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P1.C
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24 \*---------------------------------------------------------------------------*/
25 
26 #include "P1.H"
27 #include "fvmLaplacian.H"
28 #include "fvmSup.H"
30 #include "scatterModel.H"
31 #include "constants.H"
33 
34 using namespace Foam::constant;
35 
36 // * * * * * * * * * * * * * * Static Data Members * * * * * * * * * * * * * //
37 
38 namespace Foam
39 {
40 namespace radiationModels
41 {
44 }
45 }
46 
47 
48 // * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
49 
51 :
52  radiationModel(typeName, T),
53  G_
54  (
55  IOobject
56  (
57  "G",
58  mesh_.time().timeName(),
59  mesh_,
60  IOobject::MUST_READ,
61  IOobject::AUTO_WRITE
62  ),
63  mesh_
64  ),
65  qr_
66  (
67  IOobject
68  (
69  "qr",
70  mesh_.time().timeName(),
71  mesh_,
72  IOobject::NO_READ,
73  IOobject::AUTO_WRITE
74  ),
75  mesh_,
77  ),
78  a_
79  (
80  IOobject
81  (
82  "a",
83  mesh_.time().timeName(),
84  mesh_,
85  IOobject::NO_READ,
86  IOobject::AUTO_WRITE
87  ),
88  mesh_,
90  ),
91  e_
92  (
93  IOobject
94  (
95  "e",
96  mesh_.time().timeName(),
97  mesh_,
98  IOobject::NO_READ,
99  IOobject::NO_WRITE
100  ),
101  mesh_,
103  ),
104  E_
105  (
106  IOobject
107  (
108  "E",
109  mesh_.time().timeName(),
110  mesh_,
111  IOobject::NO_READ,
112  IOobject::NO_WRITE
113  ),
114  mesh_,
116  )
117 {}
118 
119 
121 :
122  radiationModel(typeName, dict, T),
123  G_
124  (
125  IOobject
126  (
127  "G",
128  mesh_.time().timeName(),
129  mesh_,
132  ),
133  mesh_
134  ),
135  qr_
136  (
137  IOobject
138  (
139  "qr",
140  mesh_.time().timeName(),
141  mesh_,
142  IOobject::NO_READ,
144  ),
145  mesh_,
147  ),
148  a_
149  (
150  IOobject
151  (
152  "a",
153  mesh_.time().timeName(),
154  mesh_,
155  IOobject::NO_READ,
157  ),
158  mesh_,
160  ),
161  e_
162  (
163  IOobject
164  (
165  "e",
166  mesh_.time().timeName(),
167  mesh_,
168  IOobject::NO_READ,
170  ),
171  mesh_,
173  ),
174  E_
175  (
176  IOobject
177  (
178  "E",
179  mesh_.time().timeName(),
180  mesh_,
181  IOobject::NO_READ,
183  ),
184  mesh_,
186  )
187 {}
188 
189 
190 // * * * * * * * * * * * * * * * * Destructor * * * * * * * * * * * * * * * //
191 
193 {}
194 
195 
196 // * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
197 
199 {
200  if (radiationModel::read())
201  {
202  // nothing to read
203 
204  return true;
205  }
206  else
207  {
208  return false;
209  }
210 }
211 
212 
214 {
215  a_ = absorptionEmission_->a();
216  e_ = absorptionEmission_->e();
217  E_ = absorptionEmission_->E();
218  const volScalarField sigmaEff(scatter_->sigmaEff());
219 
220  const dimensionedScalar a0 ("a0", a_.dimensions(), rootVSmall);
221 
222  // Construct diffusion
223  const volScalarField gamma
224  (
225  IOobject
226  (
227  "gammaRad",
228  G_.mesh().time().timeName(),
229  G_.mesh(),
232  ),
233  1.0/(3.0*a_ + sigmaEff + a0)
234  );
235 
236  // Solve G transport equation
237  solve
238  (
239  fvm::laplacian(gamma, G_)
240  - fvm::Sp(a_, G_)
241  ==
242  - 4.0*(e_*physicoChemical::sigma*pow4(T_) ) - E_
243  );
244 
245  volScalarField::Boundary& qrBf = qr_.boundaryFieldRef();
246 
247  // Calculate radiative heat flux on boundaries.
