source: LMDZ5/trunk/libf/dyn3d_common/exner_hyb_m.F90 @ 2265

Last change on this file since 2265 was 2021, checked in by lguez, 11 years ago

Removed unused variables pks, pk, pkf from main program unit gcm.

Encapsulated procedures exner_hyb, exner_hyb_p, exner_hyb_loc,
exner_milieu, exner_milieu_p and exner_milieu_loc into
modules. (Compulsory to allow optional arguments.)

In the procedures exner_hyb, exner_hyb_p, exner_hyb_loc, donwgraded
arguments alpha and beta to local variables. In exner_milieu,
exner_milieu_p and exner_milieu_loc, removed beta altogether. In the
six procedures exner_*, made pkf an optional argument. Made some
cosmetic modifications in order to keep the six procedures exner_* as
close as possible.

In the six procedures exner_*, removed the averaging of pks at the
poles: this is not useful because ps is already the same at all
longitudes at the poles. This modification changes the results of the
program. Motivation: had to do this for exner_hyb because we call it
from test_disvert with a few surface pressure values.

In all the procedures calling exner_*, removed the variables alpha and
beta. Also removed variables alpha and beta from module leapfrog_mod
and from module call_calfis_mod.

Removed actual argument pkf in call to exner_hyb* and exner_milieu*
from guide_interp, guide_main, iniacademic and iniacademic_loc (pkf
was not used in those procedures).

Argument workvar of startget_dyn is used only if varname is tpot or

  1. When varname is tpot or q, the actual argument associated to

workvar in etat0_netcdf is not y. So y in etat0_netcdf is a
place-holder, never used. So we remove optional argument y in the
calls to exner_hyb and exner_milieu from etat0_netcdf.

Created procedure test_disvert, called only by etat0_netcdf. This
procedure tests the order of pressure values at half-levels and full
levels.

