TALK=T;RUN(1,1) PHOTON USE p flow;;;; gr ou y 1 msg the solid regions, displayed via the prl values con prl y 1 fi;0.1;pause msg the velocity vectors vec y 1;pause;vec off;con off;red msg temperature contours con temp y 1 fi;0.01 enduse DISPLAY The following cases concern the calculation of the temperature field within and around several metal plates and blocks, over which and around which air is flowing. The conductivity of the metal is supplied by the field named PRL, the information for is transferred to EARTH via the GREX-called subroutine GXPRL. The geometry and flow are depicted diagramatically below: ____________________________________________________________ | Zero Pressure OUTLET3 ^ | |-----> NX5 cells | | 1.0m | | | Zero | |-----> <--0.2m--> | Pressure | _________ v OUTLET1 |Air |BLOCK 2 | ^ | |INLET1 |NZ6+NZ7 | 0.2m NX4 | |(WIN,T1IN) __________________|_cells__| v cells | |-----> ^0.05m| | P L A T E 2 | | | | v NX3 |P |____________________|P | | | ^ |l | |l | | |-----> 1.0 m |a | |a | | | NX1+NX2|t | <-1.0m-> |t | | | cells |e | ________ |e | | | | | | ^ ^ |BLOCK1| ^ | | | | | |1 | | | |NZ4 |0.5m |3 | | |_adiabatic_v_____|__|_|__|_|NX1___|_v____|__|___adiabatic__| Air Zero (UIN,T2IN) INLET2 Pressure OUTLET2 NZ2 cells NZ7 cells <----2.0m-------->< ><----- 2.0 m ------>< ><----2.0 m ---> NZ1 cells 0.05m NZ3+NZ4+NZ5+NZ6 0.05m NZ8 cells cells _ ^ /| | y (1.0m) x / |/ -- z --> Solution for the air-flow is performed first in isolation from the heat-transfer problem: all of the different heat-transfer cases are based upon this flow-field. The flow-field, once obtained, is frozen, and the heat-transfer problem is solved. Users might find it instructive to try varying the inlet velocities, and thereby vary the amount of cooling or heating of the plates and blocks by the air. In particular, reduction of UIN will cause BLOCK1 to become much hotter. Similarly, the strength of the heat sources, their location, and the conductivities, heat capacities and densities of the plates can be adjusted to produce rather different problems. Imperfect contact between the plates and blocks might be simulated by introducing the relevant surface porosities with values less than one in appropriate places. ENDDIS ************************************************************ Group 1. Run Title and Number ************************************************************ ************************************************************ TEXT(Conjugate Heat Transf In Air Flow ) ************************************************************ ************************************************************ IRUNN = 1 ;LIBREF = 14 ************************************************************ Group 2. Time dependence STEADY = T ************************************************************ Group 3. X-Direction Grid Spacing CARTES = T NX = 26 XULAST =2.25 XFRAC(1)=0.044444 ;XFRAC(2)=0.088889 