1 ****** PARAMETERS ***** 2 2.60999990 NEKTON VERSION 3 3 DIMENSIONAL RUN 4 118 PARAMETERS FOLLOW 5 1.00000 p001 DENSITY 6 -100.000 p002 VISCOS 7 0.00000 p003 8 0.00000 p004 9 0.00000 p005 10 0.00000 p006 11 1.00000 p007 RHOCP 12 1.00000 p008 CONDUCT 13 0.00000 p009 14 0.00000 p010 FINTIME 15 1.00 p011 NSTEPS 16 -0.500000E-02 p012 DT 17 0.00000 p013 IOCOMM 18 0.00000 p014 IOTIME 19 0.00000 p015 IOSTEP 20 0.00000 p016 PSSOLVER: 0=default 21 0.00000 p017 22 0.00000 p018 GRID < 0 --> # cells on screen 23 0.00000 p019 INTYPE 24 0.00000 p020 NORDER 25 0.100000E-05 p021 DIVERGENCE 26 0.100000E-07 p022 HELMHOLTZ 27 0 p23 NPSCAL 28 0.100000E-09 p024 TOLREL 29 0.100000E-09 p025 TOLABS 30 0.250000 p026 COURANT/NTAU 31 2.00000 p027 TORDER 32 0.00000 p028 TORDER: mesh velocity (0: p28=p27) 33 0.00000 p029 = magnetic visc if > 0, = -1/Rm if < 0 34 0.00000 p030 > 0 ==> properties set in uservp() 35 0.00000 p031 NPERT: #perturbation modes 36 0.00000 p032 #BCs in re2 file, if > 0 37 0.00000 p033 38 0.00000 p034 39 0.00000 p035 40 0.00000 p036 41 0.00000 p037 42 0.00000 p038 43 0.00000 p039 44 0.00000 p040 45 0.00000 p041 1-->multiplicative SEMG 46 0.00000 p042 0=gmres/1=pcg 47 0.00000 p043 0=semg/1=schwarz 48 0.00000 p044 0=E-based/1=A-based prec. 49 0.00000 p045 Relaxation factor for DTFS 50 0.00000 p046 reserved 51 0.00000 p047 vnu: mesh matieral prop. 52 0.00000 p048 53 0.00000 p049 54 0.00000 p050 55 0.00000 p051 56 0.00000 p052 IOHIS 57 0.00000 p053 58 0.00000 p054 fixed flow rate dir: |p54|=1,2,3=x,y,z 59 0.00000 p055 vol.flow rate (p54>0) or Ubar (p54<0) 60 0.00000 p056 61 0.00000 p057 62 0.00000 p058 63 0.00000 p059 !=0 --> full Jac. eval. for each el. 64 0.00000 p060 !=0 --> init. velocity to small nonzero 65 0.00000 p061 66 0.00000 p062 >0 --> force byte_swap for output 67 0.00000 p063 =8 --> force 8-byte output 68 0.00000 p064 =1 --> perturbation restart 69 0.00000 p065 #iofiles (eg, 0 or 64); <0 --> sep. dirs 70 6.00000 p066 output : <0=ascii, else binary 71 6.00000 p067 restart: <0=ascii, else binary 72 0.00000 p068 iastep: freq for avg_all (0=iostep) 73 0.00000 p069 74 0.00000 p070 75 0.00000 p071 76 0.00000 p072 77 0.00000 p073 78 0.00000 p074 verbose Helmholtz 79 0.00000 p075 80 0.00000 p076 81 0.00000 p077 82 0.00000 p078 83 0.00000 p079 84 0.00000 p080 85 0.00000 p081 86 0.00000 p082 87 0.00000 p083 88 0.00000 p084 !=0 --> sets initial timestep if p12>0 89 0.00000 p085 dt ratio if p84 !=0, for timesteps>0 90 0.00000 p086 reserved 91 0.00000 p087 92 0.00000 p088 93 0.00000 p089 p89 reserved 94 0.00000 p090 95 0.00000 p091 96 0.00000 p092 97 0.00000 p093 Number of previous pressure solns saved 98 0.00000 p094 start projecting velocity after p94 step 99 0.00000 p095 start projecting pressure after p95 step 100 0.00000 p096 101 0.00000 p097 102 0.00000 p098 103 3.00000 p099 dealiasing: <0--> off/3--> old/4--> new 104 0.00000 p100 105 0.00000 p101 Number of additional modes to filter 106 0.00000 p102 Dump out divergence at each time step 107 0.500000E-01 p103 weight of stabilizing filter (.01) 108 0.00000 p104 109 0.00000 p105 110 0.00000 p106 111 0.00000 p107 !