LMDZ
comvert.h
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1 !
2 ! $Id: comvert.h 1952 2014-01-28 13:05:47Z lguez $
3 !
4 !-----------------------------------------------------------------------
5 ! INCLUDE 'comvert.h'
6 
7  COMMON/comvertr/ap(llm+1),bp(llm+1),presnivs(llm),dpres(llm), &
8  & pa,preff,nivsigs(llm),nivsig(llm+1), &
9  & aps(llm),bps(llm),scaleheight,pseudoalt(llm)
10 
11  common/comverti/disvert_type, pressure_exner
12 
13  real ap ! hybrid pressure contribution at interlayers
14  real bp ! hybrid sigma contribution at interlayer
15  real presnivs ! (reference) pressure at mid-layers
16  real dpres
17  real pa ! reference pressure (Pa) at which hybrid coordinates
18  ! become purely pressure
19  real preff ! reference surface pressure (Pa)
20  real nivsigs
21  real nivsig
22  real aps ! hybrid pressure contribution at mid-layers
23  real bps ! hybrid sigma contribution at mid-layers
24  real scaleheight ! atmospheric (reference) scale height (km)
25  real pseudoalt ! pseudo-altitude of model levels (km), based on presnivs(),
26  ! preff and scaleheight
27 
28  integer disvert_type ! type of vertical discretization:
29  ! 1: Earth (default for planet_type==earth),
30  ! automatic generation
31  ! 2: Planets (default for planet_type!=earth),
32  ! using 'z2sig.def' (or 'esasig.def) file
33 
34  logical pressure_exner
35 ! compute pressure inside layers using Exner function, else use mean
36 ! of pressure values at interfaces
37 
38  !-----------------------------------------------------------------------
generation
!$Id pressure_exner real ap!hybrid pressure contribution at interlayers real bp!hybrid sigma contribution at interlayer real based on!preff and scaleheight integer disvert_type!type of vertical!automatic generation
Definition: comvert.h:29
$Id
c c $Id
Definition: ini_bilKP_ave.h:11
discretization
!$Id pressure_exner real ap!hybrid pressure contribution at interlayers real bp!hybrid sigma contribution at interlayer real based on!preff and scaleheight integer disvert_type!type of vertical discretization
Definition: comvert.h:29
preff
!$Id preff
Definition: comvert.h:8
bp
!$Id bp(llm+1)
control_mod::planet_type
character(len=10), save planet_type
Definition: control_mod.F90:32
llm
!$Id Turb_fcg_gcssold get_uvd hqturb_gcssold endif!large scale llm day day1 day day1 *dt_toga endif!time annee_ref dt_toga u_toga vq_toga w_prof vq_prof llm day day1 day day1 *dt_dice endif!time annee_ref dt_dice swup_dice vg_dice omega_dice tg_prof vg_profd w_profd omega_profd!do llm!print llm l llm
Definition: 1D_interp_cases.h:103
presnivs
!$Id presnivs(llm)
pressure
!$Id vert_prof_dissip LOGICAL lstardis INTEGER niterh integer vert_prof_dissip!vertical profile of horizontal dissipation!Allowed function of pressure
Definition: comdissnew.h:13
nivsigs
!$Id nivsigs(llm)
dpres
!$Id dpres(llm)
height
!$Id nt_fire height
Definition: 1D_read_forc_cases.h:21
pa
!$Id && pa
Definition: comvert.h:8
scaleheight
!$Id scaleheight
Definition: comvert.h:9
vertical_layers_mod::ap
real, dimension(:), allocatable, save ap
Definition: vertical_layers_mod.F90:7
pseudoalt
!$Id pseudoalt(llm) common/comverti/disvert_type
integer
nsplit_thermals!nrlmd le iflag_clos_bl tau_trig_deep real::s_trig!fin nrlmd le fact_thermals_ed_dz integer
Definition: thermcell.h:9
mod_phy____grd::sigma
real(kind=real8), dimension(:), allocatable, save sigma
Definition: Mod_PHY____grd.f90:59
radiation_ar4_param::at
real(kind=8), dimension(8, 3), parameter at
Definition: radiation_ar4_param.F90:223
use
!$Id we still need to use(a local version of) getin use ioipsl_getincom USE print_control_mod
def
!$Id pressure_exner real ap!hybrid pressure contribution at interlayers real bp!hybrid sigma contribution at interlayer real based on!preff and scaleheight integer disvert_type!type of vertical!automatic!using z2sig def(or 'esasig.def) file logical pressure_exner!compute pressure inside layers using Exner function
aps
!$Id && aps(llm)
real
!IM for NMC files!real nfiles!real nfiles!real nfiles!real nlevSTD3 real nlevSTD3 real nlevSTD3 real nlevSTD3 real nlevSTD8 real nlevSTD8 real nlevSTD8 real nlevSTD8 real
Definition: declare_STDlev.h:27
nivsig
!$Id nivsig(llm+1)
bps
!$Id bps(llm)
values
!$Id vert_prof_dissip LOGICAL lstardis INTEGER niterh integer vert_prof_dissip!vertical profile of horizontal dissipation!Allowed values
Definition: comdissnew.h:13