rhoConstI.H
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27 
28 #include "rhoConst.H"
29 
30 // * * * * * * * * * * * * * Private Member Functions * * * * * * * * * * * //
31 
32 template<class Specie>
33 inline Foam::rhoConst<Specie>::rhoConst
34 (
35  const Specie& sp,
36  const scalar rho
37 )
38 :
39  Specie(sp),
40  rho_(rho)
41 {}
42 
43 
44 // * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
45 
46 template<class Specie>
47 inline Foam::rhoConst<Specie>::rhoConst
48 (
49  const word& name,
50  const rhoConst<Specie>& ico
51 )
52 :
53  Specie(name, ico),
54  rho_(ico.rho_)
55 {}
56 
57 
58 template<class Specie>
59 inline Foam::autoPtr<Foam::rhoConst<Specie>>
60 Foam::rhoConst<Specie>::clone() const
61 {
62  return autoPtr<rhoConst<Specie>>::New(*this);
63 }
64 
65 
66 // * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
67 
68 template<class Specie>
69 inline Foam::scalar Foam::rhoConst<Specie>::rho(scalar p, scalar T) const
70 {
71  return rho_;
72 }
73 
74 
75 template<class Specie>
76 inline Foam::scalar Foam::rhoConst<Specie>::H(scalar p, scalar T) const
77 {
78  return 0;
79 }
80 
81 
82 template<class Specie>
83 inline Foam::scalar Foam::rhoConst<Specie>::Cp(scalar p, scalar T) const
84 {
85  return 0;
86 }
87 
88 
89 template<class Specie>
90 inline Foam::scalar Foam::rhoConst<Specie>::E(scalar p, scalar T) const
91 {
92  return 0;
93 }
94 
95 
96 template<class Specie>
97 inline Foam::scalar Foam::rhoConst<Specie>::Cv(scalar p, scalar T) const
98 {
99  return 0;
100 }
101 
102 
103 template<class Specie>
104 inline Foam::scalar Foam::rhoConst<Specie>::S(scalar p, scalar T) const
105 {
106  return 0;
107 }
108 
109 
110 template<class Specie>
111 inline Foam::scalar Foam::rhoConst<Specie>::psi(scalar p, scalar T) const
112 {
113  return 0;
114 }
115 
116 
117 template<class Specie>
118 inline Foam::scalar Foam::rhoConst<Specie>::Z(scalar p, scalar T) const
119 {
120  return 0;
121 }
122 
123 
124 template<class Specie>
125 inline Foam::scalar Foam::rhoConst<Specie>::CpMCv(scalar p, scalar T) const
126 {
127  return 0;
128 }
129 
130 
131 // * * * * * * * * * * * * * * * Member Operators * * * * * * * * * * * * * //
132 
133 template<class Specie>
134 inline void Foam::rhoConst<Specie>::operator+=(const rhoConst<Specie>& ico)
135 {
136  scalar Y1 = this->Y();
137  Specie::operator+=(ico);
138 
139  if (mag(this->Y()) > SMALL)
140  {
141  Y1 /= this->Y();
142  const scalar Y2 = ico.Y()/this->Y();
143 
144  rho_ = Y1*rho_ + Y2*ico.rho_;
145  }
146 }
147 
148 
149 template<class Specie>
150 inline void Foam::rhoConst<Specie>::operator*=(const scalar s)
151 {
152  Specie::operator*=(s);
153 }
154 
155 
156 // * * * * * * * * * * * * * * * Friend Operators * * * * * * * * * * * * * //
157 
158 template<class Specie>
159 inline Foam::rhoConst<Specie> Foam::operator+
160 (
161  const rhoConst<Specie>& ico1,
162  const rhoConst<Specie>& ico2
163 )
164 {
165  Specie sp
166  (
167  static_cast<const Specie&>(ico1)
168  + static_cast<const Specie&>(ico2)
169  );
170 
171  if (mag(sp.Y()) < SMALL)
172  {
173  return rhoConst<Specie>
174  (
175  sp,
176  ico1.rho_
177  );
178  }
179  else
180  {
181  const scalar Y1 = ico1.Y()/sp.Y();
182  const scalar Y2 = ico2.Y()/sp.Y();
183 
184  return rhoConst<Specie>
185  (
186  sp,
187  Y1*ico1.rho_ + Y2*ico2.rho_
188  );
189  }
190 }
191 
192 
193 template<class Specie>
194 inline Foam::rhoConst<Specie> Foam::operator*
195 (
196  const scalar s,
197  const rhoConst<Specie>& ico
198 )
199 {
200  return rhoConst<Specie>(s*static_cast<const Specie&>(ico), ico.rho_);
201 }
202 
203 
204 template<class Specie>
205 inline Foam::rhoConst<Specie> Foam::operator==
206 (
207  const rhoConst<Specie>& ico1,
208  const rhoConst<Specie>& ico2
209 )
210 {
211  Specie sp
212  (
213  static_cast<const Specie&>(ico1)
214  == static_cast<const Specie&>(ico2)
215  );
216 
217  const scalar Y1 = ico1.Y()/sp.Y();
218  const scalar Y2 = ico2.Y()/sp.Y();
219 
220  return rhoConst<Specie>
221  (
222  sp,
223  Y2*ico2.rho_ - Y1*ico1.rho_
224  );
225 }
226 
227 
228 // ************************************************************************* //
Foam::rhoConst::operator+=
void operator+=(const rhoConst &)
Definition: rhoConstI.H:127
Foam::rhoConst::E
scalar E(const scalar p, const scalar T) const
Return internal energy departure [J/kg].
