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Droplet_LTORC
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Droplet Lagrangian Transient One-dimensional Reacting Code Implementation of both liquid and gas phase governing equations.
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Droplet_LTORC/UserData.cpp

500 satır
14KB
Ham Suçlama Geçmiş 

  1. #include "UserData.h"

  2. #include "parse.h"

  3. 

  4. void freeUserData(UserData data){

  5. 	if(data!=NULL){

  6. 		if(data->trmix!=NULL){

  7. 			delete data->trmix;

  8. 			printf("Transport Deleted!\n");

  9. 

  10. 		}

  11. 		if(data->gas!=NULL){

  12. 			delete data->gas;

  13. 			printf("Gas Deleted!\n");

  14. 

  15. 		}

  16. 		if(data->adaptiveGrid){

  17. 			if(data->grid->xOld!=NULL){

  18. 				delete[] data->grid->xOld;

  19. 				printf("old grid array Deleted!\n");

  20. 			}

  21. 			if(data->grid->x!=NULL){

  22. 				delete[] data->grid->x;

  23. 				printf("current grid array Deleted!\n");

  24. 			}

  25. 			if(data->grid!=NULL){

  26. 				free(data->grid);

  27. 				printf("grid object Freed!\n");

  28. 			}

  29. 		}

  30. 		else{

  31. 			if(data->uniformGrid!=NULL){

  32. 				delete[] data->uniformGrid;

  33. 				printf("uniformGrid deleted!\n");

  34. 			}

  35. 		}

  36. 		if(data->innerMassFractions!=NULL){

  37. 			delete[] data->innerMassFractions;

  38. 			printf("innerMassFractions array Deleted!\n");

  39. 		}

  40. 		if(data->output!=NULL){

  41.   			fclose(data->output);

  42. 			printf("Output File Cleared from Memory!\n");

  43. 		}

  44. 		if(data->gridOutput!=NULL){

  45.   			fclose(data->gridOutput);

  46. 			printf("Grid Output File Cleared from Memory!\n");

  47. 		}

  48. 		//if(data->ratesOutput!=NULL){

  49.   		//	fclose(data->ratesOutput);

  50. 		//	printf("Rates Output File Cleared from Memory!\n");

  51. 		//}

  52. 		if(data->globalOutput!=NULL){

  53.   			fclose(data->globalOutput);

  54. 			printf("Global Output File Cleared from Memory!\n");

  55. 		}

  56. 		if(data->timescaleOutput!=NULL){

  57.   			fclose(data->timescaleOutput);

  58. 			printf("Characteristic Timescale Output File Cleared from Memory!\n");

  59. 		}

  60. 		//if(data->rxnROPOutput!=NULL){

  61.   		//	fclose(data->rxnROPOutput);

  62. 		//	printf("Reactions Rate of Progress Output File Cleared from Memory!\n");

  63. 		//}

  64. 		//if(data->spROPOutput!=NULL){

  65.   		//	fclose(data->spROPOutput);

  66. 		//	printf("Species Rate of Production Output File Cleared from Memory!\n");

  67. 		//}

  68. 	}

  69.   	free(data);             /* Free the user data */

  70. 	printf("\n\n");

  71. }

  72. 

  73. UserData allocateUserData(FILE *input){

  74. 

  75. 	UserData data;

  76.   	data = (UserData) malloc(sizeof *data);

  77. 

  78. 	if(!data){

  79. 		printf("Allocation Failed!\n");

  80. 		return(NULL);

  81. 	}

  82. 	setSaneDefaults(data);

  83. 

  84. 	int ier;

  85. 

  86. 	ier=parseNumber<size_t>(input, "basePts"	, MAXBUFLEN, &data->npts);

  87. 	if(ier==-1 || data->npts<=0){

  88. 		printf("Enter non-zero basePts!\n");

  89. 		return(NULL);

  90. 	}

  91. 

  92. 	ier=parseNumber<double>(input, "domainLength", MAXBUFLEN, &data->domainLength);

  93. 	if(ier==-1 || data->domainLength<=0.0e0){

  94. 		printf("domainLength error!\n");

  95. 		return(NULL);

  96. 	}

  97. 

