************************************************************
Q1 created by VDI menu, Version 3.3, Date 27/01/00
CPVNAM=VDI;SPPNAM=Core
************************************************************
Echo DISPLAY / USE settings
PHOTON USE
P
up z
use patgeo
msg Boiler geometry
msg Hit Enter to continue
pause
cl;red
vec x 3 sh
use patgeo
msg Gas velocities
msg Hit Enter to continue
pause
vec cl;red
set vec ph 2
vec x 3 sh
use patgeo
msg Coal fines velocities
msg Hit Enter to continue
pause
vec cl;red
con r2 x 3 fil;.001
use patgeo
msg Fines volume fractions
msg Hit Enter to continue
pause
con cl;red
con tmp1 x 3 fil;.001
use patgeo
msg Gas temperature
msg Hit Enter to continue
pause
con cl;red
con tmp2 x 3 fil;.001
use patgeo
msg Particle temperatures
msg Hit Enter to continue
pause
con cl;red
con yO2 x 3 fil;.001
use patgeo
msg Oxygen mass fractions
msg Hit Enter to continue
pause
con cl;red
con yN2 x 3 fil;.001
use patgeo
msg Nitrogen mass fractions
msg Hit Enter to continue
pause
con cl;red
con yH2 x 3 fil;.001
use patgeo
msg Hydrogen mass fractions
msg Hit Enter to continue
pause
con cl;red
con yH2O x 3 fil;.001
use patgeo
msg Water vapour mass fractions
msg Hit Enter to continue
pause
con cl;red
con yCO x 3 fil;.001
use patgeo
msg Carbon monoxide mass fractions
msg Hit Enter to continue
pause
con cl;red
con yCO2 x 3 fil;.001
use patgeo
msg Carbon dioxide mass fractions
msg Type e and hit Enter to quit
ENDUSE
DISPLAY
A model for the simulation of the flow, heat and mass
transfer in the combustion and convection chambers is
presented aimed at the simulation of the relevant physical
phenomena taking place in a coal-fired utility boilers.
ENDDIS
************************************************************
IRUNN = 1 ;LIBREF = 302
************************************************************
Group 1. Run Title
TEXT( Coal-Fired Boiler
************************************************************
Group 2. Transience
STEADY = T
************************************************************
Groups 3, 4, 5 Grid Information
* Overall number of cells, RSET(M,NX,NY,NZ,tolerance)
RSET(M,5,10,20)
* Set overall domain extent:
* xulast yvlast zwlast
name
XSI= 1.000000E+00; YSI= 2.000000E+00; ZSI= 1.000000E+01
RSET(D,CHAM )
************************************************************
Group 6. Body-Fitted coordinates
