source: trunk/LMDZ.MARS/deftank/callphys.def.watercycle @ 3026

Last change on this file since 3026 was 2858, checked in by emillour, 2 years ago

Mars PCM:
Update reference callphys.def.watercycle to use imicro=30, which is
the most commonly used value.
EM

  • Property svn:executable set to *
File size: 5.4 KB
RevLine 
[283]1##General options
2##~~~~~~~~~~~~~~~
3#Run with or without tracer transport ?
4tracer=.true.
5
6#Diurnal cycle ?  if diurnal=False, diurnal averaged solar heating
7diurnal=.true.
8
9#Seasonal cycle ? if season=False, Ls stays constant, to value set in "start"
10season = .true.   
11
12#write some more output on the screen ?
13lwrite = .false.   
14
15#Save statistics in file "stats.nc" ?
16callstats =.true.
17
[2541]18# check input fields when entering physics?
19check_physics_inputs=.false.
20# check fields at the end of physics?
21check_physics_outputs=.false.
[283]22
[685]23#Directory where external input files are:
[1949]24datadir=/users/lmdz/WWW/planets/mars/datadir
[685]25
[283]26## Dust scenario. Used if the dust is prescribed (i.e. if tracer=F or active=F)
27## ~~~~~~~~~~~~~
28#  =1 Dust opt.deph read in startfi; =2 Viking scenario; =3 MGS scenario,
29#  =4 Mars Year 24 from TES assimilation (old version of MY24; dust_tes.nc file)
[677]30#  =6 "cold" (low dust) scenario ; =7 "warm" (high dust) scenario
[1949]31#  =8 "climatology" (our best guess of a typical Mars year) scenario
[677]32#  =24 Mars Year 24  ; =25 Mars Year 25 (year with a global dust storm) ; ...
33#  =30 Mars Year 30
[685]34iaervar = 26
[627]35# Dust opacity at 610 Pa (when constant, i.e. for the iaervar=1 case)
[283]36tauvis=0.2
37# Dust vertical distribution:
38# (=0: old distrib. (Pollack90), =1: top set by "topdustref",
39#  =2: Viking scenario; =3 MGS scenario)
40iddist  = 3
41# Dust top altitude (km). (Matters only if iddist=1)
42topdustref = 55.
43
44## Physical Parameterizations :
45## ~~~~~~~~~~~~~~~~~~~~~~~~~~
46# call radiative transfer ?
47callrad   = .true.
48# call NLTE radiative schemes ?   matters only if callrad=T
49callnlte = .true.
[1949]50# NLTE 15um scheme to use.
51# 0-> Old scheme, static oxygen
52# 1-> Old scheme, dynamic oxygen
53# 2-> New scheme
54nltemodel = 0
[283]55# call CO2 NIR absorption ?   matters only if callrad=T
56callnirco2 = .true.
[1949]57# NIR NLTE correction ? matters only if callnirco2=T
58nircorr=0
[283]59# call turbulent vertical diffusion ?
60calldifv  = .true.
61# call convective adjustment ?
62calladj  = .true.
[1949]63# Thermals
64calltherm = .true.
65callrichsl = .true.
[283]66# call CO2 condensation ?
67callcond =.true.
68# call thermal conduction in the soil ?
69callsoil = .true.
70# call Lott's gravity wave/subgrid topography scheme ?
71calllott  = .true.
72# Impose polar cap surface albedos as observed by TES?
73TESicealbedo = .true.
[685]74## Coefficient for Northern cap albedoes
[1949]75TESice_Ncoef=1.6
[685]76## Coefficient for Southern cap albedoes
[1949]77TESice_Scoef=1.6
[283]78
[685]79
[283]80## Radiative transfer options :
81## ~~~~~~~~~~~~~~~~~~~~~~~~~~
82# the rad.transfer is computed every "iradia" physical timestep
83iradia    = 1
84# Output of the exchange coefficient mattrix ? for diagnostic only
85callg2d  = .false.
86# Rayleigh scattering : (should be .false. for now)
87rayleigh  = .false.
88
89## Tracer (dust water, ice and/or chemical species) options (used if tracer=T):
90## ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
91# DUST: Transported dust ? (if >0, use 'dustbin' dust bins)
92dustbin    = 2
93# DUST: Radiatively active dust ? (matters if dustbin>0)
94active  = .true.
95# DUST: use mass and number mixing ratios to predict dust size ?
96doubleq   = .true.
97# DUST: use a small population of dust particules (submicron dust)?
98submicron = .false.
99# DUST: lifted by GCM surface winds ?
100lifting = .true.
101# DUST: lifted by dust devils ?
102callddevil = .false.
[685]103# DUST: Scavenging by H2O/CO2 snowfall ?
104scavenging = .true.
[283]105# DUST/WATERICE: Gravitationnal sedimentation ?
106sedimentation = .true.
107# WATERICE: Radiatively active transported atmospheric water ice ?
108activice   = .true.
109# WATER: Compute water cycle
110water = .true.
[520]111# WATER: Microphysical scheme for water-ice clouds?
112microphys = .true.
[685]113# WATER: parameter contact
114mteta = 0.95
[283]115# WATER: current permanent caps at both poles. True IS RECOMMENDED
116#        (with .true., North cap is a source of water and South pole
117#         is a cold trap)
118caps  = .true.
[685]119# WATER: Water ice albedo ?
120albedo_h2o_ice = 0.35
121# WATER: Water ice thermal inertia
122inert_h2o_ice = 800
123# WATER: Frost thickness threshold for albedo
[283]124frost_albedo_threshold = 0.005
[685]125# WATER: Effective variance for sedimentation for the log-normal
126#        distribution of ice particles ?
127nuice_sed=0.1
[686]128# WATER: microphysics is computed "imicro" times per physical timestep
[2858]129imicro = 30
[283]130# PHOTOCHEMISTRY: include chemical species
131photochem  = .false.
132
[1246]133# SCATTERERS: set number of scatterers. must be compliant with preceding options.
134naerkind = 2
135
136
[283]137## Thermospheric options (relevant if tracer=T) :
138##~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
139# call thermosphere ?
140callthermos = .false.
141# WATER: included without cycle (only if water=.false.)
142thermoswater = .false.
143# call thermal conduction ? (only if callthermos=.true.)
144callconduct = .false.
145# call molecular viscosity ? (only if callthermos=.true.)
146callmolvis = .false.
147# call molecular diffusion ? (only if callthermos=.true.)
148callmoldiff = .false.
149# call thermospheric photochemistry ? (only if callthermos=.true.)
150thermochem = .false.
[1949]151# call EUV heating ? (only if callthermos=.true.)
152calleuv=.false.
153#Method to include solar variability?
154#0-> Fixed EUV input  1-> Variability with E10.7 as observed
155solvarmod=0
156# fixed E10.7 value (for solvarmod=0)
157# (min=80 , ave=140, max=320)
158fixed_euv_value=140
159#Solar variability as observed for MY? (must be between MY23 and MY32)
160# (only matters if solvarmod=1)
161solvaryear=24
162# value for the UV heating efficiency
163##(experimental values between 0.19 and 0.23, lower values may
164## be used to compensate for low 15 um cooling)
165euveff = 0.21       
[283]166
[1949]167
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