  98. 	ier=parseNumber<double>(input, "Rd", MAXBUFLEN, &data->Rd);

  99. 	if(ier==-1 || data->Rd<=0.0e0){

  100. 		printf("Rd error!\n");

  101. 		return(NULL);

  102. 	}

  103. 

  104. 	ier=parseNumber<int>(input, "constantPressure"	, MAXBUFLEN, &data->constantPressure);

  105. 	if(ier==-1 || (data->constantPressure!=0 && data->constantPressure!=1)){

  106. 		printf("constantPressure error!\n");

  107. 		return(NULL);

  108. 	}

  109. 

  110. 	ier=parseNumber<int>(input, "problemType"	, MAXBUFLEN, &data->problemType);

  111. 	if(ier==-1 || (data->problemType!=0 

  112. 		       && data->problemType!=1

  113. 			&& data->problemType!=2

  114. 			&& data->problemType!=3)){

  115. 		printf("include valid problemType!\n");

  116. 		printf("0: premixed combustion with NO equilibrated ignition kernel\n");

  117. 		printf("1: premixed combustion WITH equilibrated ignition kernel\n");

  118. 		printf("2: arbitrary initial conditions\n");

  119. 		printf("3: Restart\n");

  120. 		return(NULL);

  121. 	}

  122. 

  123. 	ier=parseNumber<int>(input, "quasiSteady"	, MAXBUFLEN, &data->quasiSteady);

  124. 	if(ier==-1 || (data->quasiSteady!=0 

  125. 		       && data->quasiSteady!=1)){

  126. 		printf("include valid quasiSteady!\n");

  127. 		printf("0: The droplet surface recedes and the droplet losses mass\n");

  128. 		printf("1: The droplet surface does not move and the droplet mass is constant\n");

  129. 		return(NULL);

  130. 	}

  131. 

  132. 	ier=parseNumber<double>(input, "dPdt"		, MAXBUFLEN, &data->dPdt);

  133. 

  134. 	ier=parseNumber<double>(input, "Rg"		, MAXBUFLEN, &data->Rg);

  135. 	if(data->Rg < 0.0){

  136. 		printf("Rg must be greater than 0");

  137. 		return(NULL);

  138. 	}

  139. 

  140. 	ier=parseNumber<int>   (input, "reflectProblem"	, MAXBUFLEN, &data->reflectProblem);

  141. 	if(data->reflectProblem!=0 && data->reflectProblem!=1){

  142. 		printf("Invalid entry for reflectProblem! Can be only 1 or 0.\n");

  143. 		return(NULL);

  144. 	}

  145. 	

  146. 	ier=parseNumber<double>(input, "mdot"		, MAXBUFLEN, &data->mdot);

  147. 	

  148. 	ier=parseNumber<double>(input, "initialTemperature", MAXBUFLEN,

  149. 			&data->initialTemperature);

  150. 	if(ier==-1 || data->initialTemperature<=0.0e0){

  151. 		printf("Enter positive initialTemperature in K!\n");

  152. 		return(NULL);

  153. 	}

  154. 

  155. 

  156. 	ier=parseNumber<double>(input, "initialPressure", MAXBUFLEN,

  157. 			&data->initialPressure);

  158. 	if(ier==-1 || data->initialTemperature<=0.0e0){

  159. 		printf("Enter positive initialPressure in atm!\n");

  160. 		return(NULL);

  161. 	}

  162. 

  163. 	ier=parseNumber<int>   (input, "metric"	, MAXBUFLEN, &data->metric);

  164. 	if(data->metric!=0 && data->metric!=1 && data->metric!=2){

  165. 		printf("Invalid entry for metric!\n");

  166. 		printf("0: Cartesian\n");

  167. 		printf("1: Cylindrical\n");

  168. 		printf("2: Spherical\n");

  169. 		return(NULL);

  170. 	}

  171. 

