PHengLEI-TestCases/H06_TwoD_NaturalConvection_CDS_4CPU/bin/cfd_para_incompressible.hypara

#########################################################################
#                     General Control Parameter                         #
#########################################################################
// maxSimuStep: The max simulation step, don't care simulation is restart or not.
// intervalStepFlow: The step intervals for flow variables file 'flow.dat' saved.
// intervalStepPlot: The step intervals for tecplot visual file 'tecflow.dat' saved.
// intervalStepRes: The step intervals for residual 'res.dat' saved.
int maxSimuStep       = 2000;
int intervalStepFlow  = 2000;
int intervalStepPlot  = 500;
int intervalStepForce = 1;
int intervalStepRes   = 1;

// gridfile: The partitioned Grid file path, using relative path,
//           which is relative to the working directory.
string gridfile = "./grid/run__4.fts";

#########################################################################
#                               Flow Parameter                          #
#########################################################################

//flowSolverName : SIMPLE/CompressibleSIMPLE/PISO
string flowSolverName = "SIMPLE";

// Initial value of flow variables 
double initRho = 1.1405;
double initU   = 0;
double initV   = 0;
double initW   = 0;
double initP   = 0;
double initMu = 1.7894e-05;
double initRg  = 296.928571;
double refP    = 101325;
int refPLocate = 0；

//Parameters For Solving the Momentum Equation
// MomEqSolMethod : GaussSeidel(0)/GMRES(1)/Bicgstab(2)/AMG(3)/PCG(4)/FlexGMRES(5)/ILU(10)/AMGDD(11)/Hybrid(12)
int MomEqSolMethod = 2;
// MomEqPrecondMethod : None(0)/ILU(1)/AMG(2)/Euclid(3)/LduDiag(8) /LduDIC(9) /LduDILU(10)
int MomEqPrecondMethod = 1;
int MomEqMaxSweep = 30;
double MomEqIterSolvTol = 1e-8;
double MomEqRelaxCoeff = 0.5;

//Parameters For Solving the Pressure Possion Equation
// PPEqSolMethod : GaussSeidel(0)/GMRES(1)/Bicgstab(2)/AMG(3)/PCG(4)/FlexGMRES(5)/ILU(10)/AMGDD(11)/Hybrid(12)
int PPEqSolMethod= 3;
// PPEqPrecondMethod : None(0)/ILU(1)/AMG(2)/Euclid(3)/LduDiag(8) /LduDIC(9) /LduDILU(10)
int PPEqPrecondMethod= 1;
int PPEqMaxSweep = 30;
double PPEqIterSolvTol = 1e-8;
double PPEqRelaxCoeff = 0.3;

//Relaxation factor of surface flux
double FaceFluxRelaxCoeff = 0.5;

int isCalGravityVisSource = 1;
int bodyForceFlag = 0;
double gravityX = 0.0;
double gravityY = -9.81;
double gravityZ = 0.0;

int isBoussinesqApproximation        = 1;
double thermalExpansionCoeff = 3.44827e-3;

#########################################################################
#                  Turbulence Equation Parameter                        #
#########################################################################
// isSolveTurb : is(1)/not(0);
int isSolveTurb = 0；
// TurbEqSolverName : k-epsilon(KE)/Spalart-Allmaras(SA)
string TurbEqSolverName = "KE";

// Initial value of Turbulence variables 
double initKinetic = 0.64;
double initEpsilon = 5771;

//Parameters For Solving the Turbulence Equation
// TurbEqSolMethod : GaussSeidel(0)/GMRES(1)/Bicgstab(2)/AMG(3)/PCG(4)/FlexGMRES(5)/ILU(10)/AMGDD(11)/Hybrid(12)
int TurbEqSolMethod  = 2;
// TurbEqPrecondMethod : None(0)/ILU(1)/AMG(2)/Euclid(3)/LduDiag(8) /LduDIC(9) /LduDILU(10)
int TurbEqPrecondMethod = 1;
int    TurbEqMaxSweep    = 30;
double TurbEqIterSolvTol = 1e-8;
double TurbEqRelaxCoeff = 0.5;

#########################################################################
#                     Energy Equation Parameter                         #
#########################################################################
// isSolveEnergy : is(1)/not(0);
int isSolveEnergy = 1;

// Initial value of Energy variables 
double initT             = 295;
double initCPg           = 1006.43;
double initK             = 0.0242;
double initkappa = 1.4;
double refT             = 290;

