PHOTON USE p up z g ou ce x 1 g ou ce x 1 y 1 5 z 9 12 ve x 1 sh msg Velocity distribution: msg Pressto continue pause;ve off;red msg Temperature distribution : con temp x 1 fil;0.001 g ou ce x 1 y 1 5 z 9 12 col 4 msg Press e to END ENDUSE * GROUP 1. Run title and other preliminaries. TEXT( NATURAL STIRRING IN A STABLY FLUID:124 DISPLAY This case simulates the natural convection phenomena which occur when passive solids are placed in stably stratified fluids of different thermal conductivities. Because of highly non-linear problem nature the number of sweeps for under-relaxations employed may not be enough for completely converged solution. More details of physical nature and mathematical statement plus the experimental and numeric data for comparisons can be found in G.L.Quarini and K.H. Winters ( Proc. of 1st U.K. National Conference on Heat Transfer, 1984, v.2, pp. 857-866) ENDDIS * GROUP 3. X-direction grid specification. * Cylindrical-Polar Grid Selected CARTES=F;XULAST=0.1 * GROUP 4. Y-direction grid specification. * Number of Cells in the RADIAL Direction NY=10 * Power-Law Grid Spacing in Subregion 1 SUBGRD(Y,1,5, 3.750E-02,-1.5) INTEGER(NYF01,NYL01); NYF01=1; NYL01=5 * Power-Law Grid Spacing in Subregion 2 SUBGRD(Y,6,10, 5.000E-02, 1.5) INTEGER(NYF02,NYL02); NYF02=6; NYL02=10 * GROUP 5. Z-direction grid specification. * Number of Cells in the AXIAL Direction NZ=20 * Power-Law Grid Spacing in Subregion 1 SUBGRD(Z,1,8, 1.125E-01,-2.0) INTEGER(NZF01,NZL01); NZF01=1; NZL01=8 * Symmetric Power-Law Grid Spacing in Subregion 2 SUBGRD(Z,9,-12, 7.500E-02, 2.0) INTEGER(NZF02,NZL02); NZF02=9; NZL02=12 * Power-Law Grid Spacing in Subregion 3 SUBGRD(Z,13,20, 1.125E-01, 2.000E+00) INTEGER(NZF03,NZL03); NZF03=13; NZL03=20 * GROUP 7. Variables stored, solved & named. SOLVE(P1,V1,W1,TEMP) STORE(VISC,DIFS) Activate harmonic averaging SOLUTN(V1,P,P,P,P,P,Y);SOLUTN(W1,P,P,P,P,P,Y) SOLUTN(TEMP,P,P,P,P,P,Y) * GROUP 8. Terms (in differential equations) & devices. * GROUP 9. Properties of the medium (or media). RHO1= 1.0 ENUL=GRND PRNDTL(TEMP)=-GRND INIADD=F Viscosity PATCH(VISCF,INIVAL,1,1,1,NY,1,NZ,1,1) INIT(VISCF,VISC,0.0,5.4) PATCH(VISCS,INIVAL,1,1,NYF01,NYL01,NZF02,NZL02,1,1) INIT(VISCS,VISC,0.0,1.e10) Diffusivity PATCH(KOVRF,INIVAL,1,1,1,NY,1,NZ,1,1) INIT(KOVRF,DIFS,0.0,1.) PATCH(KOVRM,INIVAL,1,1,NYF01,NYL01,NZF02,NZL02,1,1) INIT(KOVRM,DIFS,0.0,600.) * GROUP 11. Initialization of variable or porosity fields. FIINIT(W1)=.01 * GROUP 13. Boundary conditions and special sources. PATCH(REP,VOLUME,1,1,1,1,NZ,NZ,1,1) COVAL(REP,P1,FIXP,0.0) COVAL(REP,W1,ONLYMS,0.0) COVAL(REP,V1,ONLYMS,0.0) COVAL(REP,TEMP,ONLYMS,SAME) Low cold wall PATCH(COLD,LWALL,1,1,1,NY,1,1,1,1) COVAL(COLD,TEMP,1./5.4,0.0) COVAL(COLD,V1,1.,0.0) High hot wall PATCH(HOT,HWALL,1,1,1,NY,NZ,NZ,1,1) COVAL(HOT,TEMP,1./5.4,1.0) COVAL(HOT,V1,1.,0.0) Zero-slip adiabatic side walls PATCH(RIGHT,NWALL,1,1,NY,NY,1,NZ,1,1) COVAL(RIGHT,W1,1.,0.0) PATCH(LEFT,SWALL,1,1,1,1,1,NZ,1,1) COVAL(LEFT,W1,1.,0.0) Solid material: set velocities to zero. PATCH(ZEROW,CELL,1,1,NYF01,NYL01,NZL01,NZL02,1,1) COVAL(ZEROW,W1,FIXVAL,0.0) PATCH(ZEROV,CELL,1,1,NYF01,NYL01,NZF02,NZL02,1,1) COVAL(ZEROV,V1,FIXVAL,0.0) * GROUP 15. Termination of sweeps. LSWEEP=500 * GROUP 16. Termination of iterations. * GROUP 17. Under-relaxation devices. RELAX(P1,LINRLX,0.5) RELAX(V1,FALSDT,1.e-05);RELAX(W1,FALSDT,1.e-05) RELAX(TEMP,FALSDT,1.e-05) * GROUP 18. Limits on variables or increments to them. * GROUP 19. Data communicated by satellite to GROUND. NAMSAT=MOSG * GROUP 20. Preliminary print-out. * Deactivate Print-Out of Satellite Data. * GROUP 22. Spot-value print-out. IYMON=6;IZMON=8 * GROUP 23. Field print-out and plot control. ITABL=3 * GROUP 24. Preparations for continuation runs. tstswp=-1 dmpstk=t PLANTBEGIN VISL=VISC LAMPR(TEMP)=DIFS PATCH(TMP,INIVAL,1,1,1,NY,1,NZ,1,1) VAL=ZGNZ/0.3 INIT(TMP,TEMP,0.0,GRND) Buoyancy forces PATCH(BODY,VOLUME,1,1,1,NY,1,NZ,1,1) VAL=100.*5.4*TEMP COVAL(BODY,W1,FIXFLU,GRND) PLANTEND DISTIL=T EX(P1)=2.959E+02; EX(V1)=5.016E-05; EX(W1)=8.165E-05 EX(DIFS)=6.090E+01; EX(VISC)=1.000E+09; EX(TEMP)=5.000E-01 LIBREF=124 STOP