************************************************************
Group 7. Variables: STOREd,SOLVEd,NAMEd
ONEPHS = F
* Non-default variable names
NAME( 11) =SHAD ; NAME( 16) =MIXF
NAME(132) =PRPS ; NAME(133) =VPOR
NAME(134) =HPOR ; NAME(135) =EPOR
NAME(136) =NPOR ; NAME(137) =CMDO
NAME(138) =TMP2 ; NAME(139) =TMP1
NAME(140) =RHO2 ; NAME(141) =RHO1
NAME(142) =YH2O ; NAME(143) =YH2
NAME(144) =YN2 ; NAME(145) =YCO2
NAME(146) =YO2 ; NAME(147) =YCO
NAME(148) =EL1 ; NAME(149) =ENUT
NAME(150) =EPKE
* Solved variables list
SOLVE(P1 ,U1 ,U2 ,V1 ,V2 ,W1 ,W2 ,R1 )
SOLVE(R2 ,SHAD,H1 ,H2 ,MIXF)
* Stored variables list
STORE(EPKE,ENUT,EL1 ,YCO ,YO2 ,YCO2,YN2 ,YH2 )
STORE(YH2O,RHO1,RHO2,TMP1,TMP2,CMDO,NPOR,EPOR)
STORE(HPOR,VPOR,PRPS)
* Additional solver options
SOLUTN(P1 ,Y,Y,Y,N,N,Y)
SOLUTN(R1 ,Y,Y,N,Y,N,Y)
SOLUTN(R2 ,Y,Y,N,Y,N,Y)
TURMOD(KEMODL)
************************************************************
Group 8. Terms & Devices
TERMS (SHAD,Y,Y,Y,Y,N,N)
TERMS (H1 ,N,Y,Y,Y,Y,Y)
TERMS (H2 ,N,Y,Y,Y,N,Y)
NEWRH1 = T
************************************************************
Group 9. Properties
RHO1 = GRND7
RHO1A = 9.500000E-01 ;RHO1B = 5.000000E-02
RHO1C = 0.000000E+00
PRESS0 = 1.000000E+05
CP1 = 1.100000E+03
RHO2 = 1.000000E+03
RHO2A = 1.000000E+00 ;RHO2B = 0.000000E+00
RHO2C = 0.000000E+00
CP2 = 1.100000E+03
ENUL = 1.000000E-05
PHINT (H1 ) = GRND7 ;PHINT (H2 ) = GRND7
PHINT (MIXF) = 1.000000E+00
PHNH1A = 0.000000E+00 ;PHNH1B = 0.000000E+00
PHNH1C = 0.000000E+00
PHNH2A = 0.000000E+00 ;PHNH2B = 0.000000E+00
PHNH2C = 0.000000E+00
PRT (EP ) = 1.314000E+00
************************************************************
Group 10.Inter-Phase Transfer Processes
CFIPS = GRND7
RLOLIM = 1.000000E-09 ;CMDOT = GRND3
CFIPA = 1.000000E-09 ;CFIPB = 1.000000E-04
CFIPC = 1.000000E+02 ;CFIPD = 0.000000E+00
CMDTA = 1.400000E+05 ;CMDTB = 0.000000E+00
CMDTC = 1.482112E-01 ;CMDTD = 0.000000E+00
CINT (MIXF) = 0.000000E+00
************************************************************
Group 11.Initialise Var/Porosity Fields
FIINIT(R1 ) = 9.999000E-01 ;FIINIT(R2 ) = 1.000000E-04
FIINIT(SHAD) = 1.000000E-04 ;FIINIT(VPOR) = 1.000000E+00
FIINIT(HPOR) = 1.000000E+00 ;FIINIT(EPOR) = 1.000000E+00
FIINIT(NPOR) = 1.000000E+00 ;FIINIT(EPKE) = 1.000000E+00
PATCH (STEAMPOR,INIVAL,10,0,0,0,0,0,1,1)
INIT(STEAMPOR,VPOR, 0.000000E+00, 5.000000E-01)
INIT(STEAMPOR,HPOR, 0.000000E+00, 5.000000E-01)
INIT(STEAMPOR,EPOR, 0.000000E+00, 5.000000E-01)
