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- #ifndef CANTERA_DEF
- #define CANTERA_DEF
- #include <cantera/IdealGasMix.h>
- #include <cantera/transport.h>
- #endif
-
- #include "gridRoutines.h"
- #include <string>
-
- #ifndef USER_DEF
- #define USER_DEF
- typedef struct UserDataTag{
- /*An ideal gas object from Cantera. Contains thermodynamic and kinetic
- * info of all species.*/
- Cantera::IdealGasMix* gas;
- /*A Transport object from Cantera. Contains all transport info of all
- * species.*/
- Cantera::Transport* trmix;
- /* Droplet species composition */
- //char dropSpec[MAXBUFLEN];
- char dropSpec[2][10];
- /* Droplet species mole fractions */
- double dropMole[2];
- /* Droplet species density at given initialTemperature*/
- double dropDens[2];
- /* Droplet species mass fractions*/
- double dropMassFrac[2];
- double dropRho;
- /*Length of the domain (in meters):*/
- double domainLength;
- /*Initial Droplet Radius (in meters)*/
- double Rd;
- /*Droplet Mass*/
- double massDrop;
- /*Mass of gas in domain (in kg):*/
- double mass;
- /*Parameter that indicates the symmetry of the problem;*/
- /*metric=0:Planar*/
- /*metric=1:Cylindrical*/
- /*metric=2:Spherical*/
- int metric;
- /*No: of species:*/
- size_t nsp;
- /*No: of equations:*/
- size_t neq;
- /*No: of variables:*/
- size_t nvar;
- /*Pointer indices (see "macros.h" for aliases that use these):*/
- /*Pointer index for temperature:*/
- size_t nt;
- /*Pointer index for species:*/
- size_t ny;
- /*Pointer index for spatial coordinate:*/
- size_t nr;
- /*Pointer index for pressure:*/
- size_t np;
- /*Pointer index for mass flow rate:*/
- size_t nm;
- /*Species index of bath gas:*/
- size_t k_bath;
- /*Species index of oxidizer:*/
- size_t k_oxidizer;
- size_t k_OH;
- size_t k_HO2;
- /*Species index of droplet composition*/
- /*Index starts with 1 instead of 0*/
- size_t k_drop[2];
- /*User-defined mass flux (kg/m^2/s):*/
- double mdot;
- /*Flag to solve isobaric/isochoric problem;*/
- /*constantPressure=1: isobaric*/
- /*constantPressure=0: isochoric*/
- int constantPressure;
- /*User-defined dPdt (Pa/s), activates when problem is "isobaric":*/
- double dPdt;
- /*Initial temperature of the gas (K):*/
- double initialTemperature;
- /*Initial Pressure of the gas (atm):*/
- double initialPressure;
- /*Classification of problem type;*/
- /*problemType=0: Mixture is premixed and spatially uniform initially.
- * In order for mixture to ignite, an external heat source (finite
- * maxQDot) must be used.*/
- /*problemType=1: Mixture is premixed but spatially non-uniform
- * initially. Equilibrium products are contained within a hot kernel of
- * size given by "shift" and a mixing length scale given by
- * "mixingWidth".*/
- /*problemType=2: User specified initial condition. Use file
- * "initialCondition.dat".*/
- int problemType;
- /*Quasi-Steady Assumption:
- *quasiSteady=0: The droplet surface recedes and the droplet losses mass.