XFRAC(3)=0.133333 ;XFRAC(4)=0.177778 XFRAC(5)=0.222222 ;XFRAC(6)=0.266667 XFRAC(7)=0.311111 ;XFRAC(8)=0.355556 XFRAC(9)=0.4 ;XFRAC(10)=0.444444 XFRAC(11)=0.451852 ;XFRAC(12)=0.459259 XFRAC(13)=0.466667 ;XFRAC(14)=0.496296 XFRAC(15)=0.525926 ;XFRAC(16)=0.555556 XFRAC(17)=0.6 ;XFRAC(18)=0.644444 XFRAC(19)=0.688889 ;XFRAC(20)=0.733333 XFRAC(21)=0.777778 ;XFRAC(22)=0.822222 XFRAC(23)=0.866667 ;XFRAC(24)=0.911111 XFRAC(25)=0.955556 ;XFRAC(26)=1. ************************************************************ Group 4. Y-Direction Grid Spacing NY = 1 YVLAST =1. YFRAC(1)=1. ************************************************************ Group 5. Z-Direction Grid Spacing PARAB = F NZ = 38 ZWLAST =6.1 ZFRAC(1)=0.032787 ;ZFRAC(2)=0.065574 ZFRAC(3)=0.098361 ;ZFRAC(4)=0.131148 ZFRAC(5)=0.163934 ;ZFRAC(6)=0.196721 ZFRAC(7)=0.229508 ;ZFRAC(8)=0.262295 ZFRAC(9)=0.295082 ;ZFRAC(10)=0.327869 ZFRAC(11)=0.330601 ;ZFRAC(12)=0.333333 ZFRAC(13)=0.336066 ;ZFRAC(14)=0.363525 ZFRAC(15)=0.390984 ;ZFRAC(16)=0.418443 ZFRAC(17)=0.445902 ;ZFRAC(18)=0.473361 ZFRAC(19)=0.50082 ;ZFRAC(20)=0.528279 ZFRAC(21)=0.555738 ;ZFRAC(22)=0.582787 ZFRAC(23)=0.609836 ;ZFRAC(24)=0.636885 ZFRAC(25)=0.663934 ;ZFRAC(26)=0.666667 ZFRAC(27)=0.669399 ;ZFRAC(28)=0.672131 ZFRAC(29)=0.704918 ;ZFRAC(30)=0.737705 ZFRAC(31)=0.770492 ;ZFRAC(32)=0.803279 ZFRAC(33)=0.836066 ;ZFRAC(34)=0.868852 ZFRAC(35)=0.901639 ;ZFRAC(36)=0.934426 ZFRAC(37)=0.967213 ;ZFRAC(38)=1. ************************************************************ Group 6. Body-Fitted Coordinates ************************************************************ Group 7. Variables: STOREd,SOLVEd,NAMEd ONEPHS = T NAME(1)=P1 ;NAME(3)=U1 NAME(7)=W1 ;NAME(14)=TEMP NAME(149)=PRL ;NAME(150)=BLOK * Y in SOLUTN argument list denotes: * 1-stored 2-solved 3-whole-field * 4-point-by-point 5-explicit 6-harmonic averaging SOLUTN(P1,Y,Y,Y,N,N,N) SOLUTN(U1,Y,Y,N,N,N,Y) SOLUTN(W1,Y,Y,N,N,N,Y) SOLUTN(TEMP,Y,N,N,N,N,N) SOLUTN(PRL,Y,N,N,N,N,Y) SOLUTN(BLOK,Y,N,N,N,N,Y) ************************************************************ Group 8. Terms & Devices * Y in TERMS argument list denotes: * 1-built-in source 2-convection 3-diffusion 4-transient * 5-first phase variable 6-interphase transport TERMS(P1,Y,Y,Y,N,Y,Y) TERMS(U1,Y,Y,Y,Y,Y,Y) TERMS(W1,Y,Y,Y,Y,Y,Y) DIFCUT =0.5 ;ZDIFAC =1. GALA = F ;ADDDIF = F ISOLX = -1 ;ISOLY = -1 ;ISOLZ = -1 ************************************************************ Group 9. Properties used if PRPS is not stored, and where PRPS = -1.0 if it is! RHO1 =1. ;TMP1 =0. ;EL1 =0. TSURR =0. ;TEMP0 =0. ;PRESS0 =0. DVO1DT =0. ;DRH1DP =0. EMISS =0. ;SCATT =0. RADIA =0. ;RADIB =0. ENUL =2.0E-05 ;ENUT =9.999999E-04 PRNDTL(U1)=1. ;PRNDTL(W1)=1. PRLH1A =0. ;PRLH1B =0. ;PRLH1C =0. PRT(U1)=1. ;PRT(W1)=1. CP1 =1. ;CP2 =1. ************************************************************ Group 10.Inter-Phase Transfer Processes ************************************************************ Group 11.Initial field variables (PHIs) FIINIT(P1)=0. ;FIINIT(U1)=0. FIINIT(W1)=5. ;FIINIT(TEMP)=20. FIINIT(PRL)=2.857143E-05 ;FIINIT(BLOK)=1. PATCH(PLTE1 ,INIVAL, 1, 13, 1, 1, 11, 13, 1, 1) INIT(PLTE1 ,PRL ,0. ,0.04 ) INIT(PLTE1 ,BLOK,0. ,2. ) PATCH(PLTE2 ,INIVAL, 11, 13, 1, 1, 14, 25, 1, 1) INIT(PLTE2 ,PRL ,0. ,0.04 ) INIT(PLTE2 ,BLOK,0. ,2. ) PATCH(PLTE3 ,INIVAL, 1, 13, 1, 1, 26, 28, 1, 1) INIT(PLTE3 ,PRL ,0. ,1.0E-03 ) INIT(PLTE3 ,BLOK,0. ,2. ) PATCH(INAIR ,INIVAL, 1, 10, 1, 1, 14, 25, 1, 1) INIT(INAIR ,BLOK,0. ,4. ) PATCH(BLOCK1 ,INIVAL, 1, 5, 1, 1, 18, 21, 1, 1) INIT(BLOCK1 ,PRL ,0. ,0.04 ) INIT(BLOCK1 ,BLOK,0. ,3. ) PATCH(BLOCK2 ,INIVAL, 14, 16, 1, 1, 24, 28, 1, 1) INIT(BLOCK2 ,PRL ,0. ,0.04 ) INIT(BLOCK2 ,BLOK,0. ,5. ) INIADD = F FSWEEP = 1 NAMFI =CHAM ************************************************************ Group 12. Patchwise adjustment of terms Patches for this group are printed with those for Group 13. Their names begin either with GP12 or & ************************************************************ Group 13. Boundary & Special Sources PATCH(INLET1 ,LOW , 1, 26, 1, 1, 1, 1, 1, 1) COVAL(INLET1 ,P1 , FIXFLU ,5. ) COVAL(INLET1 ,U1 ,0. ,0. ) COVAL(INLET1 ,W1 ,0. ,5. ) COVAL(INLET1 ,TEMP,0. ,20. ) PATCH(INLET2 ,WEST , 1, 1, 1, 1, 14, 17, 1, 1) COVAL(INLET2 ,P1 , FIXFLU ,1. ) COVAL(INLET2 ,U1 ,0. ,1. ) COVAL(INLET2 ,W1 ,0. ,0. ) COVAL(INLET2 ,TEMP,0. ,50. ) PATCH(OUTLET1 ,HIGH , 1, 26, 1, 1, 38, 38, 1, 1) COVAL(OUTLET1 ,P1 ,1000. ,0. ) COVAL(OUTLET1 ,U1 ,0. ,0. ) COVAL(OUTLET1 ,W1 ,0. ,0. ) COVAL(OUTLET1 ,TEMP,0. , SAME ) PATCH(OUTLET2 ,WEST , 1, 1, 1, 1, 22, 25, 1, 1) COVAL(OUTLET2 ,P1 ,1000. ,0. ) COVAL(OUTLET2 ,U1 ,0. ,0. ) COVAL(OUTLET2 ,W1 ,0. ,0. ) COVAL(OUTLET2 ,TEMP,0. , SAME ) PATCH(OUTLET3 ,EAST , 26, 26, 1, 1, 2, 37, 1, 1) COVAL(OUTLET3 ,P1 ,1000. ,0. ) COVAL(OUTLET3 ,U1 ,0. ,0. ) COVAL(OUTLET3 ,W1 ,0. ,0. ) COVAL(OUTLET3 ,TEMP,0. , SAME ) PATCH(PLT1W1 ,CELL , 1, 13, 1, 1, 10, 13, 1, 1) COVAL(PLT1W1 ,W1 , FIXVAL ,0. ) PATCH(PLT1U1 ,CELL , 1, 13, 1, 1, 11, 13, 1, 1) COVAL(PLT1U1 ,U1 , FIXVAL ,0. ) PATCH(PLT2W1 ,CELL , 11, 13, 1, 1, 14, 25, 1, 1) COVAL(PLT2W1 ,W1 , FIXVAL ,0. ) PATCH(PLT2U1 ,CELL , 10, 13, 1, 1, 14, 25, 1, 1) COVAL(PLT2U1 ,U1 , FIXVAL ,0. ) PATCH(PLT3U1 ,CELL , 1, 13, 1, 1, 26, 28, 1, 1) COVAL(PLT3U1 ,U1 , FIXVAL ,0. ) PATCH(PLT3W1 ,CELL , 1, 13, 1, 1, 25, 28, 1, 1) COVAL(PLT3W1 ,W1 , FIXVAL ,0. ) PATCH(BLK1W1 ,CELL , 1, 5, 1, 1, 17, 21, 1, 1) COVAL(BLK1W1 ,W1 , FIXVAL ,0. ) PATCH(BLK1U1 ,CELL , 1, 5, 1, 1, 18, 21, 1, 1) COVAL(BLK1U1 ,U1 , FIXVAL ,0. ) PATCH(BLK2W1 ,CELL , 14, 16, 1, 1, 23, 28, 1, 1) COVAL(BLK2W1 ,W1 , FIXVAL ,0. ) PATCH(BLK2U1 ,CELL , 14, 16, 1, 1, 24, 28, 1, 1) COVAL(BLK2U1 ,U1 , FIXVAL ,0. ) PATCH(HEATSOR ,CELL , 6, 6, 1, 1, 13, 13, 1, 1) COVAL(HEATSOR ,TEMP, FIXFLU ,1. ) PATCH(FIXTEMP ,CELL , 1, 5, 1, 1, 18, 21, 1, 1) COVAL(FIXTEMP ,TEMP,1. ,100. ) PATCH(VELUR1 ,PHASEM, 1, 26, 1, 1, 