mixedEnergyFvPatchScalarField.C
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25 
28 #include "fvPatchFieldMapper.H"
29 #include "volFields.H"
30 #include "basicThermo.H"
31 
32 
33 // * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
34 
37 (
38  const fvPatch& p,
40 )
41 :
42  mixedFvPatchScalarField(p, iF)
43 {
44  valueFraction() = 0.0;
45  refValue() = 0.0;
46  refGrad() = 0.0;
47 }
48 
49 
52 (
54  const fvPatch& p,
56  const fvPatchFieldMapper& mapper
57 )
58 :
59  mixedFvPatchScalarField(ptf, p, iF, mapper)
60 {}
61 
62 
65 (
66  const fvPatch& p,
68  const dictionary& dict
69 )
70 :
71  mixedFvPatchScalarField(p, iF, dict)
72 {}
73 
74 
77 (
79 )
80 :
81  mixedFvPatchScalarField(tppsf)
82 {}
83 
84 
87 (
88  const mixedEnergyFvPatchScalarField& tppsf,
90 )
91 :
92  mixedFvPatchScalarField(tppsf, iF)
93 {}
94 
95 
96 // * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
97 
99 {
100  if (updated())
101  {
102  return;
103  }
104 
106  const label patchi = patch().index();
107 
108  const scalarField& pw = thermo.p().boundaryField()[patchi];
109  mixedFvPatchScalarField& Tw = refCast<mixedFvPatchScalarField>
110  (
111  const_cast<fvPatchScalarField&>(thermo.T().boundaryField()[patchi])
112  );
113 
114  Tw.evaluate();
115 
116  valueFraction() = Tw.valueFraction();
117  refValue() = thermo.he(pw, Tw.refValue(), patchi);
118  refGrad() =
119  thermo.Cpv(pw, Tw, patchi)*Tw.refGrad()
120  + patch().deltaCoeffs()*
121  (
122  thermo.he(pw, Tw, patchi)
123  - thermo.he(pw, Tw, patch().faceCells())
124  );
125 
126  mixedFvPatchScalarField::updateCoeffs();
127 }
128 
129 
130 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
131 
132 namespace Foam
133 {
135  (
138  );
139 }
140 
141 // ************************************************************************* //
intWM_LABEL_SIZE_t label
A label is an int32_t or int64_t as specified by the pre-processor macro WM_LABEL_SIZE.
Definition: label.H:59
Abstract base-class for fluid and solid thermodynamic properties.
Definition: basicThermo.H:52
A list of keyword definitions, which are a keyword followed by any number of values (e...
Definition: dictionary.H:137
const Boundary & boundaryField() const
Return const-reference to the boundary field.
A finiteVolume patch using a polyPatch and a fvBoundaryMesh.
Definition: fvPatch.H:61
Abstract base class with a fat-interface to all derived classes covering all possible ways in which t...
Definition: fvPatchField.H:66
mixedEnergyFvPatchScalarField(const fvPatch &, const DimensionedField< scalar, volMesh > &)
Construct from patch and internal field.
virtual const volScalarField & T() const
Temperature [K].
Definition: basicThermo.C:499
rhoReactionThermo & thermo
Definition: createFields.H:28
virtual tmp< volScalarField > Cpv() const =0
Heat capacity at constant pressure/volume [J/kg/K].
Macros for easy insertion into run-time selection tables.
virtual volScalarField & he()=0
Enthalpy/Internal energy [J/kg].
virtual volScalarField & p()
Pressure [Pa].
Definition: basicThermo.C:487
virtual void updateCoeffs()
Update the coefficients associated with the patch field.
Foam::fvPatchFieldMapper.
static Table::iterator lookupThermo(const dictionary &thermoTypeDict, Table *tablePtr, const int nCmpt, const char *cmptNames[], const word &thermoTypeName)
Generic lookup for thermodynamics package thermoTypeName.
This boundary condition provides a mixed condition for internal energy.
label patchi
Field with dimensions and associated with geometry type GeoMesh which is used to size the field and a...
makePatchTypeField(fvPatchScalarField, atmBoundaryLayerInletEpsilonFvPatchScalarField)
Namespace for OpenFOAM.