GuldersEGR.C
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25 
26 #include "GuldersEGR.H"
27 #include "addToRunTimeSelectionTable.H"
28 
29 // * * * * * * * * * * * * * * Static Data Members * * * * * * * * * * * * * //
30 
31 namespace Foam
32 {
33 namespace laminarFlameSpeedModels
34 {
35  defineTypeNameAndDebug(GuldersEGR, 0);
36 
37  addToRunTimeSelectionTable
38  (
39  laminarFlameSpeed,
40  GuldersEGR,
41  dictionary
42  );
43 }
44 }
45 
46 // * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
47 
48 Foam::laminarFlameSpeedModels::GuldersEGR::GuldersEGR
49 (
50  const dictionary& dict,
51  const psiuReactionThermo& ct
52 )
53 :
54  laminarFlameSpeed(dict, ct),
55 
56  coeffsDict_(dict.subDict(typeName + "Coeffs").subDict(fuel_)),
57  W_(readScalar(coeffsDict_.lookup("W"))),
58  eta_(readScalar(coeffsDict_.lookup("eta"))),
59  xi_(readScalar(coeffsDict_.lookup("xi"))),
60  f_(readScalar(coeffsDict_.lookup("f"))),
61  alpha_(readScalar(coeffsDict_.lookup("alpha"))),
62  beta_(readScalar(coeffsDict_.lookup("beta")))
63 {}
64 
65 
66 // * * * * * * * * * * * * * * * * Destructor * * * * * * * * * * * * * * * //
67 
68 Foam::laminarFlameSpeedModels::GuldersEGR::~GuldersEGR()
69 {}
70 
71 
72 // * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * * //
73 
74 inline Foam::scalar Foam::laminarFlameSpeedModels::GuldersEGR::SuRef
75 (
76  scalar phi
77 ) const
78 {
79  if (phi > SMALL)
80  {
81  return W_*pow(phi, eta_)*exp(-xi_*sqr(phi - 1.075));
82  }
83  else
84  {
85  return 0.0;
86  }
87 }
88 
89 
90 inline Foam::scalar Foam::laminarFlameSpeedModels::GuldersEGR::Su0pTphi
91 (
92  scalar p,
93  scalar Tu,
94  scalar phi,
95  scalar Yres
96 ) const
97 {
98  static const scalar Tref = 300.0;
99  static const scalar pRef = 1.013e5;
100 
101  return SuRef(phi)*pow((Tu/Tref), alpha_)*pow((p/pRef), beta_)*(1 - f_*Yres);
102 }
103 
104 
105 Foam::tmp<Foam::volScalarField>
106 Foam::laminarFlameSpeedModels::GuldersEGR::Su0pTphi
107 (
108  const volScalarField& p,
109  const volScalarField& Tu,
110  scalar phi
111 ) const
112 {
113  tmp<volScalarField> tSu0
114  (
115  new volScalarField
116  (
117  IOobject
118  (
119  "Su0",
120  p.time().timeName(),
121  p.db(),
122  IOobject::NO_READ,
123  IOobject::NO_WRITE,
124  false
125  ),
126  p.mesh(),
127  dimensionedScalar("Su0", dimVelocity, 0.0)
128  )
129  );
130 
131  volScalarField& Su0 = tSu0.ref();
132 
133  forAll(Su0, celli)
134  {
135  Su0[celli] = Su0pTphi(p[celli], Tu[celli], phi, 0.0);
136  }
137 
138  volScalarField::Boundary& Su0Bf = Su0.boundaryFieldRef();
139 
140  forAll(Su0Bf, patchi)
141  {
142  forAll(Su0Bf[patchi], facei)
143  {
144  Su0Bf[patchi][facei] =
145  Su0pTphi
146  (
147  p.boundaryField()[patchi][facei],
148  Tu.boundaryField()[patchi][facei],
149  phi,
150  0.0
151  );
152  }
153  }
154 
155  return tSu0;
156 }
157 
158 
159 Foam::tmp<Foam::volScalarField>
160 Foam::laminarFlameSpeedModels::GuldersEGR::Su0pTphi
161 (
162  const volScalarField& p,
163  const volScalarField& Tu,
164  const volScalarField& phi,
165  const volScalarField& egr
166 ) const
167 {
168  tmp<volScalarField> tSu0
169  (
170  new volScalarField
171  (
172  IOobject
173  (
174  "Su0",
175  p.time().timeName(),
176  p.db(),
177  IOobject::NO_READ,
178  IOobject::NO_WRITE,
179  false
180  ),
181  p.mesh(),
182  dimensionedScalar("Su0", dimVelocity, 0.0)
183  )
184  );
185 
186  volScalarField& Su0 = tSu0.ref();
187 
188  forAll(Su0, celli)
189  {
190  Su0[celli] = Su0pTphi(p[celli], Tu[celli], phi[celli], egr[celli]);
191  }
192 
193  volScalarField::Boundary& Su0Bf = Su0.boundaryFieldRef();
194 
195  forAll(Su0Bf, patchi)
196  {
197  forAll(Su0Bf[patchi], facei)
198  {
199  Su0Bf[patchi][facei] =
200  Su0pTphi
201  (
202  p.boundaryField()[patchi][facei],
203  Tu.boundaryField()[patchi][facei],
204  phi.boundaryField()[patchi][facei],
205  egr.boundaryField()[patchi][facei]
