source: LMDZ6/branches/LMDZ_cdrag_LSCE/libf/phylmd/cv3_buoy.F90 @ 5444

Last change on this file since 5444 was 2420, checked in by crio, 9 years ago

Nouvelle option d'epluchage de l'ascendance adiabatique dans le schema d'Emanuel: epluchage fonction de B/w2 au lieu de w. S'active avec iflag_mix_adiab=1 (valeur par defaut iflag_mix_adiab=0). Fonctionne avec iflag_mix=0 et iflag_mix=1.
Correction de bugs dans le schema de convection pour le calcul de inb, cape et buoy (sous le meme flag pour l'instant).
New option for the erosion of the adiabatic ascent in the Emanuel scheme: erosion function of B/w2 instead of w. Activated by iflag_mix_adiab=1 (standard value iflag_mix_adiab=0). Should work with iflag_mix=0 and iflag_mix=1.
Various bug corrections in the convection scheme for the computation of inb, cape, buoy (protected by the same flag for now).

  • 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: 3.9 KB
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1SUBROUTINE cv3_buoy(nloc, ncum, nd, icb, inb, pbase, plcl, p, ph, ale, cin, &
2    tv, tvp, buoy)
3  ! **************************************************************
4  ! *
5  ! CV3_BUOY                                                    *
6  ! Buoyancy corrections to account for ALE             *
7  ! *
8  ! written by   : MOREAU Cecile, 07/08/2003, 15.55.48          *
9  ! modified by :                                               *
10  ! **************************************************************
11
12  IMPLICIT NONE
13
14  include "cvthermo.h"
15  include "cv3param.h"
16  include "YOMCST2.h"
17
18  ! input:
19  INTEGER ncum, nd, nloc
20  INTEGER icb(nloc), inb(nloc)
21  REAL pbase(nloc), plcl(nloc)
22  REAL p(nloc, nd), ph(nloc, nd+1)
23  REAL ale(nloc), cin(nloc)
24  REAL tv(nloc, nd), tvp(nloc, nd)
25
26  ! output:
27  REAL buoy(nloc, nd)
28
29  ! local variables:
30  INTEGER il, k
31  INTEGER kmx(nloc)
32  REAL bll(nloc), bmx(nloc)
33  REAL gamma(nloc)
34  LOGICAL ok(nloc)
35
36  REAL dgamma
37  REAL buoymin
38  PARAMETER (dgamma=2.E-03) !dgamma gamma
39  PARAMETER (buoymin=2.)
40
41  LOGICAL fixed_bll
42  SAVE fixed_bll
43  DATA fixed_bll/.TRUE./
44  !$OMP THREADPRIVATE(fixed_bll)
45
46
47  ! print *,' Ale+cin ',ale(1)+cin(1)
48  ! --------------------------------------------------------------
49  ! Recompute buoyancies
50  ! --------------------------------------------------------------
51  DO k = 1, nl
52    DO il = 1, ncum
53      buoy(il, k) = tvp(il, k) - tv(il, k)
54    END DO
55  END DO
56
57  ! -------------------------------------------------------------
58  ! -- Compute low level buoyancy ( function of Ale+Cin )
59  ! -------------------------------------------------------------
60  IF (fixed_bll) THEN
61
62    DO il = 1, ncum
63      bll(il) = 0.5
64    END DO
65  ELSE
66
67    DO il = 1, ncum
68      IF (ale(il)+cin(il)>0.) THEN
69        gamma(il) = 4.*buoy(il, icb(il))**2 + 8.*dgamma*(ale(il)+cin(il))*tv( &
70          il, icb(il))/grav
71        gamma(il) = max(gamma(il), 1.E-10)
72      END IF
73    END DO
74
75    DO il = 1, ncum
76      IF (ale(il)+cin(il)>0.) THEN
77        bll(il) = 4.*dgamma*(ale(il)+cin(il))*tv(il, icb(il))/ &
78          (grav*(abs(buoy(il,icb(il))+0.5*sqrt(gamma(il)))))
79      END IF
80    END DO
81
82    DO il = 1, ncum
83      IF (ale(il)+cin(il)>0.) THEN
84        bll(il) = min(bll(il), buoymin)
85      END IF
86    END DO
87
88  END IF !(fixed_bll)
89
90
91  ! -------------------------------------------------------------
92  ! --Get highest buoyancy among levels below LCL-200hPa
93  ! -------------------------------------------------------------
94
95  DO il = 1, ncum
96    bmx(il) = -1000.
97    kmx(il) = icb(il)
98    ok(il) = .TRUE.
99  END DO
100
101  DO k = 1, nl
102    DO il = 1, ncum
103      IF (ale(il)+cin(il)>0. .AND. ok(il)) THEN
104        IF (k>icb(il) .AND. k<=inb(il)) THEN
105          ! c         print *,'k,p(il,k),plcl(il)-200. ',
106          ! k,p(il,k),plcl(il)-200.
107          IF (p(il,k)>plcl(il)-200.) THEN
108            IF (buoy(il,k)>bmx(il)) THEN
109              bmx(il) = buoy(il, k)
110              kmx(il) = k
111              IF (bmx(il)>=bll(il)) ok(il) = .FALSE.
112            END IF
113          END IF
114        END IF
115      END IF
116    END DO
117  END DO
118
119  ! print *,' ==cv3_buoy== bll(1),bmx(1),icb(1),kmx(1) '
120  ! $       ,bll(1),bmx(1),icb(1),kmx(1)
121
122  ! -------------------------------------------------------------
123  ! --Calculate modified buoyancies
124  ! -------------------------------------------------------------
125
126  DO il = 1, ncum
127    IF (ale(il)+cin(il)>0.) THEN
128      bll(il) = min(bll(il), bmx(il))
129    END IF
130  END DO
131
132  DO k = 1, nl
133    DO il = 1, ncum
134      IF (ale(il)+cin(il)>0.) THEN
135        IF (k>=icb(il) .AND. k<=kmx(il)-1) THEN
136          buoy(il, k) = bll(il)
137        END IF
138      END IF
139    END DO
140  END DO
141
142!CR:Correction of buoy for what comes next
143!keep flag or to modify in all cases?
144  IF (iflag_mix_adiab.eq.1) THEN
145  DO k = 1, nl
146    DO il = 1, ncum
147       IF ((k>=kmx(il)) .AND. (k<=inb(il)) .AND. (buoy(il,k).lt.0.)) THEN
148          buoy(il,k)=buoy(il,k-1)
149       END IF
150    ENDDO
151  ENDDO
152  ENDIF
153
154  RETURN
155END SUBROUTINE cv3_buoy
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