INIT(STEAMPOR,NPOR, 0.000000E+00, 5.000000E-01)
PATCH (HEATPOR ,INIVAL,12,0,0,0,0,0,1,1)
INIT(HEATPOR ,VPOR, 0.000000E+00, 5.000000E-01)
INIT(HEATPOR ,HPOR, 0.000000E+00, 5.000000E-01)
INIT(HEATPOR ,EPOR, 0.000000E+00, 5.000000E-01)
INIT(HEATPOR ,NPOR, 0.000000E+00, 5.000000E-01)
INIADD = F
************************************************************
Group 12. Convection and diffusion adjustments
No PATCHes used for this Group
************************************************************
Group 13. Boundary & Special Sources
PATCH (AGRAV ,PHASEM,0,0,0,0,0,0,1,1)
COVAL (AGRAV ,W1 , FIXFLU ,-9.810000E+00)
COVAL (AGRAV ,W2 , FIXFLU ,-9.810000E+00)
PATCH (STEAM ,VOLUME,10,0,0,0,0,0,1,1)
COVAL (STEAM ,H1 , 5.000000E-01, 1.000000E+05)
PATCH (AIRHEATE,VOLUME,12,0,0,0,0,0,1,1)
COVAL (AIRHEATE,H1 , 4.000000E-01, 1.000000E+05)
************************************************************
Group 14. Downstream Pressure For PARAB
************************************************************
Group 15. Terminate Sweeps
LSWEEP = 400
RESFAC = 1.000000E-03
************************************************************
Group 16. Terminate Iterations
LITER (R1 ) = 1 ;LITER (R2 ) = 1
LITER (SHAD) = 1
************************************************************
Group 17. Relaxation
RELAX(P1 ,LINRLX, 5.000000E-01)
RELAX(U1 ,FALSDT, 5.000000E-02)
RELAX(U2 ,FALSDT, 5.000000E-02)
RELAX(V1 ,FALSDT, 5.000000E-02)
RELAX(V2 ,FALSDT, 5.000000E-02)
RELAX(W1 ,FALSDT, 5.000000E-02)
RELAX(W2 ,FALSDT, 5.000000E-02)
RELAX(R1 ,LINRLX, 5.000000E-01)
RELAX(R2 ,LINRLX, 5.000000E-01)
RELAX(SHAD,FALSDT, 5.000000E-02)
RELAX(KE ,FALSDT, 5.000000E-02)
RELAX(EP ,FALSDT, 5.000000E-02)
RELAX(H1 ,FALSDT, 5.000000E-02)
RELAX(H2 ,FALSDT, 5.000000E-02)
RELAX(MIXF,FALSDT, 5.000000E-02)
RELAX(RHO1,LINRLX, 3.000000E-01)
KELIN = 3
************************************************************
Group 18. Limits
VARMAX(U1 ) = 1.000000E+06 ;VARMIN(U1 ) =-1.000000E+06
VARMAX(U2 ) = 1.000000E+06 ;VARMIN(U2 ) =-1.000000E+06
VARMAX(V1 ) = 1.000000E+06 ;VARMIN(V1 ) =-1.000000E+06
VARMAX(V2 ) = 1.000000E+06 ;VARMIN(V2 ) =-1.000000E+06
VARMAX(W1 ) = 1.000000E+06 ;VARMIN(W1 ) =-1.000000E+06
VARMAX(W2 ) = 1.000000E+06 ;VARMIN(W2 ) =-1.000000E+06
VARMAX(R1 ) = 1.000000E+00 ;VARMIN(R1 ) = 1.000000E-06
VARMAX(R2 ) = 1.000000E+00 ;VARMIN(R2 ) = 1.000000E-09
VARMAX(H1 ) = 1.000000E+10 ;VARMIN(H1 ) = 0.000000E+00
