source: LMDZ5/branches/IPSLCM5A2.1_ISO/libf/phyiso/cv3_buoy.F90 @ 3485

Last change on this file since 3485 was 3331, checked in by acozic, 6 years ago

Add modification for isotopes

  • Property svn:executable set to *
File size: 3.9 KB
Line 
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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