ReactingCloud.H
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9  Copyright (C) 2016 OpenCFD Ltd.
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26 
27 Class
28  Foam::ReactingCloud
29 
30 Group
31  grpLagrangianIntermediateClouds
32 
33 Description
34  Templated base class for reacting cloud
35 
36  - Adds to thermodynamic cloud
37  - Variable composition (single phase)
38  - Phase change
39 
40 SourceFiles
41  ReactingCloudI.H
42  ReactingCloud.C
43 
44 \*---------------------------------------------------------------------------*/
45 
46 #ifndef ReactingCloud_H
47 #define ReactingCloud_H
48 
49 #include "reactingCloud.H"
50 
51 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
52 
53 namespace Foam
54 {
55 
56 // Forward declaration of classes
57 
58 template<class CloudType>
59 class CompositionModel;
60 
61 template<class CloudType>
62 class PhaseChangeModel;
63 
64 /*---------------------------------------------------------------------------*\
65  Class ReactingCloud Declaration
66 \*---------------------------------------------------------------------------*/
67 
68 template<class CloudType>
69 class ReactingCloud
70 :
71  public CloudType,
72  public reactingCloud
73 {
74 public:
75 
76  // Public typedefs
77 
78  //- Type of cloud this cloud was instantiated for
79  typedef CloudType cloudType;
80 
81  //- Type of parcel the cloud was instantiated for
82  typedef typename CloudType::particleType parcelType;
83 
84  //- Convenience typedef for this cloud type
85  typedef ReactingCloud<CloudType> reactingCloudType;
86 
87 
88 private:
89 
90  // Private data
91 
92  //- Cloud copy pointer
93  autoPtr<ReactingCloud<CloudType>> cloudCopyPtr_;
94 
95 
96  // Private member functions
97 
98  //- No copy construct
99  ReactingCloud(const ReactingCloud&) = delete;
100 
101  //- No copy assignment
102  void operator=(const ReactingCloud&) = delete;
103 
104 
105 protected:
106 
107  // Protected data
108 
109  //- Parcel constant properties
110  typename parcelType::constantProperties constProps_;
111 
112 
113  // References to the cloud sub-models
114 
115  //- Reacting composition model
116  autoPtr<CompositionModel<ReactingCloud<CloudType>>>
117  compositionModel_;
118 
119  //- Reacting phase change model
120  autoPtr<PhaseChangeModel<ReactingCloud<CloudType>>>
121  phaseChangeModel_;
122 
123 
124  // Sources
125 
126  //- Mass transfer fields - one per carrier phase specie
127  PtrList<volScalarField::Internal> rhoTrans_;
128 
129 
130  // Protected Member Functions
131 
132  // New parcel helper functions
133 
134  //- Check that size of a composition field is valid
135  void checkSuppliedComposition
136  (
137  const scalarField& YSupplied,
138  const scalarField& Y,
139  const word& YName
140  );
141 
142 
143  // Initialisation
144 
145  //- Set cloud sub-models
146  void setModels();
147 
148 
149  // Cloud evolution functions
150 
151  //- Reset state of cloud
152  void cloudReset(ReactingCloud<CloudType>& c);
153 
154 
155 public:
156 
157  // Constructors
158 
159  //- Construct given carrier gas fields
160  ReactingCloud
161  (
162  const word& cloudName,
163  const volScalarField& rho,
164  const volVectorField& U,
165  const dimensionedVector& g,
166  const SLGThermo& thermo,
167  bool readFields = true
168  );
169 
170  //- Copy constructor with new name
171  ReactingCloud(ReactingCloud<CloudType>& c, const word& name);
172 
173  //- Copy constructor with new name - creates bare cloud
174  ReactingCloud
175  (
176  const fvMesh& mesh,
177  const word& name,
178  const ReactingCloud<CloudType>& c
179  );
180 
181  //- Construct and return clone based on (this) with new name
182  virtual autoPtr<Cloud<parcelType>> clone(const word& name)
183  {
184  return autoPtr<Cloud<parcelType>>
185  (
186  new ReactingCloud(*this, name)
187  );
188  }
189 
190  //- Construct and return bare clone based on (this) with new name
191  virtual autoPtr<Cloud<parcelType>> cloneBare(const word& name) const
192  {
193  return autoPtr<Cloud<parcelType>>
194  (
195  new ReactingCloud(this->mesh(), name, *this)
196  );
197  }
198 
199 
200  //- Destructor