  • Property copyright set to
    Name of program: LMDZ
    Creation date: 1984
    Version: LMDZ5
    License: CeCILL version 2
    Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
    See the license file in the root directory
  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 4.3 KB
RevLine 
[2021]1module exner_hyb_m
[524]2
[2021]3  IMPLICIT NONE
[524]4
[2021]5contains
[524]6
[2021]7  SUBROUTINE  exner_hyb ( ngrid, ps, p, pks, pk, pkf )
[524]8
[2021]9    !     Auteurs :  P.Le Van  , Fr. Hourdin  .
10    !    ..........
11    !
12    !    ....  ngrid, ps,p             sont des argum.d'entree  au sous-prog ...
13    !    ....  pks,pk,pkf   sont des argum.de sortie au sous-prog ...
14    !
15    !   ************************************************************************
16    !    Calcule la fonction d'Exner pk = Cp * (p/preff) ** kappa , aux milieux des
17    !    couches .   Pk(l) sera calcule aux milieux  des couches l ,entre les
18    !    pressions p(l) et p(l+1) ,definis aux interfaces des llm couches .
19    !   ************************************************************************
20    !  .. N.B : Au sommet de l'atmosphere,  p(llm+1) = 0. , et ps et pks sont
21    !    la pression et la fonction d'Exner  au  sol  .
22    !
23    !                                 -------- z
24    !    A partir des relations  ( 1 ) p*dz(pk) = kappa *pk*dz(p)      et
25    !                            ( 2 ) pk(l) = alpha(l)+ beta(l)*pk(l-1)
26    !    ( voir note de Fr.Hourdin )  ,
27    !
28    !    on determine successivement , du haut vers le bas des couches, les
29    !    coef. alpha(llm),beta(llm) .,.,alpha(l),beta(l),,,alpha(2),beta(2),
30    !    puis pk(ij,1). Ensuite ,on calcule,du bas vers le haut des couches, 
31    !     pk(ij,l)  donne  par la relation (2),  pour l = 2 a l = llm .
32    !
33    !
34    !
35    include "dimensions.h"
36    include "paramet.h"
37    include "comconst.h"
38    include "comgeom.h"
39    include "comvert.h"
40    include "serre.h"
41
42    INTEGER  ngrid
43    REAL p(ngrid,llmp1),pk(ngrid,llm)
44    real, optional:: pkf(ngrid,llm)
45    REAL ps(ngrid),pks(ngrid), alpha(ngrid,llm),beta(ngrid,llm)
46
47    !    .... variables locales   ...
48
49    INTEGER l, ij
50    REAL unpl2k,dellta
51
52    logical,save :: firstcall=.true.
53    character(len=*),parameter :: modname="exner_hyb"
54
55    ! Sanity check
56    if (firstcall) then
57       ! sanity checks for Shallow Water case (1 vertical layer)
58       if (llm.eq.1) then
[1520]59          if (kappa.ne.1) then
[2021]60             call abort_gcm(modname, &
61                  "kappa!=1 , but running in Shallow Water mode!!",42)
[1520]62          endif
63          if (cpp.ne.r) then
[2021]64             call abort_gcm(modname, &
65                  "cpp!=r , but running in Shallow Water mode!!",42)
[1520]66          endif
[2021]67       endif ! of if (llm.eq.1)
[1520]68
[2021]69       firstcall=.false.
70    endif ! of if (firstcall)
[1520]71
[2021]72    ! Specific behaviour for Shallow Water (1 vertical layer) case:
73    if (llm.eq.1) then
74
75       ! Compute pks(:),pk(:),pkf(:)
76
77       DO   ij  = 1, ngrid
78          pks(ij) = (cpp/preff) * ps(ij)
[1403]79          pk(ij,1) = .5*pks(ij)
[2021]80       ENDDO
[1520]81
[2021]82       if (present(pkf)) then
83          pkf = pk
84          CALL filtreg ( pkf, jmp1, llm, 2, 1, .TRUE., 1 )
85       end if
[1403]86
[2021]87       ! our work is done, exit routine
88       return
89    endif ! of if (llm.eq.1)
[524]90
[2021]91    ! General case:
[524]92
[2021]93    unpl2k    = 1.+ 2.* kappa
94
95    !     -------------
96    !     Calcul de pks
97    !     -------------
98
99    DO   ij  = 1, ngrid
100       pks(ij) = cpp * ( ps(ij)/preff ) ** kappa
101    ENDDO
102
103    !    .... Calcul des coeff. alpha et beta  pour la couche l = llm ..
104    !
105    DO     ij      = 1, ngrid
[524]106       alpha(ij,llm) = 0.
107       beta (ij,llm) = 1./ unpl2k
[2021]108    ENDDO
109    !
110    !     ... Calcul des coeff. alpha et beta  pour l = llm-1  a l = 2 ...
111    !
112    DO l = llm -1 , 2 , -1
113       !
114       DO ij = 1, ngrid
115          dellta = p(ij,l)* unpl2k + p(ij,l+1)* ( beta(ij,l+1)-unpl2k )
116          alpha(ij,l)  = - p(ij,l+1) / dellta * alpha(ij,l+1)
117          beta (ij,l)  =   p(ij,l  ) / dellta   
118       ENDDO
119    ENDDO
[524]120
[2021]121    !  ***********************************************************************
122    !     .....  Calcul de pk pour la couche 1 , pres du sol  ....
123    !
124    DO   ij   = 1, ngrid
125       pk(ij,1) = ( p(ij,1)*pks(ij) - 0.5*alpha(ij,2)*p(ij,2) )  / &
126            (  p(ij,1)* (1.+kappa) + 0.5*( beta(ij,2)-unpl2k )* p(ij,2) )
127    ENDDO
128    !
129    !    ..... Calcul de pk(ij,l) , pour l = 2 a l = llm  ........
130    !
131    DO l = 2, llm
132       DO   ij   = 1, ngrid
133          pk(ij,l) = alpha(ij,l) + beta(ij,l) * pk(ij,l-1)
134       ENDDO
135    ENDDO
136
137    if (present(pkf)) then
138       !    calcul de pkf
139       pkf = pk
140       CALL filtreg ( pkf, jmp1, llm, 2, 1, .TRUE., 1 )
141    end if
142
143  END SUBROUTINE exner_hyb
144
145end module exner_hyb_m
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