Context Navigation

thermcell_dtke.F90 @ 3627

Last change on this file since 3627 was 2311, checked in by Ehouarn Millour, 9 years ago

Further modifications to enforce physics/dynamics separation:

moved iniprint.h and misc_mod back to dyn3d_common, as these should only be used by dynamics.
created print_control_mod in the physics to store flags prt_level, lunout, debug to be local to physics (should be used rather than iniprint.h)
created abort_physic.F90 , which does the same job as abort_gcm() did, but should be used instead when in physics.
reactivated inifis (turned it into a module, inifis_mod.F90) to initialize physical constants and print_control_mod flags.

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

File size: 2.9 KB

Line
1	subroutine thermcell_dtke(ngrid,nlay,nsrf,ptimestep,fm0,entr0, &
2	& rg,pplev,tke)
3	USE print_control_mod, ONLY: prt_level
4	implicit none
5
6	!=======================================================================
7	!
8	! Calcul du transport verticale dans la couche limite en presence
9	! de "thermiques" explicitement representes
10	! calcul du dq/dt une fois qu'on connait les ascendances
11	!
12	!=======================================================================
13
14	integer ngrid,nlay,nsrf
15
16	real ptimestep
17	real masse0(ngrid,nlay),fm0(ngrid,nlay+1),pplev(ngrid,nlay+1)
18	real entr0(ngrid,nlay),rg
19	real tke(ngrid,nlay,nsrf)
20	real detr0(ngrid,nlay)
21
22
23	real masse(ngrid,nlay),fm(ngrid,nlay+1)
24	real entr(ngrid,nlay)
25	real q(ngrid,nlay)
26	integer lev_out ! niveau pour les print
27
28	real qa(ngrid,nlay),detr(ngrid,nlay),wqd(ngrid,nlay+1)
29
30	real zzm
31
32	integer ig,k
33	integer isrf
34
35
36	lev_out=0
37
38
39	if (prt_level.ge.1) print*,'Q2 THERMCEL_DQ 0'
40
41	! calcul du detrainement
42	do k=1,nlay
43	detr0(:,k)=fm0(:,k)-fm0(:,k+1)+entr0(:,k)
44	masse0(:,k)=(pplev(:,k)-pplev(:,k+1))/RG
45	enddo
46
47
48	! Decalage vertical des entrainements et detrainements.
49	masse(:,1)=0.5*masse0(:,1)
50	entr(:,1)=0.5*entr0(:,1)
51	detr(:,1)=0.5*detr0(:,1)
52	fm(:,1)=0.
53	do k=1,nlay-1
54	masse(:,k+1)=0.5*(masse0(:,k)+masse0(:,k+1))
55	entr(:,k+1)=0.5*(entr0(:,k)+entr0(:,k+1))
56	detr(:,k+1)=0.5*(detr0(:,k)+detr0(:,k+1))
57	fm(:,k+1)=fm(:,k)+entr(:,k)-detr(:,k)
58	enddo
59	fm(:,nlay+1)=0.
60
61	! calcul de la valeur dans les ascendances
62	do ig=1,ngrid
63	qa(ig,1)=q(ig,1)
64	enddo
65
66
67
68	do isrf=1,nsrf
69
70	q(:,:)=tke(:,:,isrf)
71
72	if (1==1) then
73	do k=2,nlay
74	do ig=1,ngrid
75	if ((fm(ig,k+1)+detr(ig,k))*ptimestep.gt. &
76	& 1.e-5*masse(ig,k)) then
77	qa(ig,k)=(fm(ig,k)qa(ig,k-1)+entr(ig,k)q(ig,k)) &
78	& /(fm(ig,k+1)+detr(ig,k))
79	else
80	qa(ig,k)=q(ig,k)
81	endif
82	if (qa(ig,k).lt.0.) then
83	! print*,'qa<0!!!'
84	endif
85	if (q(ig,k).lt.0.) then
86	! print*,'q<0!!!'
87	endif
88	enddo
89	enddo
90
91	! Calcul du flux subsident
92
93	do k=2,nlay
94	do ig=1,ngrid
95	wqd(ig,k)=fm(ig,k)*q(ig,k)
96	if (wqd(ig,k).lt.0.) then
97	! print*,'wqd<0!!!'
98	endif
99	enddo
100	enddo
101	do ig=1,ngrid
102	wqd(ig,1)=0.
103	wqd(ig,nlay+1)=0.
104	enddo
105
106
107	! Calcul des tendances
108	do k=1,nlay
109	do ig=1,ngrid
110	q(ig,k)=q(ig,k)+(detr(ig,k)qa(ig,k)-entr(ig,k)q(ig,k) &
111	& -wqd(ig,k)+wqd(ig,k+1)) &
112	& *ptimestep/masse(ig,k)
113	enddo
114	enddo
115
116	endif
117
118	tke(:,:,isrf)=q(:,:)
119
120	enddo
121
122	return
123	end

Note: See TracBrowser for help on using the repository browser.

Download in other formats:

Original Format