source: trunk/LMDZ.GENERIC/deftank/jupiter1d.rcm1d.def @ 2613

Last change on this file since 2613 was 601, checked in by aslmd, 13 years ago

GENERIC: minor modifications to jupiter def. plus output profile at each timestep for possible restarts and tests. plus allowed the model to keep on integrations if out of allowed continuum temperature, a lot of warnings are given to the user.

  • Property svn:executable set to *
File size: 3.1 KB
Line 
1#---------------------------------#
2# Run parameters for the 1D model #                                         
3#---------------------------------#
4
5## Planetary constants
6## ~~~~~~~~~~~~~~~~~~~~~~~
7## NB: those are mandatory
8## ~~~~~~~~~~~~~~~~~~~~~~~
9## LENGTH OF A DAY in s
10daysec         = 887750.
11## GRAVITY in m s-2
12g              = 26.0
13## LENGTH OF A YEAR in days
14year_day       = 4332
15## MIN DIST STAR-PLANET in AU [periastron]
16periastr       = 5.00
17## MAX DIST STAR-PLANET in AU [apoastron]
18apoastr        = 5.00
19## DATE OF PERIASTRON in days
20peri_day       = 170.
21## OBLIQUITY in deg
22obliquit       = 3.12
23## SURFACE PRESSURE in Pa
24psurf          = 1000000
25
26## Time integration parameters
27## ~~~~~~~~~~~~~~~~~~~~~~~~~~~
28# Initial date (in solar days,=0 at Ls=0)
29day0           = 0
30# Initial local time (in hours, between 0 and 24)
31time           = 12
32# Number of time steps per sol
33day_step       = 1
34# Number of sols to run
35ndt            = 250000
36
37## Vertical levels
38## ~~~~~~~~~~~~~~~
39# hybrid vertical coordinate ? (.true. for hybrid and .false. for sigma levels)
40hybrid         = .false.
41# autocompute vertical discretisation? (useful for exoplanet runs)
42autozlevs      = .false.
43# Ceiling pressure (Pa) ?
44pceil          = 10.0
45
46## Thermal properties
47## ~~~~~~~~~~~~~~~~~~
48# Simulate global averaged conditions ?
49global1d       = .true.
50# Latitude (deg) [only used if global1d = F]
51latitude       = 0.0
52# Solar Zenith angle (deg) [only used if global1d = T]
53szangle        = 45.
54# Force specific heat capacity and molecular mass values
55force_cpp      = .false.
56# Specific heat capacity in J K-1 kg-1 [only used if force_cpp = T]
57cpp            = 12000.
58# Molecular mass in g mol-1 [only used if force_cpp = T]
59mugaz          = 3.
60# Albedo of bare ground
61albedo         = 0.
62# Emissivity of bare ground
63emis           = 1.0
64# Soil thermal inertia (SI)
65inertia        = 0.001
66# Initial CO2 ice on the surface (kg.m-2)
67co2ice         = 0
68
69## Wind profile
70## ~~~~~~~~~~~~
71## zonal eastward component of the geostrophic wind (m/s)
72u              = 0.
73# meridional northward component of the geostrophic wind (m/s)
74v              = 0.
75
76## Initial atmospheric temperature profile
77## ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
78#
79# Type of initial temperature profile
80#         ichoice=1   Constant Temperature:  T=tref
81#         [Mars] ichoice=2   Savidjari profile (as Seiff but with dT/dz=cte)
82#         [Mars] ichoice=3   Lindner (polar profile)
83#         [Mars] ichoice=4   inversion
84#         [Mars] ichoice=5   Seiff  (standard profile, based on Viking entry)
85#         ichoice=6   constant T  +  gaussian perturbation (levels)
86#         ichoice=7   constant T  + gaussian perturbation (km)
87#         ichoice=8   Read in an ascii file "profile"
88ichoice        = 1
89# Reference temperature tref (K)
90tref           = 110.  ## cold start
91tref           = 295.  ## warm start
92# Add a perturbation to profile if isin=1
93isin           = 0
94# peak of gaussian perturbation (for ichoice=6 or 7)
95pic            = 26.522
96# width of the gaussian perturbation (for ichoice=6 or 7)
97largeur        = 10
98# height of the gaussian perturbation (for ichoice=6 or 7)
99hauteur        = 30.
100
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