source: LMDZ5/branches/IPSLCM6.0.12/libf/dyn3d_common/enercin.F90 @ 5080

Last change on this file since 5080 was 2336, checked in by dcugnet, 9 years ago
  • Add parallel capability for ce0l.
  • Small bug in grid_noro fixed (smoothed topography was used instead of unsmoothed one for geopotential computation at north pole).
  • Removed average of mass at poles in etat0dyn_netcdf after start_init_dyn => different results in the zoomed grid case.
  • ok_etat0=n and ok_limit=y combination now works fine (if no initial state is needed, but only limit.nc file). This required:
    • to move grid_noro0 and start_init_noro0 subroutines from etat0dyn_netcdf.F90 to limit_netcdf.F90
    • to create init_ssrf_m.F90 file, so that sub-surfaces can be initialized from limit_netcdf.F90 without any etat0*_netcdf routines call).
  • Simplified somehow the corresponding code, in particular: 1) removed obsolete flags "oldice". 2) removed flag "ibar": barycentric interpolation is used everywhere (except in start_init_subsurf, still calling grille_m - to be changed soon). 3) removed useless CPP_PHY precompilation directives, considering the possibility to run ce0l without physics is useless (ce0l is dedicated to Earth physics).
  • 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: 2.4 KB
Line 
1SUBROUTINE enercin ( vcov, ucov, vcont, ucont, ecin )
2!
3!-------------------------------------------------------------------------------
4! Authors: P. Le Van.
5!-------------------------------------------------------------------------------
6! Purpose: Compute kinetic energy at sigma levels.
7  IMPLICIT NONE
8  include "dimensions.h"
9  include "paramet.h"
10  include "comgeom.h"
11!===============================================================================
12! Arguments:
13  REAL, INTENT(IN)  :: vcov    (ip1jm,  llm)
14  REAL, INTENT(IN)  :: ucov    (ip1jmp1,llm)
15  REAL, INTENT(IN)  :: vcont   (ip1jm,  llm)
16  REAL, INTENT(IN)  :: ucont   (ip1jmp1,llm)
17  REAL, INTENT(OUT) :: ecin    (ip1jmp1,llm)
18!===============================================================================
19! Notes:
20!                 . V
21!                i,j-1
22!
23!      alpha4 .       . alpha1
24!
25!
26!        U .      . P     . U
27!       i-1,j    i,j      i,j
28!
29!      alpha3 .       . alpha2
30!
31!
32!                 . V
33!                i,j
34!
35! Kinetic energy at scalar point P(i,j) (excluding poles) is:
36!       Ecin = 0.5 * U(i-1,j)**2 *( alpha3 + alpha4 )  +
37!              0.5 * U(i  ,j)**2 *( alpha1 + alpha2 )  +
38!              0.5 * V(i,j-1)**2 *( alpha1 + alpha4 )  +
39!              0.5 * V(i,  j)**2 *( alpha2 + alpha3 )
40!===============================================================================
41! Local variables:
42  INTEGER :: l, ij, i
43  REAL    :: ecinni(iip1), ecinsi(iip1), ecinpn, ecinps
44!===============================================================================
45  DO l=1,llm
46    DO ij = iip2, ip1jm -1
47      ecin(ij+1,l)=0.5*(ucov(ij    ,l)*ucont(ij    ,l)*alpha3p4(ij +1)          &
48                      + ucov(ij+1  ,l)*ucont(ij+1  ,l)*alpha1p2(ij +1)          &
49                      + vcov(ij-iim,l)*vcont(ij-iim,l)*alpha1p4(ij +1)          &
50                      + vcov(ij+1  ,l)*vcont(ij+1  ,l)*alpha2p3(ij +1) )
51    END DO
52    !--- Correction: ecin(1,j,l)= ecin(iip1,j,l)
53    DO ij=iip2,ip1jm,iip1; ecin(ij,l) = ecin(ij+iim,l); END DO
54
55    !--- North pole
56    DO i=1,iim
57      ecinni(i) = vcov(i,l)*vcont(i,l)*aire(i)
58    END DO
59    ecinpn = 0.5*SUM(ecinni(1:iim))/apoln
60    DO ij=1,iip1; ecin(ij,l)=ecinpn; END DO
61
62    !--- South pole
63    DO i=1,iim
64      ecinsi(i) = vcov(i+ip1jmi1,l)*vcont(i+ip1jmi1,l)*aire(i+ip1jm)
65    END DO
66    ecinps = 0.5*SUM(ecinsi(1:iim))/apols
67    DO ij=1,iip1; ecin(ij+ip1jm,l)=ecinps; END DO
68  END DO
69
70END SUBROUTINE enercin
71
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