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thermcell_env.F90 @ 2127

Last change on this file since 2127 was 2127, checked in by aboissinot, 6 years ago
Fix in convadj.F New version of the thermal plume model (new entrainment and detrainment formulae, alimentation is removed)
File size: 3.8 KB

Line
1	!
2	!
3	!
4	SUBROUTINE thermcell_env(ngrid,nlay,nq,pq,pt,pu,pv,pplay,pplev, &
5	zqt,zql,zt,ztv,zhl,zu,zv,zpopsk,zqs)
6
7
8	!===============================================================================
9	! Purpose: calcul des caracteristiques de l'environnement necessaires au calcul
10	! des proprietes dans le thermique.
11	!
12	! Modif 2019/04 (AB alexandre.boissinot@lmd.jussieu.fr)
13	!
14	! Nota Bene
15	! ql means "non-gaseous water mass mixing ratio" (liquid and solid)
16	! qv means "vapor mass mixing ratio"
17	! qt means "total water mass mixing ratio"
18	! TP means "potential temperature"
19	! TRPV means "virtual potential temperature with latent heat release"
20	! TPV means "virtual potential temperature"
21	! TR means "temperature with latent heat release"
22	!===============================================================================
23
24	USE print_control_mod, ONLY: prt_level
25	USE thermcell_mod, ONLY: RKAPPA
26	USE watercommon_h, ONLY: RLvCp, RETV, Psat_water
27	USE tracer_h, ONLY: igcm_h2o_vap, igcm_h2o_ice
28	USE callkeys_mod, ONLY: water
29
30	IMPLICIT NONE
31
32
33	!===============================================================================
34	! Declaration
35	!===============================================================================
36
37	! Inputs:
38	! -------
39
40	INTEGER ngrid, nlay, nq
41
42	REAL pq(ngrid,nlay,nq) ! Large scale water
43	REAL pt(ngrid,nlay) ! Large scale temperature
44	REAL pu(ngrid,nlay) ! Large scale zonal wind
45	REAL pv(ngrid,nlay) ! Large scale meridional wind
46	REAL pplay(ngrid,nlay) ! Layers pressure
47	REAL pplev(ngrid,nlay+1) ! Levels pressure
48	REAL zpopsk(ngrid,nlay) ! Exner function
49
50	! Outputs:
51	! --------
52
53	REAL zqt(ngrid,nlay) ! q environment
54	REAL zql(ngrid,nlay) ! q environment
55	REAL zt(ngrid,nlay) ! T environment
56	REAL ztv(ngrid,nlay) ! TRPV environment
57	REAL zhl(ngrid,nlay) ! TP environment
58	REAL zu(ngrid,nlay) ! u environment
59	REAL zv(ngrid,nlay) ! v environment
60	REAL zqs(ngrid,nlay) ! qsat environment
61
62	! Local:
63	! ------
64
65	INTEGER ig, l
66
67	REAL psat ! Dummy argument for Psat_water()
68
69	!===============================================================================
70	! Initialization
71	!===============================================================================
72
73	zu(:,:) = pu(:,:)
74	zv(:,:) = pv(:,:)
75
76	zhl(:,:) = pt(:,:) / zpopsk(:,:)
77
78	zqt(:,:) = pq(:,:,igcm_h2o_vap)
79
80	!===============================================================================
81	! Condensation and latent heat release
82	!===============================================================================
83
84	IF (water) THEN
85
86	DO l=1,nlay
87	DO ig=1,ngrid
88	CALL Psat_water(pt(ig,l), pplev(ig,l), psat, zqs(ig,l))
89	ENDDO
90	ENDDO
91
92	DO l=1,nlay
93	DO ig=1,ngrid
94	zql(ig,l) = max(0.,pq(ig,l,igcm_h2o_vap) - zqs(ig,l))
95	zt(ig,l) = pt(ig,l) + RLvCp * zql(ig,l)
96	ztv(ig,l) = zt(ig,l) / zpopsk(ig,l) &
97	& * (1. + RETV * (zqt(ig,l)-zql(ig,l)) - zql(ig,l))
98	ENDDO
99	ENDDO
100
101	ELSE
102
103	zt(:,:) = pt(:,:)
104	ztv(:,:) = pt(:,:) / zpopsk(:,:)
105
106	ENDIF
107
108
109	RETURN
110	END

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