source: LMDZ6/branches/contrails/libf/phylmd/tropopause_m.f90 @ 5450

Last change on this file since 5450 was 5344, checked in by Laurent Fairhead, 4 weeks ago

Temporary fix on value of index so that the code does not crash in debug mode.
We still have to understand how it can be 0
TL, JG, DC, LF

File size: 6.2 KB
Line 
1MODULE tropopause_m
2
3  USE yomcst_mod_h
4IMPLICIT NONE
5  PRIVATE
6  PUBLIC :: dyn_tropopause
7
8CONTAINS
9
10!-------------------------------------------------------------------------------
11!
12FUNCTION dyn_tropopause(t, ts, paprs, pplay, rot, itrop, thet0, pvor0)
13!
14!-------------------------------------------------------------------------------
15  USE assert_m,     ONLY: assert
16  USE assert_eq_m,  ONLY: assert_eq
17  USE dimphy,       ONLY: klon, klev
18  USE geometry_mod, ONLY: latitude_deg, longitude_deg
19  USE vertical_layers_mod, ONLY: aps, bps, preff
20  USE lmdz_reprobus_wrappers, ONLY: itroprep
21  USE lmdz_cppkeys_wrapper, ONLY: CPPKEY_REPROBUS
22
23!-------------------------------------------------------------------------------
24! Arguments:
25  REAL ::     dyn_tropopause(klon) !--- Pressure at tropopause
26  REAL, INTENT(IN)  ::      t(:,:) !--- Cells-centers temperature
27  REAL, INTENT(IN)  ::     ts(:)   !--- Surface       temperature
28  REAL, INTENT(IN)  ::  paprs(:,:) !--- Cells-edges   pressure
29  REAL, INTENT(IN)  ::  pplay(:,:) !--- Cells-centers pressure
30  REAL, INTENT(IN)  ::    rot(:,:) !--- Cells-centers relative vorticity
31  INTEGER, INTENT(OUT), OPTIONAL :: itrop(klon) !--- Last tropospheric layer idx
32  REAL,    INTENT(IN),  OPTIONAL :: thet0, pvor0
33!-------------------------------------------------------------------------------
34! Local variables:
35
36  REAL, PARAMETER :: DynPTrMin =8.E+3 !--- Thresholds for minimum and maximum
37  REAL, PARAMETER :: DynPTrMax =4.E+4 !    dynamical tropopause pressure (Pa).
38  CHARACTER(LEN=80)  :: sub
39  INTEGER :: i, k, kb, kt, kp, ib, ie, nw
40  REAL    :: al, th0, pv0
41  REAL,    DIMENSION(klon,klev) :: tpot_cen, tpot_edg, pvor_cen
42  REAL,    PARAMETER :: sg0=0.75  !--- Start level for PV=cte search loop
43  INTEGER, PARAMETER :: nadj=3    !--- Adjacent levs nb for thresholds detection
44  REAL,    PARAMETER :: w(5)=[0.1,0.25,0.3,0.25,0.1] !--- Vertical smoothing
45  INTEGER, SAVE :: k0
46  INTEGER :: savkt
47  LOGICAL, SAVE :: first=.TRUE.
48!$OMP THREADPRIVATE(k0,first)
49!-------------------------------------------------------------------------------
50  sub='dyn_tropopause'
51  CALL assert(SIZE(t ,1)==klon, TRIM(sub)//" t klon")
52  CALL assert(SIZE(t ,2)==klev, TRIM(sub)//" t klev")
53  CALL assert(SIZE(ts,1)==klon, TRIM(sub)//" ts klon")
54  CALL assert(SHAPE(paprs)==[klon,klev+1],TRIM(sub)//" paprs shape")
55  CALL assert(SHAPE(pplay)==[klon,klev  ],TRIM(sub)//" pplay shape")
56  CALL assert(SHAPE(rot)  ==[klon,klev  ],TRIM(sub)//" rot shape")
57
58  !--- DEFAULT THRESHOLDS
59  th0=380.; IF(PRESENT(thet0)) th0=thet0   !--- In kelvins
60  pv0=  2.; IF(PRESENT(pvor0)) pv0=pvor0   !--- In PVU
61  IF(first) THEN
62    DO k0=1,klev; IF(aps(k0)/preff+bps(k0)<sg0) EXIT; END DO; first=.FALSE.
63  END IF
64
65  !--- POTENTIAL TEMPERATURE AT CELLS CENTERS AND INTERFACES
66  DO i = 1,klon
67    tpot_cen(i,1) = t(i,1)*(preff/pplay(i,1))**RKAPPA
68    tpot_edg(i,1) = ts(i) *(preff/paprs(i,1))**RKAPPA
69    DO k=2,klev
70      al = LOG(pplay(i,k-1)/paprs(i,k))/LOG(pplay(i,k-1)/pplay(i,k))
71      tpot_cen(i,k) =  t(i,k)                        *(preff/pplay(i,k))**RKAPPA