//Parameters For Solving the Energy Equation
// EnergyEqSolMethod : GaussSeidel(0)/GMRES(1)/Bicgstab(2)/AMG(3)/PCG(4)/FlexGMRES(5)/ILU(10)/AMGDD(11)/Hybrid(12)
int EnergyEqSolMethod = 2;
// EnergyEqPrecondMethod : None(0)/ILU(1)/AMG(2)/Euclid(3)/LduDiag(8) /LduDIC(9) /LduDILU(10)
int EnergyEqPrecondMethod = 1;
int    EnergyEqMaxSweep    = 30;
double EnergyEqIterSolvTol = 1e-8;
double EnergyEqRelaxCoeff = 0.5;

#########################################################################
#                    Species Equation Parameter                         #
#########################################################################
// isSolveSpecies : is(1)/not(0);
int isSolveSpecies = 0;

//Parameters For Solving the Species Equation
int numberOfSpeciesIncom = 1;
string speciesNameIncom[] = [AIR];
double initMassFractionIncom[] = [1.0];

//Parameters For Solving the Species Equation
// SpeciesEqSolMethod : GaussSeidel(0)/GMRES(1)/Bicgstab(2)/AMG(3)/PCG(4)/FlexGMRES(5)/ILU(10)/AMGDD(11)/Hybrid(12)
int SpeciesEqSolMethod = 2;
// SpeciesEqPrecondMethod : None(0)/ILU(1)/AMG(2)/Euclid(3)/LduDiag(8) /LduDIC(9) /LduDILU(10)
int SpeciesEqPrecondMethod = 1;
int    SpeciesEqMaxSweep   = 30;
double SpeciesEqIterSolvTol  = 1e-8;
double SpeciesEqRelaxCoeff = 0.5;

#########################################################################
#                               Unsteady Parameter                      #
#########################################################################
// iunsteady : is(1)/not(0);
int iunsteady    = 0;
double startTime = 0.0;
double endTime   = 20;
double dt = 0.1;
int min_sub_iter = 50;
int max_sub_iter = 50;

// isStableUnsteadyMethod : is(1)/not(0);
int isStableUnsteadyMethod = 0;

#########################################################################
#                               Solution Method                         #
#########################################################################
// ConvCalcMethod : UPWIND/CDS/QUICK/SUDS
string ConvCalcMethod = "CDS"

// DiffCalcMethod : NON_ORTHOGONAL(default)
string DiffCalcMethod = "NON_ORTHOGONAL";

//TranCalcMethod : IMPLICIT_EULER(1st)/IMPLICIT_2ND_ORDER(2st)
string TranCalcMethod = "IMPLICIT_EULER";

// GradCalcMethod : GAUSS/LSQ
string GradCalcMethod = "GAUSS";

// mathLibType : hypre(0)/unap(1)/yhamg(2)
int mathLibType = 0;

// compressible : is(0, default)/not(1)
int compressible = 0;

// SIMPLEC : SIMPLE(0)/SIMPLEC(1)
int SIMPLEC = 1;

// isSkewness : stable gradient method: is(1)/not(0)
int isSkewness = 0;

//rhoType : Constant(0)/IncompressibleIdealGas(1)/IdealGas(2)
int rhoType = 0;

//muType:  Constant(0)/SutherLand(1)/IdealGasMixingLaw(2),
int muType  = 0;

//kType : Constant(0)/MassWeightedMixingLaw(1)/IdealGasMixingLaw(2)
int kType   = 0;

//cpType : Constant(0)/Mixing(1)
int cpType  = 0;

//massdiffType : ConstantDiluteApprox(1)/DiluteApprox(2)
int massdiffType = 0;

#########################################################################
#                              Post-Processing                          #
#########################################################################
/ nVisualVariables: Number of variables want to be dumped for tecplot visualization.
// visualVariables : Variable types dumped, listed as following:
// -- U(22), V(23), W(24), P(25), CP(26), T(27), DEN(28), VIS(29), TE(31), ED(32), enthalpy(70), species(from 71 ~ 70 + numberOfSpecies)
// Important Warning: Array size of visualVariables MUST be equal to nVisualVariables!!!
// Variables order must from small to big.

int nVisualVariables = 6;
int visualVariables[] = [22, 23, 24, 25, 27, 70];
int plotFieldType = 1;

string resSaveFile      = "results/res.dat";
string aircoeffile      = "results/aircoef.dat";