- *quasiSteady=1: The droplet surface does not move and the droplet mass is constant.*/
- int quasiSteady;
- /*Maximum External heat source (K/s):*/
- double maxQDot;
- /*Ignition kernel size:*/
- double kernelSize;
-
- double maxTemperature;
- /*Maximum time for which the external heat source is applied (s):*/
- double ignTime;
- /*Vector of Mass Fractions used to impose Robin Boundary Condition for
- * species at the domain origin:*/
- double* innerMassFractions;
- /*Value of temperature to be used if Dirichlet Boundary Conditions are
- * imposed for temperature:*/
- double innerTemperature;
- double wallTemperature;
- /*Isotherm chosen to find the location of a "burning" front (K):*/
- double isotherm;
- /*Interval of time integration:*/
- double finalTime;
- /*Current time:*/
- double tNow;
- /*Flag to reflect initial conditions across center of the domain:*/
- int reflectProblem;
- /*Parameters for initial conditions in setting up profiles:
- increasing function of x: g=0.5*(erf(x-3*w-shift)/w)+1)
- decreasing function of x: f=1-g*/
- double mixingWidth;
- double shift;
- double firstRadius;
- /*Flag to run program without time-integration i.e. simply layout the
- * initial conditions and quit:*/
- int dryRun;
- /*Relative Tolerance:*/
- double relativeTolerance;
- /*Absolute Tolerance for spatial coordinate:*/
- double radiusTolerance;
- /*Absolute Tolerance for Temperature:*/
- double temperatureTolerance;
- /*Absolute Tolerance for Pressure:*/
- double pressureTolerance;
- /*Absolute Tolerance for Mass Fractions:*/
- double massFractionTolerance;
- /*Absolute Tolerance for bath gas mass fraction:*/
- double bathGasTolerance;
- /*Absolute Tolerance for Mdot:*/
- double MdotTolerance;
- /*Flag to set constraints on Mass fractions so they don't acquire
- * negative values:*/
- int setConstraints;
- /*Flag to suppress error checking on algebraic variables:*/
- int suppressAlg;
- /*Number of time-steps elapsed before saving the solution:*/
- int nSaves;
- /*Flag to set write for every regrid:*/
- int writeEveryRegrid;
- /*Solution output file:*/
- FILE* output;
- /*Flag to write the rates (ydot) of solution components into the
- * "ratesOutput" file:*/
- int writeRates;
- /*Grid output file:*/
- FILE* gridOutput;
- ///*Rate of change (ydot) output file (see "writeRates"):*/
- //FILE* ratesOutput;
- /*Global properties (mdot, radius of flame, etc.) output file:*/
- FILE* globalOutput;
-
- /*Flag to adapt grid:*/
- int adaptiveGrid;
- /*Flag to move grid:*/
- int moveGrid;
- /*Flag to initiate regrid:*/
- int regrid;
- /*Integer that specifies grid movement direction:
- * gridDirection = -1: Move Left
- * gridDirection = +1: Move Right*/
- int gridDirection;
-
- /*Grid Ratio: This replaces the uniform grid. dX0 and dXf are the grid
- spacing at the droplet surface and right boundary, respectivly. The Grid
- Ratio is equal to dXf/dX0. A Rg>1 focuses grid points on the droplet
- surface while a Rg<1 focuses grid points at the right boundary. A Rg of 1
- is a uniform grid.*/
- double Rg;
- /*Total number of points for grid:*/
- size_t npts;
-
- double gridOffset;
-
- UserGrid grid;
- double* uniformGrid;
-
- int dirichletInner,dirichletOuter;
-
- int nThreads;
- double clockStart;
-
- /*These arrays are used to compute dr/dt, which in turn is used to
- * compute the flame speed S_u:*/
- double flamePosition[2];
- double flameTime[2];
- size_t nTimeSteps;
-
- /*Following arrays are used to compute the characteristic time scale of
- species*/
- //double* wdot_mole ;
- //double* wdot_mass ;
- double* time_scale ;
- //double* MW;
- FILE* timescaleOutput;
-
- /*Following parameters are used for REGRID function*/
- double PCAD;
- double RGTC;
- int JJRG;
- double deltaT;
-
- FILE* rxnROPOutput;
- FILE* spROPOutput;
-
-
- } *UserData;
- UserData allocateUserData(FILE *input);
- void setSaneDefaults(UserData data);
- void freeUserData(UserData data);
- #endif
-
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