source: LMDZ5/branches/LMDZ5_AR5/libf/dyn3d/comconst.h @ 3825

Last change on this file since 3825 was 1505, checked in by Ehouarn Millour, 14 years ago

Added possibility to have the base of the atmosphere heated (to mimic a constant uniform heat flux from below), set in .def file (parameter ihf = ... , in W/m2); only active if in "Newtonian mode" (iflag_phys=2) and if planet_type=="giant".
EM

  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 1.5 KB
Line 
1!
2! $Id: comconst.h 1505 2011-04-07 14:15:05Z musat $
3!
4!-----------------------------------------------------------------------
5! INCLUDE comconst.h
6
7      COMMON/comconsti/im,jm,lllm,imp1,jmp1,lllmm1,lllmp1,lcl,          &
8     &                 iflag_top_bound
9      COMMON/comconstr/dtvr,daysec,                                     &
10     & pi,dtphys,dtdiss,rad,r,cpp,kappa,cotot,unsim,g,omeg              &
11     &                   ,dissip_factz,dissip_deltaz,dissip_zref        &
12     &                   ,tau_top_bound,                                &
13     & daylen,year_day,molmass, ihf
14
15
16      INTEGER im,jm,lllm,imp1,jmp1,lllmm1,lllmp1,lcl
17      REAL dtvr ! dynamical time step (in s)
18      REAL daysec !length (in s) of a standard day
19      REAL pi    ! something like 3.14159....
20      REAL dtphys ! (s) time step for the physics
21      REAL dtdiss ! (s) time step for the dissipation
22      REAL rad ! (m) radius of the planet
23      REAL r ! Gas constant R=8.31 J.K-1.mol-1
24      REAL cpp   ! Cp
25      REAL kappa ! kappa=R/Cp
26      REAL cotot
27      REAL unsim ! = 1./iim
28      REAL g ! (m/s2) gravity
29      REAL omeg ! (rad/s) rotation rate of the planet
30      REAL dissip_factz,dissip_deltaz,dissip_zref
31      INTEGER iflag_top_bound
32      REAL tau_top_bound
33      REAL daylen ! length of solar day, in 'standard' day length
34      REAL year_day ! Number of standard days in a year
35      REAL molmass ! (g/mol) molar mass of the atmosphere
36
37      REAL ihf ! (W/m2) Intrinsic heat flux (for giant planets)
38
39!-----------------------------------------------------------------------
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