VARMAX(H2 ) = 1.000000E+10 ;VARMIN(H2 ) = 0.000000E+00
VARMAX(MIXF) = 1.500000E-01 ;VARMIN(MIXF) = 1.000000E-06
VARMAX(TMP2) = 1.000000E+10 ;VARMIN(TMP2) = 3.000000E+02
VARMAX(TMP1) = 1.000000E+10 ;VARMIN(TMP1) = 3.000000E+02
VARMAX(RHO2) = 1.000000E+03 ;VARMIN(RHO2) = 1.000000E-03
VARMAX(RHO1) = 2.000000E+00 ;VARMIN(RHO1) = 1.000000E-03
VARMAX(YH2O) = 1.000000E+00 ;VARMIN(YH2O) = 0.000000E+00
VARMAX(YH2 ) = 1.000000E+00 ;VARMIN(YH2 ) = 0.000000E+00
VARMAX(YN2 ) = 1.000000E+00 ;VARMIN(YN2 ) = 0.000000E+00
VARMAX(YCO2) = 1.000000E+00 ;VARMIN(YCO2) = 0.000000E+00
VARMAX(YO2 ) = 1.000000E+00 ;VARMIN(YO2 ) = 0.000000E+00
VARMAX(YCO ) = 1.000000E+00 ;VARMIN(YCO ) = 0.000000E+00
VARMAX(EL1 ) = 1.000000E+10 ;VARMIN(EL1 ) = 0.000000E+00
VARMAX(ENUT) = 1.000000E+10 ;VARMIN(ENUT) = 0.000000E+00
VARMAX(EPKE) = 1.000000E+10 ;VARMIN(EPKE) = 1.000000E-06
************************************************************
Group 19. EARTH Calls To GROUND Station
USEGRD = T ;USEGRX = T
GENK = T
ASAP = T
************************************************************
Group 20. Preliminary Printout
ECHO = T
************************************************************
Group 21. Print-out of Variables
OUTPUT(P1 ,Y,Y,Y,Y,Y,Y)
OUTPUT(U1 ,Y,Y,Y,N,Y,Y)
OUTPUT(U2 ,Y,Y,Y,N,Y,Y)
OUTPUT(V1 ,Y,Y,Y,N,Y,Y)
OUTPUT(V2 ,Y,Y,Y,N,Y,Y)
OUTPUT(W1 ,Y,Y,Y,Y,Y,Y)
OUTPUT(W2 ,Y,Y,Y,Y,Y,Y)
OUTPUT(R1 ,Y,Y,Y,Y,Y,Y)
OUTPUT(R2 ,Y,Y,Y,Y,Y,Y)
OUTPUT(SHAD,Y,N,Y,N,N,N)
************************************************************
Group 22. Monitor Print-Out
IXMON = 1 ;IYMON = 1 ;IZMON = 4
NPRMON = 100000
NPRMNT = 1
TSTSWP = -1
************************************************************
Group 23.Field Print-Out & Plot Control
NPRINT = 100000
NZPRIN = 1
ISWPRF = 1 ;ISWPRL = 100000
No PATCHes used for this Group
************************************************************
Group 24. Dumps For Restarts
NOWIPE = T
GVIEW(P,-9.493308E-01,2.914123E-01,1.176854E-01)
GVIEW(UP,1.166439E-01,-2.100885E-02,9.929516E-01)
> DOM, SIZE, 1.000000E+00, 2.000000E+00, 1.000000E+01
> DOM, MONIT, 1.000000E-01, 1.000000E-01, 1.750000E+00
> DOM, SCALE, 3.000000E+00, 3.000000E+00, 1.000000E+00
> DOM, SNAPSIZE, 1.000000E-02
> GRID, RSET_Y_1, 10, 1.000000E+00
> DOM, RELAX, 3.000000E-01
> OBJ1, NAME, OUTLET
> OBJ1, POSITION, 0.000000E+00, 2.000001E+00, 0.000000E+00
> OBJ1, SIZE, 1.000000E+00, 0.000000E+00, 1.000000E+00