201  virtual ~ReactingCloud() = default;
202 
203 
204  // Member Functions
205 
206  // Access
207 
208  //- Return a reference to the cloud copy
209  inline const ReactingCloud& cloudCopy() const;
210 
211  //- Return the constant properties
212  inline const typename parcelType::constantProperties&
213  constProps() const;
214 
215  //- Return access to the constant properties
216  inline typename parcelType::constantProperties& constProps();
217 
218 
219  // Sub-models
220 
221  //- Return const access to reacting composition model
222  inline const CompositionModel<ReactingCloud<CloudType>>&
223  composition() const;
224 
225  //- Return const access to reacting phase change model
226  inline const PhaseChangeModel<ReactingCloud<CloudType>>&
227  phaseChange() const;
228 
229  //- Return reference to reacting phase change model
230  inline PhaseChangeModel<ReactingCloud<CloudType>>&
231  phaseChange();
232 
233 
234  // Sources
235 
236  //- Transfer the effect of parcel to the carrier phase
237  inline void transferToCarrier
238  (
239  const parcelType& p,
240  const typename parcelType::trackingData& td
241  );
242 
243 
244  // Mass
245 
246  //- Return reference to mass source for field i
247  inline volScalarField::Internal&
248  rhoTrans(const label i);
249 
250  //- Return const access to mass source fields
251  inline const PtrList<volScalarField::Internal>&
252  rhoTrans() const;
253 
254  //- Return reference to mass source fields
255  inline PtrList<volScalarField::Internal>&
256  rhoTrans();
257 
258  //- Return mass source term for specie i - specie eqn
259  inline tmp<fvScalarMatrix> SYi
260  (
261  const label i,
262  volScalarField& Yi
263  ) const;
264 
265  //- Return tmp mass source for field i - fully explicit
266  inline tmp<volScalarField::Internal>
267  Srho(const label i) const;
268 
269  //- Return tmp total mass source for carrier phase
270  // - fully explicit
271  inline tmp<volScalarField::Internal> Srho() const;
272 
273  //- Return total mass source term [kg/m3/s]
274  inline tmp<fvScalarMatrix> Srho(volScalarField& rho) const;
275 
276 
277  // Cloud evolution functions
278 
279  //- Set parcel thermo properties
280  void setParcelThermoProperties
281  (
282  parcelType& parcel,
283  const scalar lagrangianDt
284  );
285 
286  //- Check parcel properties
287  void checkParcelProperties
288  (
289  parcelType& parcel,
290  const scalar lagrangianDt,
291  const bool fullyDescribed
292  );
293 
294  //- Store the current cloud state
295  void storeState();
296 
297  //- Reset the current cloud to the previously stored state
298  void restoreState();
299 
300  //- Reset the cloud source terms
301  void resetSourceTerms();
302 
303  //- Apply relaxation to (steady state) cloud sources
304  void relaxSources(const ReactingCloud<CloudType>& cloudOldTime);
305 
306  //- Apply scaling to (transient) cloud sources
307  void scaleSources();
308 
309  //- Evolve the cloud
310  void evolve();
311 
312 
313  // Mapping
314 
315  //- Remap the cells of particles corresponding to the
316  // mesh topology change with a default tracking data object
317  virtual void autoMap(const mapPolyMesh&);
318 
319 
320  // I-O
321 
322  //- Print cloud information
323  void info();
324 
325  //- Write the field data for the cloud
326  virtual void writeFields() const;
327 
328  //- Write particle fields as objects into the obr registry
329  virtual void writeObjects(objectRegistry& obr) const;
330 };
331 
332 
333 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
334 
335 } // End namespace Foam
336 
337 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
338 
339 #include "ReactingCloudI.H"
340 
341 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
342 
343 #ifdef NoRepository
344  #include "ReactingCloud.C"
345 #endif
346 
347 // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
348 
349 #endif
350 
351 // ************************************************************************* //
Foam::Cloud< ParcelType >::particleType
ParcelType particleType
Definition: Cloud.H:130
Foam::ReactingCloud::resetSourceTerms
void resetSourceTerms()
Reset the cloud source terms.