1, 10, 1, 1) COVAL(VELUR1 ,U1 ,130. , SAME ) COVAL(VELUR1 ,W1 ,190. , SAME ) PATCH(VELUR2 ,PHASEM, 14, 26, 1, 1, 11, 28, 1, 1) COVAL(VELUR2 ,U1 ,130. , SAME ) COVAL(VELUR2 ,W1 ,190. , SAME ) PATCH(VELUR3 ,PHASEM, 1, 26, 1, 1, 29, 38, 1, 1) COVAL(VELUR3 ,U1 ,130. , SAME ) COVAL(VELUR3 ,W1 ,190. , SAME ) PATCH(VELUR4 ,PHASEM, 1, 10, 1, 1, 14, 25, 1, 1) COVAL(VELUR4 ,U1 ,13.013 , SAME ) COVAL(VELUR4 ,W1 ,12.012001 , SAME ) XCYCLE = F EGWF = T WALLCO = GRND2 ************************************************************ Group 14. Downstream Pressure For PARAB ************************************************************ Group 15. Terminate Sweeps LSWEEP = 100 ;ISWC1 = 1 LITHYD = 1 ;LITFLX = 1 ;LITC = 1 ;ITHC1 = 1 SELREF = T RESFAC =1.0E-02 ************************************************************ Group 16. Terminate Iterations LITER(P1)=20 ;LITER(U1)=10 LITER(W1)=10 ENDIT(P1)=1.0E-03 ;ENDIT(U1)=1.0E-03 ENDIT(W1)=1.0E-03 ************************************************************ Group 17. Relaxation RELAX(P1,LINRLX,1.) RELAX(U1,FALSDT,1.) RELAX(W1,FALSDT,1.) RELAX(TEMP,LINRLX,1.) RELAX(PRL,LINRLX,1.) RELAX(BLOK,LINRLX,1.) OVRRLX =0. EXPERT = F ;NNORSL = F ************************************************************ Group 18. Limits VARMAX(P1)=1.0E+10 ;VARMIN(P1)=-1.0E+10 VARMAX(U1)=1.0E+06 ;VARMIN(U1)=-1.0E+06 VARMAX(W1)=1.0E+06 ;VARMIN(W1)=-1.0E+06 VARMAX(TEMP)=1.0E+10 ;VARMIN(TEMP)=-1.0E+10 VARMAX(PRL)=1.0E+10 ;VARMIN(PRL)=-1.0E+10 VARMAX(BLOK)=1.0E+10 ;VARMIN(BLOK)=-1.0E+10 ************************************************************ Group 19. Data transmitted to GROUND PARSOL = F ISG62 = 1 SPEDAT(SET,GXMONI,PLOTALL,L,T) ************************************************************ Group 20. Preliminary Printout ************************************************************ Group 21. Print-out of Variables INIFLD = F ;SUBWGR = F * Y in OUTPUT argument list denotes: * 1-field 2-correction-eq. monitor 3-selective dumping * 4-whole-field residual 5-spot-value table 6-residual table OUTPUT(P1,Y,N,Y,Y,Y,Y) OUTPUT(U1,Y,N,Y,Y,Y,Y) OUTPUT(W1,Y,N,Y,Y,Y,Y) OUTPUT(TEMP,Y,N,Y,Y,Y,Y) OUTPUT(PRL,Y,N,Y,N,N,N) OUTPUT(BLOK,Y,N,Y,N,N,N) ************************************************************ Group 22. Monitor Print-Out IXMON = 1 ;IYMON = 1 ;IZMON = 22 NPRMON = 100000 ;NPRMNT = 1 ;TSTSWP = -1 UWATCH = T ;USTEER = T HIGHLO = F ************************************************************ Group 23.Field Print-Out & Plot Control NPRINT = 100000 ;NUMCLS = 5 NXPRIN = -1 ;IXPRF = 1 ;IXPRL = 10000 NZPRIN = -1 ;IZPRF = 1 ;IZPRL = 10000 XZPR = F ;YZPR = F IPLTF = 1 ;IPLTL = -1 ;NPLT = -1 ISWPRF = 1 ;ISWPRL = 100000 ITABL = 3 ;IPROF = 1 ABSIZ =0.5 ;ORSIZ =0.4 NTZPRF = 1 ;NCOLPF = 50 ICHR = 2 ;NCOLCO = 45 ;NROWCO = 20 No PATCHes yet used for this Group ************************************************************ Group 24. Dumps For Restarts SAVE = T ;NOWIPE = F NSAVE =flow STOP