82 return kappa_.
f(p, T);
88 return kappag_.
f(p, T);
94 return sigma_.
f(p, T);
106 return D_.
f(p, T, Wb);
scalar mug(scalar p, scalar T) const
Vapour viscosity [Pa s].
scalar kappa(scalar p, scalar T) const
Liquid thermal conductivity [W/m/K].
scalar mu(scalar p, scalar T) const
Liquid viscosity [Pa s].
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
scalar rho(scalar p, scalar T) const
Liquid density [kg/m^3].
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
scalar kappag(scalar p, scalar T) const
Vapour thermal conductivity [W/m/K].
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
void T(FieldField< Field, Type > &f1, const FieldField< Field, Type > &f2)
scalar h(scalar p, scalar T) const
Liquid enthalpy [J/kg].
scalar D(scalar p, scalar T) const
Vapour diffusivity [m^2/s].
scalar Cpg(scalar p, scalar T) const
Ideal gas heat capacity [J/kg/K].
scalar pv(scalar p, scalar T) const
Vapour pressure [Pa].
scalar f(scalar, scalar T) const
Evaluate the function and return the result.
scalar f(scalar p, scalar T) const
API vapour mass diffusivity function using properties from.
scalar sigma(scalar p, scalar T) const
Surface tension [N/m].
scalar hl(scalar p, scalar T) const
Heat of vapourisation [J/kg].
scalar B(scalar p, scalar T) const
Second Virial Coefficient [m^3/kg].
scalar Cp(scalar p, scalar T) const
Liquid heat capacity [J/kg/K].