Definition: ReactingCloud.C:262
Foam::ReactingCloud::writeObjects
virtual void writeObjects(objectRegistry &obr) const
Write particle fields as objects into the obr registry.
Definition: ReactingCloud.C:347
Foam::IOobject::clone
autoPtr< IOobject > clone() const
Clone.
Definition: IOobject.H:621
Foam::PhaseChangeModel
Templated phase change model class.
Definition: ReactingCloud.H:57
Foam::ReactingCloud::storeState
void storeState()
Store the current cloud state.
Definition: ReactingCloud.C:241
Foam::ReactingCloud::constProps_
parcelType::constantProperties constProps_
Parcel constant properties.
Definition: ReactingCloud.H:119
Foam::DSMCCloud::cloudName
const word & cloudName() const
Return the cloud type.
Definition: DSMCCloudI.H:30
Foam::IOobject::name
const word & name() const noexcept
Return the object name.
Definition: IOobjectI.H:195
Foam::ReactingCloud::rhoTrans
const PtrList< volScalarField::Internal > & rhoTrans() const
Return const access to mass source fields.
Definition: ReactingCloudI.H:115
Foam::ReactingCloud::setParcelThermoProperties
void setParcelThermoProperties(parcelType &parcel, const scalar lagrangianDt)
Set parcel thermo properties.
Definition: ReactingCloud.C:204
Foam::ReactingCloud::restoreState
void restoreState()
Reset the current cloud to the previously stored state.
Definition: ReactingCloud.C:254
Foam::reactingCloud
Virtual abstract base class for templated ReactingCloud.
Definition: reactingCloud.H:46
Foam::ReactingCloud::setModels
void setModels()
Set cloud sub-models.
Definition: ReactingCloud.C:29
Foam::ReactingCloud::transferToCarrier
void transferToCarrier(const parcelType &p, const typename parcelType::trackingData &td)
Transfer the effect of parcel to the carrier phase.
Definition: ReactingCloudI.H:73
Foam::ReactingCloud::Srho
tmp< volScalarField::Internal > Srho() const
Return tmp total mass source for carrier phase.
Definition: ReactingCloudI.H:221
Foam::ReactingCloud::writeFields
virtual void writeFields() const
Write the field data for the cloud.
Definition: ReactingCloud.C:337
Foam::mapPolyMesh
Class containing mesh-to-mesh mapping information after a change in polyMesh topology.
Definition: mapPolyMesh.H:157
Foam::ReactingCloud::evolve
void evolve()
Evolve the cloud.
Definition: ReactingCloud.C:307
Foam::ReactingCloud::cloudCopy
const ReactingCloud & cloudCopy() const
Return a reference to the cloud copy.
Definition: ReactingCloudI.H:25
Foam::ReactingCloud::cloneBare
virtual autoPtr< Cloud< parcelType > > cloneBare(const word &name) const
Construct and return bare clone based on (this) with new name.
Definition: ReactingCloud.H:222
Foam::readFields
void readFields(const typename GeoFieldType::Mesh &mesh, const IOobjectList &objects, const NameMatchPredicate &selectedFields, DynamicList< regIOobject *> &storedObjects)
Read the selected GeometricFields of the templated type and store on the objectRegistry.
Definition: ReadFieldsTemplates.C:307
Foam::word
A class for handling words, derived from Foam::string.
Definition: word.H:63
Foam::ReactingCloud::phaseChangeModel_
autoPtr< PhaseChangeModel< ReactingCloud< CloudType > > > phaseChangeModel_
Reacting phase change model.
Definition: ReactingCloud.H:134
Foam::ReactingCloud::constProps
const parcelType::constantProperties & constProps() const
Return the constant properties.
Definition: ReactingCloudI.H:33
Foam::SLGThermo
Thermo package for (S)olids (L)iquids and (G)ases Takes reference to thermo package, and provides:
Definition: SLGThermo.H:60
Foam::ReactingCloud::checkParcelProperties
void checkParcelProperties(parcelType &parcel, const scalar lagrangianDt, const bool fullyDescribed)
Check parcel properties.
Definition: ReactingCloud.C:217
Foam::thermo
Basic thermodynamics type based on the use of fitting functions for cp, h, s obtained from the templa...
Foam::DSMCCloud::parcelType
ParcelType parcelType
Type of parcel the cloud was instantiated for.