  172. 	ier=parseNumber<double>(input, "QDot", MAXBUFLEN, &data->maxQDot);

  173. 	if(ier==-1 && data->problemType==0){

  174. 		printf("Need to specify QDot for problemType 0!\n");

  175. 		return(NULL);

  176. 	}

  177. 

  178. 	ier=parseNumber<double>(input, "kernelSize", MAXBUFLEN, &data->kernelSize);

  179. 	if(ier==-1 && data->problemType==0){

  180. 		printf("Need to specify kernelSize for problemType 0!\n");

  181. 		return(NULL);

  182. 	}

  183. 

  184. 	ier=parseNumber<double>(input, "ignTime", MAXBUFLEN, &data->ignTime);

  185. 	if(ier==-1 && data->problemType==0){

  186. 		printf("Need to specify ignTime for problemType 0!\n");

  187. 		return(NULL);

  188. 	}

  189. 

  190. 	ier=parseNumber<double>(input, "mixingWidth", MAXBUFLEN,

  191. 			&data->mixingWidth);

  192. 	if(ier==-1){

  193. 		printf("Need to specify mixingWidth!\n");

  194. 		return(NULL);

  195. 	}

  196. 	

  197. 	ier=parseNumber<double>(input, "shift", MAXBUFLEN, &data->shift);

  198. 

  199. 	ier=parseNumber<double>(input, "firstRadius", MAXBUFLEN, &data->firstRadius);

  200. 	

  201. 	ier=parseNumber<double>(input, "wallTemperature", MAXBUFLEN, &data->wallTemperature);

  202. 

  203. 	ier=parseNumber<int>   (input, "dirichletInner"	, MAXBUFLEN,

  204. 			&data->dirichletInner);

  205. 	if(data->dirichletInner!=0 && data->dirichletInner!=1){

  206. 		printf("dirichletInner can either be 0 or 1!\n");

  207. 		return(NULL);

  208. 	}

  209. 

  210. 	ier=parseNumber<int>   (input, "dirichletOuter"	, MAXBUFLEN,

  211. 			&data->dirichletOuter);

  212. 	if(data->dirichletOuter!=0 && data->dirichletOuter!=1){

  213. 		printf("dirichletOuter can either be 0 or 1!\n");

  214. 		return(NULL);

  215. 	}

  216. 

  217. 	ier=parseNumber<int>   (input, "adaptiveGrid"	, MAXBUFLEN,

  218. 			&data->adaptiveGrid);

  219. 	if(ier==-1 || (data->adaptiveGrid!=0 && data->adaptiveGrid!=1)){

  220. 		printf("specify adaptiveGrid as 0 or 1!\n");

  221. 		return(NULL);

  222. 	}

  223. 

  224. 	ier=parseNumber<int>   (input, "moveGrid"	, MAXBUFLEN,

  225. 			&data->moveGrid);

  226. 	if(ier==-1 || (data->moveGrid!=0 && data->moveGrid!=1)){

  227. 		printf("specify moveGrid as 0 or 1!\n");

  228. 		return(NULL);

  229. 	}

  230. 

  231. 	ier=parseNumber<double>   (input, "isotherm"	, MAXBUFLEN,

  232. 			&data->isotherm);

  233. 	if(ier==-1){

  234. 		printf("specify temperature of isotherm!\n");

  235. 		return(NULL);

  236. 	}

  237. 

  238. 	ier=parseNumber<double>(input, "gridOffset", MAXBUFLEN, &data->gridOffset);

  239. 

  240. 	ier=parseNumber<int>   (input, "nSaves"	, MAXBUFLEN, &data->nSaves);

  241. 	if(data->nSaves<0 ){

  242. 		printf("nSaves must be greater than 0!\n");

  243. 		return(NULL);

  244. 	}

  245. 	

  246. 	ier=parseNumber<int>   (input, "writeRates"	, MAXBUFLEN,

  247. 			&data->writeRates);

  248. 	if(data->writeRates!=0 && data->writeRates!=1){

  249. 		printf("writeRates must either be 0 or 1!\n");

  250. 		return(NULL);

  251. 	}

  252. 