Definition: rhoConstI.H:83
Foam::mag
dimensioned< typename typeOfMag< Type >::type > mag(const dimensioned< Type > &dt)
Foam::rhoConst::psi
scalar psi(scalar p, scalar T) const
Return compressibility rho/p [s^2/m^2].
Definition: rhoConstI.H:104
Foam::rhoConst::H
scalar H(const scalar p, const scalar T) const
Return enthalpy departure [J/kg].
Definition: rhoConstI.H:69
Foam::rhoConst::Z
scalar Z(scalar p, scalar T) const
Return compression factor [].
Definition: rhoConstI.H:111
Foam::New
tmp< DimensionedField< TypeR, GeoMesh > > New(const tmp< DimensionedField< TypeR, GeoMesh >> &tf1, const word &name, const dimensionSet &dimensions, const bool initCopy=false)
Global function forwards to reuseTmpDimensionedField::New.
Definition: DimensionedFieldReuseFunctions.H:124
Foam::rhoConst::rhoConst
rhoConst(const Specie &sp, const scalar rho)
Construct from components.
Definition: rhoConstI.H:27
Foam::rhoConst::CpMCv
scalar CpMCv(scalar p, scalar T) const
Return (Cp - Cv) [J/(kg K].
Definition: rhoConstI.H:118
Foam::rhoConst::S
scalar S(const scalar p, const scalar T) const
Return entropy [J/(kg K)].
Definition: rhoConstI.H:97
Foam::rhoConst::Cp
scalar Cp(scalar p, scalar T) const
Return Cp departure [J/(kg K].
Definition: rhoConstI.H:76
Foam::rhoConst::rho
scalar rho(scalar p, scalar T) const
Return density [kg/m^3].
Definition: rhoConstI.H:62
Foam::name
word name(const expressions::valueTypeCode typeCode)
A word representation of a valueTypeCode. Empty for expressions::valueTypeCode::INVALID.
Definition: exprTraits.C:127
Foam::word
A class for handling words, derived from Foam::string.
Definition: word.H:63
Foam::rhoConst::Cv
scalar Cv(scalar p, scalar T) const
Return Cv departure [J/(kg K].
Definition: rhoConstI.H:90
Foam::T
void T(FieldField< Field, Type > &f1, const FieldField< Field, Type > &f2)
Definition: FieldFieldFunctions.C:53
Foam::rhoConst::clone
autoPtr< rhoConst > clone() const
Construct and return a clone.
Definition: rhoConstI.H:53
Y
PtrList< volScalarField > & Y
Definition: createFieldRefs.H:7
Foam::rhoConst::operator*=
void operator*=(const scalar)
Definition: rhoConstI.H:143
Foam::autoPtr
Pointer management similar to std::unique_ptr, with some additional methods and type checking...
Definition: HashPtrTable.H:48
Foam::rhoConst
RhoConst (rho = const) of state.
Definition: rhoConst.H:48
p
volScalarField & p
Definition: createFieldRefs.H:8
s
gmvFile<< "tracers "<< particles.size()<< nl;for(const passiveParticle &p :particles){ gmvFile<< p.position().x()<< " ";}gmvFile<< nl;for(const passiveParticle &p :particles){ gmvFile<< p.position().y()<< " ";}gmvFile<< nl;for(const passiveParticle &p :particles){ gmvFile<< p.position().z()<< " ";}gmvFile<< nl;forAll(lagrangianScalarNames, i){ word name=lagrangianScalarNames[i];IOField< scalar > s(IOobject(name, runTime.timeName(), cloud::prefix, mesh, IOobject::MUST_READ, IOobject::NO_WRITE))
Definition: gmvOutputSpray.H:25