bC10H7CH3I.H
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25 
26 inline Foam::scalar Foam::bC10H7CH3::rho(scalar p, scalar T) const
27 {
28  return rho_.value(T);
29 }
30 
31 
32 inline Foam::scalar Foam::bC10H7CH3::pv(scalar p, scalar T) const
33 {
34  return pv_.value(T);
35 }
36 
37 
38 inline Foam::scalar Foam::bC10H7CH3::hl(scalar p, scalar T) const
39 {
40  return hl_.value(T);
41 }
42 
43 
44 inline Foam::scalar Foam::bC10H7CH3::Cp(scalar p, scalar T) const
45 {
46  return Cp_.value(T);
47 }
48 
49 
50 inline Foam::scalar Foam::bC10H7CH3::hs(scalar p, scalar T) const
51 {
52  return ha(p, T) - hf();
53 }
54 
55 
56 inline Foam::scalar Foam::bC10H7CH3::hf() const
57 {
58  return hf_;
59 }
60 
61 
62 inline Foam::scalar Foam::bC10H7CH3::ha(scalar p, scalar T) const
63 {
64  return h_.value(T);
65 }
66 
67 
68 
69 inline Foam::scalar Foam::bC10H7CH3::Cpg(scalar p, scalar T) const
70 {
71  return Cpg_.value(T);
72 }
73 
74 
75 inline Foam::scalar Foam::bC10H7CH3::B(scalar p, scalar T) const
76 {
77  return B_.value(T);
78 }
79 
80 
81 inline Foam::scalar Foam::bC10H7CH3::mu(scalar p, scalar T) const
82 {
83  return mu_.value(T);
84 }
85 
86 
87 inline Foam::scalar Foam::bC10H7CH3::mug(scalar p, scalar T) const
88 {
89  return mug_.value(T);
90 }
91 
92 
93 inline Foam::scalar Foam::bC10H7CH3::kappa(scalar p, scalar T) const
94 {
95  return kappa_.value(T);
96 }
97 
98 
99 inline Foam::scalar Foam::bC10H7CH3::kappag(scalar p, scalar T) const
100 {
101  return kappag_.value(T);
102 }
103 
104 
105 inline Foam::scalar Foam::bC10H7CH3::sigma(scalar p, scalar T) const
106 {
107  return sigma_.value(T);
108 }
109 
110 
111 inline Foam::scalar Foam::bC10H7CH3::D(scalar p, scalar T) const
112 {
113  return D_.value(p, T);
114 }
115 
116 
117 inline Foam::scalar Foam::bC10H7CH3::D(scalar p, scalar T, scalar Wb) const
118 {
119  return D_.value(p, T, Wb);
120 }
121 
122 
123 // ************************************************************************* //
scalar ha(const scalar p, const scalar T) const
Definition: EtoHthermo.H:20
virtual scalar value(scalar T) const
Evaluate the function and return the result.
Definition: NSRDS5.H:115
scalar B(scalar p, scalar T) const
Second Virial Coefficient [m^3/kg].
Definition: bC10H7CH3I.H:75
scalar D(scalar p, scalar T) const
Vapour diffusivity [m^2/s].
Definition: bC10H7CH3I.H:111
scalar mu(scalar p, scalar T) const
Liquid viscosity [Pa s].
Definition: bC10H7CH3I.H:81
scalar Cpg(scalar p, scalar T) const
Ideal gas heat capacity [J/kg/K].
Definition: bC10H7CH3I.H:69
scalar rho(scalar p, scalar T) const
Liquid density [kg/m^3].
Definition: bC10H7CH3I.H:26
scalar sigma(scalar p, scalar T) const
Surface tension [N/m].
Definition: bC10H7CH3I.H:105
scalar kappa(scalar p, scalar T) const
Liquid thermal conductivity [W/m/K].
Definition: bC10H7CH3I.H:93
scalar Cp(scalar p, scalar T) const
Liquid heat capacity [J/kg/K].
Definition: bC10H7CH3I.H:44
scalar hf() const
Liquid heat of formation [J/kg].
Definition: bC10H7CH3I.H:56
scalar hs(scalar p, scalar T) const
Liquid sensible enthalpy [J/kg].
Definition: bC10H7CH3I.H:50
scalar mug(scalar p, scalar T) const
Vapour viscosity [Pa s].
Definition: bC10H7CH3I.H:87
scalar pv(scalar p, scalar T) const
Vapour pressure [Pa].
Definition: bC10H7CH3I.H:32
scalar ha(scalar p, scalar T) const
Liquid absolute enthalpy [J/kg].
Definition: bC10H7CH3I.H:62
scalar hl(scalar p, scalar T) const
Heat of vapourisation [J/kg].
Definition: bC10H7CH3I.H:38
scalar kappag(scalar p, scalar T) const
Vapour thermal conductivity [W/m/K].
Definition: bC10H7CH3I.H:99
void T(FieldField< Field, Type > &f1, const FieldField< Field, Type > &f2)
volScalarField & p