PurePhaseModel.C
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27
28#include "PurePhaseModel.H"
29#include "phaseSystem.H"
30
31// * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
32
33template<class BasePhaseModel>
34Foam::PurePhaseModel<BasePhaseModel>::PurePhaseModel
35(
36 const phaseSystem& fluid,
37 const word& phaseName,
38 const label index
39)
40:
41 BasePhaseModel(fluid, phaseName, index)
42{}
43
44
45// * * * * * * * * * * * * * * * * Destructor * * * * * * * * * * * * * * * //
46
47template<class BasePhaseModel>
48Foam::PurePhaseModel<BasePhaseModel>::~PurePhaseModel()
49{}
50
51
52// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
53
54template<class BasePhaseModel>
55bool Foam::PurePhaseModel<BasePhaseModel>::pure() const
56{
57 return true;
58}
59
60
61template<class BasePhaseModel>
62Foam::tmp<Foam::fvScalarMatrix>
63Foam::PurePhaseModel<BasePhaseModel>::YiEqn(volScalarField& Yi)
64{
65 FatalErrorInFunction
66 << "Cannot construct a species fraction equation for a pure phase"
67 << exit(FatalError);
68
69 return tmp<fvScalarMatrix>();
70}
71
72
73template<class BasePhaseModel>
74const Foam::PtrList<Foam::volScalarField>&
75Foam::PurePhaseModel<BasePhaseModel>::Y() const
76{
77 // Y_ has never been set, so we are returning an empty list
78
79 return Y_;
80}
81
82
83template<class BasePhaseModel>
84const Foam::volScalarField&
85Foam::PurePhaseModel<BasePhaseModel>::Y(const word& name) const
86{
87 FatalErrorInFunction
88 << "Cannot get a species fraction by name from a pure phase"
89 << exit(FatalError);
90
91 return NullObjectRef<volScalarField>();
92}
93
94
95template<class BasePhaseModel>
96Foam::PtrList<Foam::volScalarField>&
97Foam::PurePhaseModel<BasePhaseModel>::YRef()
98{
99 FatalErrorInFunction
100 << "Cannot access the species fractions of for a pure phase"
101 << exit(FatalError);
102
103 return Y_;
104}
105
106
107template<class BasePhaseModel>
108const Foam::UPtrList<Foam::volScalarField>&
109Foam::PurePhaseModel<BasePhaseModel>::YActive() const
110{
111 // Y_ has never been set, so we are returning an empty list
112
113 return Y_;
114}
115
116
117template<class BasePhaseModel>
118Foam::UPtrList<Foam::volScalarField>&
119Foam::PurePhaseModel<BasePhaseModel>::YActiveRef()
120{
121 FatalErrorInFunction
122 << "Cannot access the species fractions of for a pure phase"
123 << exit(FatalError);
124
125 return Y_;
126}
127
128
129// ************************************************************************* //
fluid
twoPhaseSystem & fluid
Definition: setRegionFluidFields.H:3
Foam::PtrList
A list of pointers to objects of type <T>, with allocation/deallocation management of the pointers....
Definition: PtrList.H:73
Foam::PurePhaseModel
Class which represents pure phases, i.e. without any species. Returns an empty list of mass fractions...
Definition: PurePhaseModel.H:59
Foam::PurePhaseModel::~PurePhaseModel
virtual ~PurePhaseModel()=default
Destructor.
Definition: PurePhaseModel.C:48
Foam::PurePhaseModel::YActive
virtual const UPtrList< volScalarField > & YActive() const
Return the active species mass fractions.
Definition: PurePhaseModel.C:109
Foam::PurePhaseModel::YRef
virtual PtrList< volScalarField > & YRef()
Access the species mass fractions.
Definition: PurePhaseModel.C:97
Foam::PurePhaseModel::YiEqn
virtual tmp< fvScalarMatrix > YiEqn(volScalarField &Yi)
Return the species fraction equation.
Definition: PurePhaseModel.C:63
Foam::PurePhaseModel::pure
virtual bool pure() const
Return whether the phase is pure (i.e., not multi-component)
Definition: PurePhaseModel.C:55
Foam::PurePhaseModel::YActiveRef
virtual UPtrList< volScalarField > & YActiveRef()
Access the active species mass fractions.
Definition: PurePhaseModel.C:119
Foam::PurePhaseModel::Y
virtual const PtrList< volScalarField > & Y() const
Return the species mass fractions.
Definition: PurePhaseModel.C:71
Foam::UPtrList
A list of pointers to objects of type <T>, without allocation/deallocation management of the pointers...
Definition: UPtrList.H:71
Foam::phaseSystem
Class to represent a system of phases and model interfacial transfers between them.
Definition: phaseSystem.H:76
Foam::tmp
A class for managing temporary objects.
Definition: tmp.H:65
Foam::word
A class for handling words, derived from Foam::string.
Definition: word.H:68
FatalErrorInFunction
#define FatalErrorInFunction
Report an error message using Foam::FatalError.
Definition: error.H:453
Foam::FatalError
error FatalError
Foam::name
word name(const expressions::valueTypeCode typeCode)
A word representation of a valueTypeCode. Empty for INVALID.
Definition: exprTraits.C:59
Foam::exit
errorManipArg< error, int > exit(error &err, const int errNo=1)
Definition: errorManip.H:130