KRC for Mars
From krc
Contents |
General advice about using KRC on Mars
When using KRC on Mars the best practice is to:
- Stay away from poles
- be aware of what season it is
- be aware of the opacity settings
KRC Davinci Interface Template
Command Line Example
$ davinci dv>
dv> krc(lat = 25
KRC Fortran Input File Example
0 0 / KOLD: season to start with; KEEP: continue saving data in same disk file Version 222 default values. 19 latitudes with mean Mars elevations ALBEDO EMISS INERTIA COND2 DENS2 PERIOD SPEC_HEAT DENSITY .25 1.00 200.0 2.77 928.0 1.0275 647. 1600. CABR AMW [ABRPHA PTOTAL FANON TATM TDEEP SpHeat2 0.11 43.5 -0.00 546.0 .055 200. 180.0 1711. TAUD DUSTA TAURAT TWILI ARC2 [ARC3 SLOPE SLOAZI 0.3 .90 0.5 0.0 0.5 -0.00 0.0 90. TFROST CFROST AFROST FEMIS AF1 AF2 FROEXT [FD32 146.0 589944. .65 0.95 0.54 0.0009 50. 0.0 RLAY FLAY CONVF DEPTH DRSET DDT GGT DTMAX 1.2000 .1800 2.0000 0.0 0.0 .0020 0.1 0.1 DJUL DELJUL SOLARDEC DAU LsubS SOLCON GRAV AtmCp -1222.69 17.174822 00.0 1.465 .0 1368. 3.727 735.9 ConUp0 ConUp1 ConUp2 ConUp3 ConLo0 ConLo1 ConLo2 ConLo3 0.038640 -0.002145 0.002347 -0.000750 2.766722 -1.298966 0.629224 -0.527291 SphUp0 SphUp1 SphUp2 SphUp3 SphLo0 SphLo1 SphLo2 SphLo3 646.6275 246.6678 -49.8216 7.9520 1710.648 721.8740 57.44873 24.37532 N1 N2 N3 N4 N5 N24 IB IC 20 384 15 19 120 48 0 9 NRSET NMHA NRUN JDISK IDOWN FlxP14 FlxP15 KPREF 3 24 0 81 0 45 65 1 K4OUT JBARE Notif IDISK2 end 52 0 20 0 0 LP1 LP2 LP3 LP4 LP5 LP6 LPGLOB LVFA LVFT LkofT F T F F F F F F F T LPORB LKEY LSC spare LOCAL Prt76 LPTAVE Prt78 Prt79 L_ONE T F F F F T F T F F Latitudes: in 10F7.2 _____7 _____7 _____7 _____7 _____7 _____7 _____7 -87.50 -80.00 -70.00 -60.00 -50.00 -40.00 -30.00 -20.00 -10.00 0.00 10.00 20.00 30.00 40.00 50.00 60.00 70.00 80.00 87.50 -0.00 _____7 _____7 _____7 Elevations: in 10F7.2 ____7 _____7 _____7 _____7 3.51 2.01 1.39 1.22 0.38 0.48 1.17 1.67 1.26 0.17 -0.94 -1.28 -1.99 -2.51 -3.52 -4.08 -4.51 -4.38 -2.57 -0.00 2013 Jul 24 11:28:09=RUNTIME. IPLAN AND TC= 104.0 0.10000 Mars:Mars 104.0000 0.1000000 0.8644665 0.3226901E-01 -1.281586 0.9340198E-01 1.523712 0.4090926 0.000000 0.9229373 5.544402 0.000000 0.000000 686.9929 3397.977 24.62296 0.000000 -1.240317 0.000000 0.000000 0.000000 0.3244965 0.8559126 0.4026359 -0.9458869 0.2936298 0.1381285 0.000000 -0.4256703 0.9048783 8 0 0 'master222.t52' / Disk file name for Run 1 0/ 3 10 1 'LkofT' / Temperature-dependant conductivity 0/ 0/ ======================= end of run If LkofT set to T, then Upper material: weakly cemented particulates: Grain: k: BasicRocks_Zoth88 2:4 Cp: Chlorite_Bert07_Fe=0.89 6:4.89 Cement: k: Limestone Zoth88 2:1 Cp: Sphene, which has relatively strong T dependence 5:0 Cement fraction 1.e-8 Yields c_0 of 0.050087, This adjusted to 0.038640 to agree with I=200 at 220 K lower material: H2O Ice k: koftop: 48 fit to A+B/T fit 2.766722 -1.298966 0.629224 -0.527291 <k H2O:ice3sources Cp: koftop: @ 49,491,5,33 yields: 3.95779 > 1710.648 721.8740 57.44873 24.37532 <SpH H2O:Ice_3sources