72      tpot_edg(i,k) = (t(i,k-1)+al*(t(i,k)-t(i,k-1)))*(preff/paprs(i,k))**RKAPPA
73      !--- FORCE QUANTITIES TO BE GROWING
74      IF(tpot_edg(i,k)<tpot_edg(i,k-1)) tpot_edg(i,k)=tpot_edg(i,k-1)+1.E-5
75      IF(tpot_cen(i,k)<tpot_cen(i,k-1)) tpot_cen(i,k)=tpot_cen(i,k-1)+1.E-5
76    END DO
77    !--- VERTICAL SMOOTHING
78    tpot_cen(i,:)=smooth(tpot_cen(i,:),w)
79    tpot_edg(i,:)=smooth(tpot_edg(i,:),w)
80  END DO
81
82  !--- ERTEL POTENTIAL VORTICITY AT CELLS CENTERS (except in top layer)
83  DO i = 1, klon
84    DO k= 1, klev-1
85      pvor_cen(i,k)=-1.E6*RG*(rot(i,k)+2.*ROMEGA*SIN(latitude_deg(i)*RPI/180.))&
86                   * (tpot_edg(i,k+1)-tpot_edg(i,k)) / (paprs(i,k+1)-paprs(i,k))
87    END DO
88    !--- VERTICAL SMOOTHING
89    pvor_cen(i,1:klev-1)=smooth(pvor_cen(i,1:klev-1),w)
90  END DO
91
92  !--- LOCATE TROPOPAUSE: LOWEST POINT BETWEEN THETA=380K AND PV=2PVU SURFACES.
93  DO i = 1, klon
94    !--- UPPER TROPOPAUSE: |PV|=2PVU POINT STARTING FROM TOP
95    DO kt=klev-1,1,-1; savkt = kt; IF(ALL(ABS(pvor_cen(i,kt-nadj:kt))<=pv0)) EXIT; END DO
96    kt = savkt
97    IF (kt == 0 ) THEN
98       call abort_physic("dyn_tropopause", " kt = 1", 1)
99    ENDIF
100    !--- LOWER TROPOPAUSE: |PV|=2PVU POINT STARTING FROM BOTTOM
101    DO kb=k0,klev-1;   IF(ALL(ABS(pvor_cen(i,kb:kb+nadj))> pv0)) EXIT; END DO; kb=kb-1
102    !--- ISO-THETA POINT: THETA=380K       STARTING FROM TOP
103    DO kp=klev-1,1,-1; IF(ALL(ABS(tpot_cen(i,kp-nadj:kp))<=th0)) EXIT; END DO
104    !--- CHOOSE BETWEEN LOWER AND UPPER TROPOPAUSE
105    IF(2*COUNT(ABS(pvor_cen(i,kb:kt))>pv0)>kt-kb+1) kt=kb
106    !--- PV-DEFINED TROPOPAUSE
107    al = (ABS(pvor_cen(i,kt+1))-pv0)/ABS(pvor_cen(i,kt+1)-pvor_cen(i,kt))
108    dyn_tropopause(i) = pplay(i,kt+1)*(pplay(i,kt)/pplay(i,kt+1))**al
109    !--- THETA=380K IN THE TROPICAL REGION
110    al = (tpot_cen(i,kp+1)-th0)/(tpot_cen(i,kp+1)-tpot_cen(i,kp))
111    dyn_tropopause(i) = MAX( pplay(i,kp+1)*(pplay(i,kp)/pplay(i,kp+1))**al,    &
112                            dyn_tropopause(i) )
113    !--- UNREALISTIC VALUES DETECTION
114    IF(dyn_tropopause(i)<DynPTrMin.OR.dyn_tropopause(i)>DynPTrMax) THEN
115      dyn_tropopause(i)=MIN(MAX(dyn_tropopause(i),DynPTrMax),DynPTrMin)
116      DO kt=1,klev-1; IF(pplay(i,kt+1)>dyn_tropopause(i)) EXIT; END DO; kp=kt
117    END IF
118IF (CPPKEY_REPROBUS) THEN
119    itroprep(i)=MAX(kt,kp)
120END IF
121    !--- LAST TROPOSPHERIC LAYER INDEX NEEDED
122    IF(PRESENT(itrop)) itrop(i)=MAX(kt,kp)
123  END DO
124
125END FUNCTION dyn_tropopause
126
127
128!-------------------------------------------------------------------------------
129!
130FUNCTION smooth(v,w)
131!
132!-------------------------------------------------------------------------------
133! Arguments:
134  REAL, INTENT(IN)         :: v(:), w(:)
135  REAL, DIMENSION(SIZE(v)) :: smooth
136!-------------------------------------------------------------------------------
137! Local variables:
138  INTEGER :: nv, nw, k, kb, ke, lb, le
139!-------------------------------------------------------------------------------
140  nv=SIZE(v); nw=(SIZE(w)-1)/2
141  DO k=1,nv
142    kb=MAX(k-nw,1 ); lb=MAX(2+nw   -k,1)
143    ke=MIN(k+nw,nv); le=MIN(1+nw+nv-k,1+2*nw)
144    smooth(k)=SUM(v(kb:ke)*w(lb:le))/SUM(w(lb:le))
145  END DO
146
147END FUNCTION smooth
148!
149!-------------------------------------------------------------------------------
150
151END MODULE tropopause_m
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