  253. 	ier=parseNumber<int>   (input, "writeEveryRegrid", MAXBUFLEN,

  254. 			&data->writeEveryRegrid);

  255. 	if(data->writeEveryRegrid!=0 && data->writeEveryRegrid!=1){

  256. 		printf("writeEveryRegrid must either be 0 or 1!\n");

  257. 		return(NULL);

  258. 	}

  259. 

  260. 	ier=parseNumber<int>   (input, "setConstraints"	, MAXBUFLEN,

  261. 			&data->setConstraints);

  262. 	if(data->setConstraints!=0 && data->setConstraints!=1){

  263. 		printf("setConstraints must either be 0 or 1!\n");

  264. 		return(NULL);

  265. 	}

  266. 

  267. 	ier=parseNumber<int>   (input, "suppressAlg"	, MAXBUFLEN,

  268. 			&data->suppressAlg);

  269. 	if(data->suppressAlg!=0 && data->suppressAlg!=1){

  270. 		printf("suppressAlg must either be 0 or 1!\n");

  271. 		return(NULL);

  272. 	}

  273. 

  274. 	ier=parseNumber<int>   (input, "dryRun"	, MAXBUFLEN,

  275. 			&data->dryRun);

  276. 	if(data->dryRun!=0 && data->dryRun!=1){

  277. 		printf("dryRun must either be 0 or 1!\n");

  278. 		return(NULL);

  279. 	}

  280. 

  281. 	ier=parseNumber<double>   (input, "finalTime"	, MAXBUFLEN,

  282. 			&data->finalTime);

  283. 

  284. 	ier=parseNumber<double>   (input, "relativeTolerance"	, MAXBUFLEN,

  285. 			&data->relativeTolerance);

  286. 	ier=parseNumber<double>   (input, "radiusTolerance"	, MAXBUFLEN,

  287. 			&data->radiusTolerance);

  288. 	ier=parseNumber<double>   (input, "temperatureTolerance", MAXBUFLEN,

  289. 			&data->temperatureTolerance);

  290. 	ier=parseNumber<double>   (input, "pressureTolerance", MAXBUFLEN,

  291. 			&data->pressureTolerance);

  292. 	ier=parseNumber<double>   (input, "massFractionTolerance", MAXBUFLEN,

  293. 			&data->massFractionTolerance);

  294. 	ier=parseNumber<double>   (input, "bathGasTolerance", MAXBUFLEN,

  295. 			&data->bathGasTolerance);

  296. 	ier=parseNumber<double>   (input, "MdotTolerance", MAXBUFLEN,

  297. 			&data->MdotTolerance);

  298. 

  299. 	char chem[MAXBUFLEN],mix[MAXBUFLEN],tran[MAXBUFLEN];

  300. 

  301. 	ier=parseNumber<char>(input, "chemistryFile"	, MAXBUFLEN, chem);

  302. 	if(ier==-1){

  303. 		printf("Enter chemistryFile!\n");

  304. 		return(NULL);

  305. 	}else{

  306. 		try{

  307. 			data->gas = new Cantera::IdealGasMix(chem);

  308. 			data->nsp=data->gas->nSpecies(); //assign no: of species

  309. 

  310.     		} catch (Cantera::CanteraError& err) {

  311. 		    printf("Error:\n");

  312. 		    printf("%s\n",err.what());

  313. 		    return(NULL);

  314.     		}

  315. 	}

  316. 

  317. 	ier=parseNumber<char>(input, "transportModel", MAXBUFLEN, tran);

  318. 	if(ier==-1){

  319. 		printf("Enter transportModel!\n");

  320. 		return(NULL);

  321. 	}else{

  322. 		try{

  323.   			data->trmix = Cantera::newTransportMgr(tran, data->gas);

  324. 		}catch (Cantera::CanteraError& err) {

  325. 			printf("Error:\n");

  326. 			printf("%s\n",err.what());

  327. 			return(NULL);

  328.     		}

  329. 	}

  330. 