Definition: DSMCCloud.H:290
g
const uniformDimensionedVectorField & g
Definition: createFluidFields.H:26
Foam::ReactingCloud::compositionModel_
autoPtr< CompositionModel< ReactingCloud< CloudType > > > compositionModel_
Reacting composition model.
Definition: ReactingCloud.H:128
Foam::ReactingCloud::cloudType
CloudType cloudType
Type of cloud this cloud was instantiated for.
Definition: ReactingCloud.H:76
Foam::ReactingCloud::autoMap
virtual void autoMap(const mapPolyMesh &)
Remap the cells of particles corresponding to the.
Definition: ReactingCloud.C:319
Foam::ReactingCloud::scaleSources
void scaleSources()
Apply scaling to (transient) cloud sources.
Definition: ReactingCloud.C:292
Foam::DSMCCloud::mesh
const fvMesh & mesh() const
Return reference to the mesh.
Definition: DSMCCloudI.H:37
Foam::ReactingCloud
Templated base class for reacting cloud.
Definition: ReactingCloud.H:64
U
U
Definition: pEqn.H:72
Foam::PtrList
A list of pointers to objects of type <T>, with allocation/deallocation management of the pointers...
Definition: List.H:55
Y
PtrList< volScalarField > & Y
Definition: createFieldRefs.H:7
Foam::fvMesh
Mesh data needed to do the Finite Volume discretisation.
Definition: fvMesh.H:78
Foam::constant::universal::c
const dimensionedScalar c
Speed of light in a vacuum.
Foam::ReactingCloud::~ReactingCloud
virtual ~ReactingCloud()=default
Destructor.
Foam::ReactingCloud::info
void info()
Print cloud information.
Definition: ReactingCloud.C:328
Foam::DimensionedField
Field with dimensions and associated with geometry type GeoMesh which is used to size the field and a...
Definition: areaFieldsFwd.H:42
Foam::ReactingCloud::cloudReset
void cloudReset(ReactingCloud< CloudType > &c)
Reset state of cloud.
Definition: ReactingCloud.C:72
Foam::ReactingCloud::rhoTrans_
PtrList< volScalarField::Internal > rhoTrans_
Mass transfer fields - one per carrier phase specie.
Definition: ReactingCloud.H:142
Foam::ReactingCloud::composition
const CompositionModel< ReactingCloud< CloudType > > & composition() const
Return const access to reacting composition model.
Definition: ReactingCloudI.H:49
Foam::ReactingCloud::checkSuppliedComposition
void checkSuppliedComposition(const scalarField &YSupplied, const scalarField &Y, const word &YName)
Check that size of a composition field is valid.
Definition: ReactingCloud.C:53
Foam::autoPtr
Pointer management similar to std::unique_ptr, with some additional methods and type checking...
Definition: HashPtrTable.H:48
p
volScalarField & p
Definition: createFieldRefs.H:8
Foam::tmp
A class for managing temporary objects.
Definition: HashPtrTable.H:50
Foam::objectRegistry
Registry of regIOobjects.
Definition: objectRegistry.H:58
Foam::CompositionModel
Templated reacting parcel composition model class Consists of carrier species (via thermo package)...
Definition: ReactingCloud.H:54
Foam::ReactingCloud::SYi
tmp< fvScalarMatrix > SYi(const label i, volScalarField &Yi) const
Return mass source term for specie i - specie eqn.
Definition: ReactingCloudI.H:131
Foam::DSMCCloud
Templated base class for dsmc cloud.
Definition: DSMCCloud.H:67
Foam::ReactingCloud::phaseChange
const PhaseChangeModel< ReactingCloud< CloudType > > & phaseChange() const
Return const access to reacting phase change model.
Definition: ReactingCloudI.H:57
Foam::ReactingCloud::relaxSources
void relaxSources(const ReactingCloud< CloudType > &cloudOldTime)
Apply relaxation to (steady state) cloud sources.
Definition: ReactingCloud.C:274
Foam::ReactingCloud::parcelType
CloudType::particleType parcelType
Type of parcel the cloud was instantiated for.
Definition: ReactingCloud.H:81
Foam::ReactingCloud::reactingCloudType
ReactingCloud< CloudType > reactingCloudType
Convenience typedef for this cloud type.
Definition: ReactingCloud.H:86
Foam
Namespace for OpenFOAM.
Definition: atmBoundaryLayer.C:26