Real SinglePhaseFluidProperties::h(Real p, Real T) const { mooseDeprecated(name(), ": h() is deprecated. Use h_from_p_T() instead"); return h_from_p_T(p, T); }
void SinglePhaseFluidProperties::h_dpT(Real p, Real T, Real & h, Real & dh_dp, Real & dh_dT) const { mooseDeprecated(name(), ": h_dpT() is deprecated. Use h_from_p_T() instead"); h_from_p_T(p, T, h, dh_dp, dh_dT); }
void StiffenedGasFluidProperties::h_from_p_T(Real p, Real T, Real & h, Real & dh_dp, Real & dh_dT) const { h = h_from_p_T(p, T); dh_dp = 0.0; dh_dT = _gamma * _cv; }
void NaClFluidProperties::e_from_p_T( Real pressure, Real temperature, Real & e, Real & de_dp, Real & de_dT) const { Real h, dh_dp, dh_dT; h_from_p_T(pressure, temperature, h, dh_dp, dh_dT); Real rho, drho_dp, drho_dT; rho_from_p_T(pressure, temperature, rho, drho_dp, drho_dT); e = h - pressure / rho; de_dp = dh_dp + pressure * drho_dp / rho / rho - 1.0 / rho; de_dT = dh_dT + pressure * drho_dT / rho / rho; }
void SinglePhaseFluidProperties::h_dpT(Real p, Real T, Real & h, Real & dh_dp, Real & dh_dT) const { h_from_p_T(p, T, h, dh_dp, dh_dT); }
Real SinglePhaseFluidProperties::h(Real p, Real T) const { return h_from_p_T(p, T); }
Real NaClFluidProperties::e_from_p_T(Real pressure, Real temperature) const { return h_from_p_T(pressure, temperature) - pressure / rho_from_p_T(pressure, temperature); }