  331. 	ier=parseNumber<char>(input, "mixtureComposition", MAXBUFLEN, mix);

  332. 	if(ier==-1){

  333. 		printf("Enter mixtureComposition!\n");

  334. 		return(NULL);

  335. 	}else{

  336. 		if(data->gas!=NULL){

  337. 			try{

  338. 				data->gas->setState_TPX(data->initialTemperature,

  339. 							data->initialPressure*Cantera::OneAtm,

  340. 							mix);

  341. 			}catch (Cantera::CanteraError& err) {

  342. 		    		printf("Error:\n");

  343. 		    		printf("%s\n",err.what());

  344. 		    		return(NULL);

  345.     			}

  346. 		}

  347. 	}

  348. 

  349. 	//ier=parseNumber<char>(input, "dropletComposition", MAXBUFLEN, data->dropSpec);

  350. 	//if(ier==-1){

  351. 	//	printf("Enter composition of droplet!\n");

  352. 	//	return(NULL);

  353. 	//}

  354. 

  355.     ier=parseDrop(input,"dropletComposition",data->dropSpec,data->dropMole,MAXBUFLEN);

  356.     ier=parseDrop(input,"dropletDensity",data->dropSpec,data->dropDens,MAXBUFLEN);

  357. 

  358. 

  359. 	ier=parseNumber<int>   (input, "nThreads", MAXBUFLEN, &data->nThreads);

  360. 	if(data->nThreads<0 ){

  361. 		printf("nThreads must be greater than 0!\n");

  362. 		return(NULL);

  363. 	}

  364.     

  365. 

  366. 	ier=parseNumber<double>(input, "PCAD", MAXBUFLEN, &data->PCAD);

  367.     ier=parseNumber<double>(input,"RGTC", MAXBUFLEN, &data->RGTC);

  368.     ier=parseNumber<int>(input,"JJRG", MAXBUFLEN, &data->JJRG);

  369.     ier=parseNumber<double>(input,"deltaT", MAXBUFLEN, &data->deltaT);

  370. 	

  371.     data->nr=0;

  372. 	//data->np=data->nr+1;

  373. 	data->nt=data->nr+1;

  374. 	data->ny=data->nt+1;

  375. 	data->np=data->ny+data->nsp;

  376. 	data->nm=data->np+1;

  377. 				

  378. 	data->nvar=data->nsp+4;		 //assign no: of variables (R,T,P,Mdot,nsp species)

  379. 

  380. 

  381.     double MW[2]; 

  382.     for(int i=0;i<=1;i++){

  383.         int speciesIndex = data->gas->speciesIndex(data->dropSpec[i]);

  384.         double weight = data->gas->molecularWeight(speciesIndex);

  385.         MW[i]= weight;

  386.     }

  387. 

  388.     double massSum = 0.0; 

  389.     for(int i=0;i<=1;i++){

  390.         massSum = massSum + data->dropMole[i] * MW[i];

  391.     }

  392.     data->dropRho = 0.0;

  393.     for(int i=0;i<=1;i++){

  394.         data->dropMassFrac[i] = data->dropMole[i]*MW[i]/massSum;

  395.         data->dropRho = data->dropRho + data->dropMassFrac[i]*data->dropDens[i];

  396.     }

  397.     printf("Density of droplet is: %.3f [kg/m^3]\n",data->dropRho);

  398. 	//Mass of droplet

  399. 	//data->massDrop=1.0/3.0*pow(data->Rd,3)*997.0; //TODO: The density of the droplet should be a user input

  400.     //data->massDrop=1.0/3.0*pow(data->Rd,3)*684.00; //TODO: The density of the droplet(n-heptane) should be a user input

  401.     data->massDrop=1.0/3.0*pow(data->Rd,3)*data->dropRho;

  402. 

  403. 	if(!data->adaptiveGrid){

  404. 		data->uniformGrid = new double [data->npts];

  405. 		data->neq=data->nvar*data->npts;

  406. 	}

  407. 	else{

  408. 		data->grid=(UserGrid) malloc(sizeof *data->grid);

  409. 		ier=getGridSettings(input,data->grid);

  410. 		if(ier==-1)return(NULL);

  411. 

  412. 		ier=initializeGrid(data->grid);

  413. 		if(ier==-1)return(NULL);

  414. 