249  {
250  if (!G_.boundaryField()[patchi].coupled())
251  {
252  qrBf[patchi] =
253  -gamma.boundaryField()[patchi]
254  *G_.boundaryField()[patchi].snGrad();
255  }
256  }
257 }
258 
259 
261 {
262  return volScalarField::New
263  (
264  "Rp",
266  );
267 }
268 
269 
272 {
273  const volScalarField::Internal& G =
274  G_();
275  const volScalarField::Internal E =
276  absorptionEmission_->ECont()()();
277  const volScalarField::Internal a =
278  absorptionEmission_->aCont()()();
279 
280  return a*G - E;
281 }
282 
283 
284 // ************************************************************************* //
Collection of constants.
const polyBoundaryMesh & boundaryMesh() const
Return boundary mesh.
Definition: polyMesh.H:434
dictionary dict
autoPtr< radiationModels::scatterModel > scatter_
Scatter model.
#define forAll(list, i)
Loop across all elements in list.
Definition: UList.H:434
A list of keyword definitions, which are a keyword followed by any number of values (e...
Definition: dictionary.H:158
const Boundary & boundaryField() const
Return const-reference to the boundary field.
const dimensionedScalar G
Newtonian constant of gravitation.
void calculate()
Solve radiation equation(s)
Definition: P1.C:213
const dimensionedScalar sigma
Stefan-Boltzmann constant: default SI units: [W/m^2/K^4].
virtual bool read()=0
Read radiationProperties dictionary.
Calculate the matrix for the laplacian of the field.
tmp< fvMatrix< Type > > Sp(const volScalarField::Internal &, const GeometricField< Type, fvPatchField, volMesh > &)
Macros for easy insertion into run-time selection tables.
static tmp< GeometricField< scalar, fvPatchField, volMesh > > New(const word &name, const Mesh &, const dimensionSet &, const word &patchFieldType=fvPatchField< scalar >::calculatedType())
Return a temporary field constructed from name, mesh, dimensionSet.
const volScalarField & T_
Reference to the temperature field.
const dimensionSet & dimensions() const
Return dimensions.
Top level model for radiation modelling.
word timeName
Definition: getTimeIndex.H:3
const Mesh & mesh() const
Return mesh.
defineTypeNameAndDebug(combustionModel, 0)
void T(FieldField< Field, Type > &f1, const FieldField< Field, Type > &f2)
dimensionedScalar pow3(const dimensionedScalar &ds)
label patchi
const dimensionSet dimless(0, 0, 0, 0, 0, 0, 0)
Definition: dimensionSets.H:47
Boundary & boundaryFieldRef()
Return a reference to the boundary field.
const dimensionSet dimLength(0, 1, 0, 0, 0, 0, 0)
Definition: dimensionSets.H:50
tmp< fvMatrix< Type > > laplacian(const GeometricField< Type, fvPatchField, volMesh > &vf, const word &name)
Definition: fvmLaplacian.C:46
const Time & time() const
Return time.
Definition: IOobject.C:360
virtual tmp< volScalarField > Rp() const
Source term component (for power of T^4)
Definition: P1.C:260
virtual ~P1()
Destructor.
Definition: P1.C:192
bool read()
Read radiation properties dictionary.
Definition: P1.C:198
Field with dimensions and associated with geometry type GeoMesh which is used to size the field and a...
dimensionedScalar pow4(const dimensionedScalar &ds)
const dimensionedScalar a0
Bohr radius: default SI units: [m].
const dimensionSet dimTime(0, 0, 1, 0, 0, 0, 0)
Definition: dimensionSets.H:51
virtual tmp< volScalarField::Internal > Ru() const
Source term component (constant)
Definition: P1.C:271
P1(const volScalarField &T)
Construct from components.
Definition: P1.C:50
SolverPerformance< Type > solve(fvMatrix< Type > &, const word &)
Solve returning the solution statistics given convergence tolerance.
const fvMesh & mesh_
Reference to the mesh database.
const dimensionSet dimMass(1, 0, 0, 0, 0, 0, 0)
Definition: dimensionSets.H:49
A class for managing temporary objects.
Definition: PtrList.H:53
IOobject defines the attributes of an object for which implicit objectRegistry management is supporte...
Definition: IOobject.H:92
#define addToRadiationRunTimeSelectionTables(model)
autoPtr< radiationModels::absorptionEmissionModel > absorptionEmission_
Absorption/emission model.
Calculate the matrix for implicit and explicit sources.
Namespace for OpenFOAM.