Lines Matching refs:gas
70 CeedScalar mu = blasius->newt_ctx.gas.mu; in BlasiusSolution()
76 CeedScalar Rd = GasConstant(blasius->newt_ctx.gas); in BlasiusSolution()
90 return StateFromY(blasius->newt_ctx.gas, Y); in BlasiusSolution()
101 const NewtonianIGProperties gas = context->newt_ctx.gas; in ICsBlasius() local
102 const CeedScalar mu = context->newt_ctx.gas.mu; in ICsBlasius()
117 StateToQ(gas, s, q, context->newt_ctx.state_var); in ICsBlasius()
132 const NewtonianIGProperties gas = context->newt_ctx.gas; in Blasius_Inflow() local
136 …const CeedScalar x0 = U_infty * rho_0 / (gas.mu * 25 / Square(context->delta0)… in Blasius_Inflow()
149 State s_int = StateFromU(gas, qi); in Blasius_Inflow()
154 s.Y = StatePrimitiveFromConservative(gas, s.U); in Blasius_Inflow()
157 s.Y = StatePrimitiveFromConservative(gas, s.U); in Blasius_Inflow()
161 FluxInviscid(gas, s, Flux_inviscid); in Blasius_Inflow()
184 const NewtonianIGProperties gas = context->newt_ctx.gas; in Blasius_Inflow_Jacobian() local
186 const CeedScalar Rd = GasConstant(gas); in Blasius_Inflow_Jacobian()
187 const CeedScalar gamma = HeatCapacityRatio(gas); in Blasius_Inflow_Jacobian()
191 …const CeedScalar x0 = U_infty * rho_0 / (gas.mu * 25 / Square(context->delta0)… in Blasius_Inflow_Jacobian()
208 CeedScalar dE_internal = drho * gas.cv * S_infty.Y.temperature; in Blasius_Inflow_Jacobian()