> OBJ1, CLIPART, cube12t
> OBJ1, ROTATION24, 1
> OBJ1, GRID, 2.000000E+00
> OBJ1, TYPE, OUTLET
> OBJ1, PRESSURE, 0.000000E+00
> OBJ1, TEMPERATURE, -1.026000E+04
> OBJ1, COEFFICIENT, 1.000000E+03
> OBJ1, TEMPERATURE-2,-1.026000E+04
> OBJ1, COEFFICIENT-2, 1.000000E+06
> OBJ1, TURBULENCE, -1.026000E+04,-1.026000E+04
> OBJ2, NAME, INWALL
> OBJ2, POSITION, 0.000000E+00, 1.000000E+00, 0.000000E+00
> OBJ2, SIZE, 1.000000E+00, 0.000000E+00, 8.000000E+00
> OBJ2, CLIPART, cube11
> OBJ2, ROTATION24, 1
> OBJ2, GRID, 2.000000E+00
> OBJ2, TYPE, PLATE
> OBJ2, POROSITY, 0.000000E+00
> OBJ2, SIDE, BOTH
> OBJ3, NAME, SOUWALL
> OBJ3, POSITION, 0.000000E+00, 0.000000E+00, 0.000000E+00
> OBJ3, SIZE, 1.000000E+00, 0.000000E+00, 1.000000E+01
> OBJ3, CLIPART, cube11
> OBJ3, ROTATION24, 1
> OBJ3, TYPE, PLATE
> OBJ3, ADIABATI1, 0.000000E+00, 0.000000E+00
> OBJ3, ADIABATI2, 0.000000E+00, 0.000000E+00
> OBJ4, NAME, BURNER1
> OBJ4, POSITION, 6.000000E-01, 0.000000E+00, 5.000000E-01
> OBJ4, SIZE, 2.000000E-01, 0.000000E+00, 5.000000E-01
> OBJ4, GEOMETRY, cylinder
> OBJ4, ROTATION24, 5
> OBJ4, GRID, 2.000000E+00
> OBJ4, TYPE, INLET
> OBJ4, DENSITY, 9.999000E-01
> OBJ4, DENSITY-2, 1.000000E-01
> OBJ4, VELOCITY, 0.000000E+00, 2.000000E+01, 0.000000E+00
> OBJ4, VELOCITY-2, 0.000000E+00, 2.000000E+01, 0.000000E+00
> OBJ4, TEMPERATURE, 3.300000E+05
> OBJ4, TEMPERATURE-2, 3.300000E+05
> OBJ4, TURB-INTENS, 5.000000E+00
> OBJ5, NAME, BURNER2
> OBJ5, POSITION, 2.000000E-01, 0.000000E+00, 5.000000E-01
> OBJ5, SIZE, 2.000000E-01, 0.000000E+00, 5.000000E-01
> OBJ5, GEOMETRY, cylinder
> OBJ5, ROTATION24, 5
> OBJ5, GRID, 2.000000E+00
> OBJ5, TYPE, INLET
> OBJ5, DENSITY, 9.999000E-01
> OBJ5, DENSITY-2, 1.000000E-01
> OBJ5, VELOCITY, 0.000000E+00, 2.000000E+01, 0.000000E+00
> OBJ5, VELOCITY-2, 0.000000E+00, 2.000000E+01, 0.000000E+00
> OBJ5, TEMPERATURE, 3.300000E+05
> OBJ5, TEMPERATURE-2, 3.300000E+05
> OBJ5, TURB-INTENS, 5.000000E+00
> OBJ6, NAME, TOPWALL
> OBJ6, POSITION, 0.000000E+00, 0.000000E+00, 1.000000E+01
> OBJ6, SIZE, 1.000000E+00, 2.000000E+00, 0.000000E+00
> OBJ6, CLIPART, cube11
> OBJ6, ROTATION24, 1
> OBJ6, TYPE, PLATE
> OBJ6, ADIABATI1, 0.000000E+00, 0.000000E+00
> OBJ6, ADIABATI2, 0.000000E+00, 0.000000E+00
> OBJ7, NAME, BOTWALL
> OBJ7, POSITION, 0.000000E+00, 0.000000E+00, 0.000000E+00
> OBJ7, SIZE, 1.000000E+00, 2.000000E+00, 0.000000E+00
> OBJ7, CLIPART, cube11
