****** PARAMETERS ***** 2.60000 NEKTON VERSION 3 DIMENSIONAL RUN 118 PARAMETERS FOLLOW 1.00000 p1 DENSITY -1.00000 p2 VISCOS 0. 0. 0. 0. 1.00000 p7 RHOCP 1.00000 p8 CONDUCT 0. 0. p10 FINTIME 100000 p11 NSTEPS 0.5e-2 p12 DT 0. p13 IOCOMM 0 p14 IOTIME 100.00 p15 IOSTEP 0. p16 PSSOLVER 0. 0.250000E-01 p18 GRID -1.00000 p19 INTYPE 4.0000 p20 NORDER 0.000000E-06 p21 DIVERGENCE 0.000000E-08 p22 HELMHOLTZ 0. p23 NPSCAL 1.000000E-05 p24 TOLREL 1.000000E-05 p25 TOLABS 5.00000 p26 COURANT/NTAU 2.00000 p27 TORDER 0. p28 TORDER: mesh velocity (0: p28=p27) 0. p29 magnetic visc if > 0, = -1/Rm if < 0 0. p30 > 0 ==> properties set in uservp() 0. p31 NPERT: #perturbation modes 0. p32 #BCs in re2 file, if > 0 0. 0. 0. 0. 0. 0. 0. 0. 0. p41 1-->multiplicative SEMG 1.00000 p42 0=gmres/1=pcg 1.00000 p43 0=semg/1=schwarz 1.00000 p44 0=E-based/1=A-based prec. 0. p45 Relaxation factor for DTFS 0. p46 reserved 0. p47 vnu: mesh matieral prop 0. 0. 0. 0. 0. p52 IOHIS 0. 0. p54 1,2,3-->fixed flow rate dir=x,y,z 0. p55 vol.flow rate (p54>0) or Ubar (p54<0) 0. 0. 0. 0. p59 !=0 --> full Jac. eval. for each el. 0. p60 !=0 --> init. velocity to small nonzero 0. 0. p62 >0 --> force byte_swap for output 0. p63 =8 --> force 8-byte output 0. p64 =1 --> perturbation restart 0. p65 #iofiles (eg, 0 or 64); <0 --> sep. dirs 4.00000 p66 output : <0=ascii, else binary 4.00000 p67 restart: <0=ascii, else binary 0. p68 iastep: freq for avg_all 0. 0. 0. 0. 0. 0. p74 verbose Helmholtz 0. 0. 0. 0. 0. 0. 0. 0. 0. 0. p84 !=0 --> sets initial timestep if p12>0 0. p85 dt ratio if p84 !=0, for timesteps>0 0. p86 reserved 0. 0. 0. 0. 0. 0. 40.0000 p93 Number of previous pressure solns saved 0 5.00000 p94 start projecting velocity after p94 step 0 5.00000 p95 start projecting pressure after p95 step 0. 0. 0. 3.00000 p99 dealiasing: <0--> off/3--> old/4--> new 0. 0. p101 No. of additional filter modes 1.00000 p102 Dump out divergence at each time step .000 p103 weight of stabilizing filter (.01) 0. 0. 0. 0. p107 !=0--> add to h2 array in hlmhotz eqn 0. 0. 0. 0. 0. 0. 0. 0. 0 40. p116 !=0: x elements for fast tensor product 0 28. p117 !=0: y elements for fast tensor product 0 1. p118 !=0: z elements for fast tensor product 4 Lines of passive scalar data follows2 CONDUCT; 2RHOCP 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 13 LOGICAL SWITCHES FOLLOW T IFFLOW T IFHEAT T IFTRAN T T F F F F F F F F F IFNAV & IFADVC (convection in P.S. fields) F F T T T T T T T T T T IFTMSH (IF mesh for this field is T mesh) F IFAXIS F IFSTRS F IFSPLIT F IFMGRID F IFMODEL F IFKEPS F IFMVBD T IFCHAR 8.00000 8.00000 -0.500000 -4.00000 XFAC,YFAC,XZERO,YZERO 0 PRESOLVE/RESTART OPTIONS ***** 7 INITIAL CONDITIONS ***** C Default C Default C Default C Default C Default C Default C Default ***** DRIVE FORCE DATA ***** BODY FORCE, FLOW, Q 4 Lines of Drive force data follow C C C C ***** Variable Property Data ***** Overrrides Parameter data. 1 Lines follow. 0 PACKETS OF DATA FOLLOW ***** HISTORY AND INTEGRAL DATA ***** 001 POINTS. Hcode, I,J,H,IEL UV PT H 3 3 1 1 ***** OUTPUT FIELD SPECIFICATION ***** 6 SPECIFICATIONS FOLLOW F COORDINATES T VELOCITY T PRESSURE T TEMPERATURE F TEMPERATURE GRADIENT 0 PASSIVE SCALARS ***** OBJECT SPECIFICATION ***** 0 Surface Objects 0 Volume Objects 0 Edge Objects 0 Point Objects