206  );
207  }
208  }
209 
210  return tSu0;
211 }
212 
213 
214 Foam::tmp<Foam::volScalarField>
215 Foam::laminarFlameSpeedModels::GuldersEGR::operator()() const
216 {
217  if
218  (
219  psiuReactionThermo_.composition().contains("ft")
220  && psiuReactionThermo_.composition().contains("egr")
221  )
222  {
223  return Su0pTphi
224  (
225  psiuReactionThermo_.p(),
226  psiuReactionThermo_.Tu(),
227  dimensionedScalar
228  (
229  psiuReactionThermo_.lookup("stoichiometricAirFuelMassRatio")
230  )/
231  (
232  scalar(1)/psiuReactionThermo_.composition().Y("ft")
233  - scalar(1)
234  ),
235  psiuReactionThermo_.composition().Y("egr")
236  );
237  }
238  else
239  {
240  return Su0pTphi
241  (
242  psiuReactionThermo_.p(),
243  psiuReactionThermo_.Tu(),
244  equivalenceRatio_
245  );
246  }
247 }
248 
249 
250 // ************************************************************************* //
phi
surfaceScalarField & phi
Definition: setRegionFluidFields.H:8
forAll
#define forAll(list, i)
Loop across all elements in list.
Definition: UList.H:428
Foam::IOobject::db
const objectRegistry & db() const
Return the local objectRegistry.
Definition: IOobject.C:221
Foam::dictionary
A list of keyword definitions, which are a keyword followed by any number of values (e...
Definition: dictionary.H:137
Foam::sqr
dimensionedSymmTensor sqr(const dimensionedVector &dv)
Definition: dimensionedSymmTensor.C:49
Foam::dictionary::subDict
const dictionary & subDict(const word &) const
Find and return a sub-dictionary.
Definition: dictionary.C:633
Foam::Time::timeName
static word timeName(const scalar, const int precision=precision_)
Return time name of given scalar time.
Definition: Time.C:715
addToRunTimeSelectionTable.H
Macros for easy insertion into run-time selection tables.
Foam::exp
dimensionedScalar exp(const dimensionedScalar &ds)
Definition: dimensionedScalar.C:252
Foam::GeometricField::boundaryField
const Boundary & boundaryField() const
Return const-reference to the boundary field.
Definition: GeometricFieldI.H:60
Foam::IOobject::time
const Time & time() const
Return time.
Definition: IOobject.C:227
Foam::laminarFlameSpeedModels::addToRunTimeSelectionTable
addToRunTimeSelectionTable(laminarFlameSpeed, constant, dictionary)
Foam::readScalar
bool readScalar(const char *buf, doubleScalar &s)
Read whole of buf as a scalar. Return true if succesful.
Definition: doubleScalar.H:63
Foam::psiuReactionThermo
Foam::psiuReactionThermo.
Definition: psiuReactionThermo.H:49
pRef
scalar pRef
Definition: createFields.H:19
Foam::pow
dimensionedScalar pow(const dimensionedScalar &ds, const dimensionedScalar &expt)
Definition: dimensionedScalar.C:73
patchi
label patchi
Definition: getPatchFieldScalar.H:1
Foam::laminarFlameSpeed
Abstract class for laminar flame speed.
Definition: laminarFlameSpeed.H:58
Foam::GeometricField::boundaryFieldRef
Boundary & boundaryFieldRef()
Return a reference to the boundary field.
Definition: GeometricField.C:739
Foam::dimensionedScalar
dimensioned< scalar > dimensionedScalar
Dimensioned scalar obtained from generic dimensioned type.
Definition: dimensionedScalarFwd.H:41
Foam::DimensionedField::mesh
const Mesh & mesh() const
Return mesh.
Definition: DimensionedFieldI.H:38
Foam::tmp
A class for managing temporary objects.
Definition: PtrList.H:54
Foam::laminarFlameSpeedModels::GuldersEGR::operator()
tmp< volScalarField > operator()() const
Return the laminar flame speed [m/s].
Definition: GuldersEGR.C:215
Foam::tmp::ref
T & ref() const
Return non-const reference or generate a fatal error.
Definition: tmpI.H:174
Foam::IOobject
IOobject defines the attributes of an object for which implicit objectRegistry management is supporte...
Definition: IOobject.H:91
Foam
Namespace for OpenFOAM.
Definition: combustionModel.C:30
Foam::dimVelocity
const dimensionSet dimVelocity
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