=0 --> add to h2 array in hlmhotz eqn 112 0.00000 p108 113 0.00000 p109 114 0.00000 p110 115 0.00000 p111 116 0.00000 p112 117 0.00000 p113 118 0.00000 p114 119 0.00000 p115 120 0.00000 p116 !=0: x elements for fast tensor product 121 0.00000 p117 !=0: y elements for fast tensor product 122 0.00000 p118 !=0: z elements for fast tensor product 123 4 Lines of passive scalar data follows2 CONDUCT; 2RHOCP 124 1.00000 1.00000 1.00000 1.00000 1.00000 125 1.00000 1.00000 1.00000 1.00000 126 1.00000 1.00000 1.00000 1.00000 1.00000 127 1.00000 1.00000 1.00000 1.00000 128 13 LOGICAL SWITCHES FOLLOW 129 T IFFLOW 130 F IFHEAT 131 T IFTRAN 132 T T F F F F F F F F F IFNAV & IFADVC (convection in P.S. fields) 133 F F T T T T T T T T T T IFTMSH (IF mesh for this field is T mesh) 134 F IFAXIS 135 F IFSTRS 136 F IFSPLIT 137 F IFMGRID 138 F IFMODEL 139 F IFKEPS 140 F IFMVBD 141 F IFCHAR 142 8.00000 8.00000 -4.00000 -4.00000 XFAC,YFAC,XZERO,YZERO 143 **MESH DATA** 6 lines are X,Y,Z;X,Y,Z. Columns corners 1-4;5-8 144 1 3 1 NEL,NDIM,NELV 145 ELEMENT 1 [ 1a] GROUP 0 146 -1.00000 1.00000 1.00000 -1.00000 147 -1.00000 -1.00000 1.00000 1.00000 148 -1.00000 -1.00000 -1.00000 -1.00000 149 -1.00000 1.00000 1.00000 -1.00000 150 -1.00000 -1.00000 1.00000 1.00000 151 1.00000 1.00000 1.00000 1.00000 152 ***** CURVED SIDE DATA ***** 153 0 Curved sides follow IEDGE,IEL,CURVE(I),I=1,5, CCURVE 154 ***** BOUNDARY CONDITIONS ***** 155 ***** FLUID BOUNDARY CONDITIONS ***** 156 W 1 1 0.00000 0.00000 0.00000 0.00000 0.00000 157 W 1 2 0.00000 0.00000 0.00000 0.00000 0.00000 158 W 1 3 0.00000 0.00000 0.00000 0.00000 0.00000 159 W 1 4 0.00000 0.00000 0.00000 0.00000 0.00000 160 W 1 5 0.00000 0.00000 0.00000 0.00000 0.00000 161 W 1 6 0.00000 0.00000 0.00000 0.00000 0.00000 162 ***** NO THERMAL BOUNDARY CONDITIONS ***** 163 0 PRESOLVE/RESTART OPTIONS ***** 164 7 INITIAL CONDITIONS ***** 165C Default 166C Default 167C Default 168C Default 169C Default 170C Default 171C Default 172 ***** DRIVE FORCE DATA ***** BODY FORCE, FLOW, Q 173 4 Lines of Drive force data follow 174C 175C 176C 177C 178 ***** Variable Property Data ***** Overrrides Parameter data. 179 1 Lines follow. 180 0 PACKETS OF DATA FOLLOW 181 ***** HISTORY AND INTEGRAL DATA ***** 182 0 POINTS. Hcode, I,J,H,IEL 183 ***** OUTPUT FIELD SPECIFICATION ***** 184 6 SPECIFICATIONS FOLLOW 185 T COORDINATES 186 T VELOCITY 187 T PRESSURE 188 T TEMPERATURE 189 F TEMPERATURE GRADIENT 190 0 PASSIVE SCALARS 191 ***** OBJECT SPECIFICATION ***** 192 0 Surface Objects 193 0 Volume Objects 194 0 Edge Objects 195 0 Point Objects 196