  415. 		ier=reGrid(data->grid, data->grid->position);

  416. 		if(ier==-1)return(NULL);

  417. 

  418. 

  419. //        /**************** TEST THE data->grid->xOld *******************/

  420. //        double* ptr = data->grid->xOld ; 

  421. //        printf("allocateUserData function is called,Start print the first 5 elements of the xOld array : \n");

  422. //        printf("1st:%.6f, 2nd:%.6f, 3rd:%.6f, 4th:%.6f, 5th:%.6f.\n",ptr[0],ptr[1],ptr[2],ptr[3],ptr[4]);

  423. 

  424. 		data->npts=data->grid->nPts;

  425. 		data->neq=data->nvar*data->npts;

  426. 	}

  427. 

  428. 	data->output=fopen("output.dat","w");

  429. 	data->globalOutput=fopen("globalOutput.dat","w");

  430. 	data->gridOutput=fopen("grid.dat","w");

  431. 	data->timescaleOutput=fopen("timeScale.dat","w") ;

  432.     data->rxnROPOutput=fopen("rxnROP.dat","w");

  433.     data->spROPOutput=fopen("spROP.dat","w");

  434. 	//data->ratesOutput=fopen("rates.dat","w");

  435. 	

  436. 	data->innerMassFractions = new double [data->nsp];

  437. 	//data->wdot_mole = new double [data->nsp] ; 

  438. 	//data->wdot_mass = new double [data->nsp] ; 

  439. 	data->time_scale = new double [(data->npts) * (data->nsp)] ; 

  440. 	//data->MW = new double [data->nsp] ; 

  441. 

  442. 	return(data);

  443. }

  444. 

  445. void setSaneDefaults(UserData data){

  446. 	data->domainLength=1.0e-02;

  447. 	data->Rd=100.0e-06;

  448. 	data->constantPressure=1;

  449. 	data->problemType=1;

  450. 	data->quasiSteady=1;

  451. 	data->dPdt=0.0e0;

  452. 	data->reflectProblem=0;

  453. 	data->mdot=0.0;

  454. 	data->initialTemperature=300.0;

  455. 	data->initialPressure=1.0;

  456. 	data->metric=0;

  457. 	data->ignTime=1e-09;

  458. 	data->maxQDot=0.0e0;

  459. 	data->maxTemperature=300.0e0;

  460. 	data->mixingWidth=1e-04;

  461. 	data->shift=3.0e-03;

  462. 	data->firstRadius=1e-04;

  463. 	data->wallTemperature=298.0e0;

  464. 	data->dirichletInner=0;

  465. 	data->dirichletOuter=0;

  466. 	data->adaptiveGrid=0;

  467. 	data->moveGrid=0;

  468. 	data->gridOffset=0.0e0;

  469. 	data->Rg=1.0;

  470. 	data->isotherm=1000.0;

  471. 	data->nSaves=30;

  472. 	data->writeRates=0;

  473. 	data->writeEveryRegrid=0;

  474. 	data->relativeTolerance=1e-06;

  475. 	data->radiusTolerance=1e-08;

  476. 	data->temperatureTolerance=1e-06;

  477. 	data->pressureTolerance=1e-06;

  478. 	data->massFractionTolerance=1e-09;

  479. 	data->bathGasTolerance=1e-06;

  480. 	data->finalTime=1e-02;

  481. 	data->tNow=0.0e0;

  482. 	data->setConstraints=0;

  483. 	data->suppressAlg=1;

  484. 	data->regrid=0;

  485. 	data->gridDirection=1;

  486. 	data->dryRun=0;

  487. 	data->nThreads=1;

  488. 

  489. 	data->flamePosition[0]=0.0e0;

  490. 	data->flamePosition[1]=0.0e0;

  491. 	data->flameTime[0]=0.0e0;

  492. 	data->flameTime[1]=0.0e0;

  493. 	data->nTimeSteps=0;

  494.     data->PCAD=0.75;

  495.     data->RGTC=1.0;

  496.     data->JJRG=0;

  497.     data->deltaT=200.0;

  498. }