> OBJ7, ROTATION24, 1
> OBJ7, TYPE, PLATE
> OBJ7, ADIABATI1, 0.000000E+00, 0.000000E+00
> OBJ7, ADIABATI2, 0.000000E+00, 0.000000E+00
> OBJ8, NAME, NORWALL
> OBJ8, POSITION, 0.000000E+00, 2.000000E+00, 1.000000E+00
> OBJ8, SIZE, 1.000000E+00, 0.000000E+00, 9.000000E+00
> OBJ8, CLIPART, cube11
> OBJ8, ROTATION24, 1
> OBJ8, TYPE, PLATE
> OBJ8, ADIABATI1, 0.000000E+00, 0.000000E+00
> OBJ8, ADIABATI2, 0.000000E+00, 0.000000E+00
> OBJ9, NAME, EASWALL
> OBJ9, POSITION, 1.000000E+00, 0.000000E+00, 0.000000E+00
> OBJ9, SIZE, 0.000000E+00, 2.000000E+00, 1.000000E+01
> OBJ9, CLIPART, cube11
> OBJ9, ROTATION24, 1
> OBJ9, TYPE, PLATE
> OBJ9, ADIABATI1, 0.000000E+00, 0.000000E+00
> OBJ9, ADIABATI2, 0.000000E+00, 0.000000E+00
> OBJ10, NAME, B10
> OBJ10, POSITION, 0.000000E+00, 6.000000E-01, 8.600000E+00
> OBJ10, SIZE, 1.000000E+00, 8.666667E-01, 1.400000E+00
> OBJ10, CLIPART, cube12t
> OBJ10, ROTATION24, 1
> OBJ10, VISIBLE, -1.000000E+00
> OBJ10, GRID, 2.000000E+00
> OBJ10, TYPE, USER_DEFINED
> OBJ11, NAME, B11
> OBJ11, POSITION, 0.000000E+00, 6.000000E-01, 8.600000E+00
> OBJ11, SIZE, 1.000000E+00, 8.670000E-01, 1.400000E+00
> OBJ11, CLIPART, 14
> OBJ11, ROTATION24, 9
> OBJ11, TYPE, CELLTYPE
> OBJ12, NAME, B12
> OBJ12, POSITION, 0.000000E+00, 1.200000E+00, 2.400000E+00
> OBJ12, SIZE, 1.000000E+00, 8.000002E-01, 3.600000E+00
> OBJ12, CLIPART, cube12t
> OBJ12, ROTATION24, 1
> OBJ12, VISIBLE, -1.000000E+00
> OBJ12, GRID, 2.000000E+00
> OBJ12, TYPE, USER_DEFINED
> OBJ13, NAME, B13
> OBJ13, POSITION, 0.000000E+00, 1.200000E+00, 2.400000E+00
> OBJ13, SIZE, 1.000000E+00, 8.000000E-01, 3.600000E+00
> OBJ13, CLIPART, 14
> OBJ13, ROTATION24, 12
> OBJ13, GRID, 2.000000E+00
> OBJ13, TYPE, USER_DEFINED
STOP
distil=t
EX(P1 )= 4.785E+01
EX(U1 )= 4.764E-01
EX(U2 )= 3.964E-01
EX(V1 )= 2.364E+00
EX(V2 )= 2.383E+00
EX(W1 )= 1.278E+01
EX(W2 )= 1.259E+01
EX(R1 )= 1.000E+00
EX(R2 )= 3.466E-06
EX(SHAD)= 2.763E-05
EX(KE )= 2.438E+00
EX(EP )= 1.433E+01
EX(H1 )= 1.717E+06
EX(H2 )= 3.786E+07
EX(MIXF)= 7.561E-02
EX(PRPS)= 1.000E+00
EX(VPOR)= 9.000E-01
EX(HPOR)= 9.000E-01
EX(EPOR)= 9.000E-01
EX(NPOR)= 8.200E-01
EX(CMDO)= 2.983E-04
EX(TMP2)= 1.101E+03
EX(TMP1)= 1.321E+03
EX(RHO2)= 1.000E+03
EX(RHO1)= 2.821E-01
EX(YH2O)= 2.986E-02
EX(YH2 )= 4.626E-04
EX(YN2 )= 7.099E-01
EX(YCO2)= 2.312E-01
EX(YO2 )= 8.085E-03
EX(YCO )= 2.051E-02
EX(EL1 )= 5.266E-02
EX(ENUT)= 4.102E-02
EX(EPKE)= 4.299E+00