()
62   return e_internal + e_kinetic + s.Y.pressure / s.U.density;  in TotalSpecificEnthalpy()
68 …return de_internal + de_kinetic + ds.Y.pressure / s.U.density - s.Y.pressure / Square(s.U.density)…  in TotalSpecificEnthalpy_fwd()
78   Y.pressure            = (HeatCapacityRatio(gas) - 1) * U.density * e_internal;  in StatePrimitiveFromConservative()
94 …dY.pressure            = (HeatCapacityRatio(gas) - 1) * (dU.density * e_internal + s.U.density * d…  in StatePrimitiveFromConservative_fwd()
101   const CeedScalar rho       = Y.pressure / (GasConstant(gas) * Y.temperature);  in StateEntropyFromPrimitive()
102   const CeedScalar entropy   = log(Y.pressure) - gamma * log(rho);  in StateEntropyFromPrimitive()
103   const CeedScalar rho_div_p = rho / Y.pressure;  in StateEntropyFromPrimitive()
115 …CeedScalar       drho  = (dY.pressure * s.Y.temperature - s.Y.pressure * dY.temperature) / (GasCon…  in StateEntropyFromPrimitive_fwd()
119   const CeedScalar rho_div_p  = s.U.density / s.Y.pressure;  in StateEntropyFromPrimitive_fwd()
120 …const CeedScalar drho_div_p = (drho * s.Y.pressure - s.U.density * dY.pressure) / Square(s.Y.press…  in StateEntropyFromPrimitive_fwd()
122   CeedScalar dentropy = dY.pressure / s.Y.pressure - gamma * drho / s.U.density;  in StateEntropyFromPrimitive_fwd()
138   Y.pressure                 = exp(log_P);  in StatePrimitiveFromEntropy()
151 …dY.pressure                 = s.Y.pressure * (-dentropy - gamma * dV.S_energy / V.S_energy) / (gam…  in StatePrimitiveFromEntropy_fwd()
157   U.density = Y.pressure / (GasConstant(gas) * Y.temperature);  in StateConservativeFromPrimitive()
168 …dU.density = (dY.pressure * s.Y.temperature - s.Y.pressure * dY.temperature) / (GasConstant(gas) *…  in StateConservativeFromPrimitive_fwd()
202   const CeedScalar p           = s.Y.pressure;  in StateEntropyFromConservative_fwd()
352   s.Y.pressure    = Y[0];  in StateFromY()
363   ds.Y.pressure    = dY[0];  in StateFromY_fwd()
433 …= 0; j < 3; j++) Flux[i].momentum[j] = s.U.momentum[i] * s.Y.velocity[j] + s.Y.pressure * (i == j);  in FluxInviscid()
434     Flux[i].E_total = (s.U.E_total + s.Y.pressure) * s.Y.velocity[i];  in FluxInviscid()
442 …ds.U.momentum[i] * s.Y.velocity[j] + s.U.momentum[i] * ds.Y.velocity[j] + ds.Y.pressure * (i == j);  in FluxInviscid_fwd()
444 …dFlux[i].E_total = (ds.U.E_total + ds.Y.pressure) * s.Y.velocity[i] + (s.U.E_total + s.Y.pressure)…  in FluxInviscid_fwd()