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thermcell_height.F90 @ 5086

Last change on this file since 5086 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
Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 4.7 KB

Rev	Line
[878]	1	SUBROUTINE thermcell_height(ngrid,nlay,lalim,lmin,linter,lmix, &
	2	& zw2,zlev,lmax,zmax,zmax0,zmix,wmax,lev_out)
	3
	4	!-----------------------------------------------------------------------------
	5	!thermcell_height: calcul des caracteristiques du thermique: zmax,wmax,zmix
	6	!-----------------------------------------------------------------------------
	7	IMPLICIT NONE
[1026]	8	#include "thermcell.h"
[878]	9
	10	INTEGER ig,l
	11	INTEGER ngrid,nlay
	12	INTEGER lalim(ngrid),lmin(ngrid)
	13	INTEGER lmix(ngrid)
	14	REAL linter(ngrid)
	15	integer lev_out ! niveau pour les print
	16
	17	REAL zw2(ngrid,nlay+1)
	18	REAL zlev(ngrid,nlay+1)
	19
	20	REAL wmax(ngrid)
	21	INTEGER lmax(ngrid)
	22	REAL zmax(ngrid)
	23	REAL zmax0(ngrid)
	24	REAL zmix(ngrid)
[1026]	25	REAL num(ngrid)
	26	REAL denom(ngrid)
[878]	27
	28	REAL zlevinter(ngrid)
	29
	30	!calcul de la hauteur max du thermique
	31	do ig=1,ngrid
	32	lmax(ig)=lalim(ig)
	33	enddo
	34	do ig=1,ngrid
	35	do l=nlay,lalim(ig)+1,-1
	36	if (zw2(ig,l).le.1.e-10) then
	37	lmax(ig)=l-1
	38	endif
	39	enddo
	40	enddo
[1403]	41
	42	! On traite le cas particulier qu'il faudrait éviter ou le thermique
	43	! atteind le haut du modele ...
	44	do ig=1,ngrid
	45	if ( zw2(ig,nlay) > 1.e-10 ) then
	46	print*,'WARNING !!!!! W2 thermiques non nul derniere couche '
	47	lmax(ig)=nlay
	48	endif
	49	enddo
	50
[878]	51	! pas de thermique si couche 1 stable
	52	do ig=1,ngrid
	53	if (lmin(ig).gt.1) then
	54	lmax(ig)=1
	55	lmin(ig)=1
	56	lalim(ig)=1
	57	endif
	58	enddo
	59	!
	60	! Determination de zw2 max
	61	do ig=1,ngrid
	62	wmax(ig)=0.
	63	enddo
	64
	65	do l=1,nlay
	66	do ig=1,ngrid
	67	if (l.le.lmax(ig)) then
	68	if (zw2(ig,l).lt.0.)then
	69	print*,'pb2 zw2<0'
	70	endif
	71	zw2(ig,l)=sqrt(zw2(ig,l))
	72	wmax(ig)=max(wmax(ig),zw2(ig,l))
	73	else
	74	zw2(ig,l)=0.
	75	endif
	76	enddo
	77	enddo
	78
	79	! Longueur caracteristique correspondant a la hauteur des thermiques.
	80	do ig=1,ngrid
	81	zmax(ig)=0.
	82	zlevinter(ig)=zlev(ig,1)
	83	enddo
[1026]	84
[1998]	85	! if (iflag_thermals_ed.ge.1) then
	86	if (1==0) then
	87	!CR:date de quand le calcul du zmax continu etait buggue
[1026]	88	num(:)=0.
	89	denom(:)=0.
	90	do ig=1,ngrid
	91	do l=1,nlay
	92	num(ig)=num(ig)+zw2(ig,l)zlev(ig,l)(zlev(ig,l+1)-zlev(ig,l))
	93	denom(ig)=denom(ig)+zw2(ig,l)*(zlev(ig,l+1)-zlev(ig,l))
	94	enddo
	95	enddo
	96	do ig=1,ngrid
	97	if (denom(ig).gt.1.e-10) then
	98	zmax(ig)=2.*num(ig)/denom(ig)
	99	zmax0(ig)=zmax(ig)
	100	endif
	101	enddo
[1998]	102
	103	else
	104	!CR:Calcul de zmax continu via le linter
[878]	105	do ig=1,ngrid
	106	! calcul de zlevinter
	107	zlevinter(ig)=(zlev(ig,lmax(ig)+1)-zlev(ig,lmax(ig)))* &
	108	& linter(ig)+zlev(ig,lmax(ig))-lmax(ig)*(zlev(ig,lmax(ig)+1) &
	109	& -zlev(ig,lmax(ig)))
	110	!pour le cas ou on prend tjs lmin=1
	111	! zmax(ig)=max(zmax(ig),zlevinter(ig)-zlev(ig,lmin(ig)))
	112	zmax(ig)=max(zmax(ig),zlevinter(ig)-zlev(ig,1))
	113	zmax0(ig)=zmax(ig)
	114	enddo
[1026]	115
	116
	117	endif
	118	!endif iflag_thermals_ed
[878]	119	!
	120	! def de zmix continu (profil parabolique des vitesses)
	121	do ig=1,ngrid
	122	if (lmix(ig).gt.1) then
	123	! test
	124	if (((zw2(ig,lmix(ig)-1)-zw2(ig,lmix(ig))) &
	125	& *((zlev(ig,lmix(ig)))-(zlev(ig,lmix(ig)+1))) &
	126	& -(zw2(ig,lmix(ig))-zw2(ig,lmix(ig)+1)) &
	127	& *((zlev(ig,lmix(ig)-1))-(zlev(ig,lmix(ig))))).gt.1e-10) &
	128	& then
	129	!
	130	zmix(ig)=((zw2(ig,lmix(ig)-1)-zw2(ig,lmix(ig))) &
	131	& ((zlev(ig,lmix(ig)))2-(zlev(ig,lmix(ig)+1))*2) &
	132	& -(zw2(ig,lmix(ig))-zw2(ig,lmix(ig)+1)) &
	133	& ((zlev(ig,lmix(ig)-1))2-(zlev(ig,lmix(ig)))*2)) &
	134	& /(2.*((zw2(ig,lmix(ig)-1)-zw2(ig,lmix(ig))) &
	135	& *((zlev(ig,lmix(ig)))-(zlev(ig,lmix(ig)+1))) &
	136	& -(zw2(ig,lmix(ig))-zw2(ig,lmix(ig)+1)) &
	137	& *((zlev(ig,lmix(ig)-1))-(zlev(ig,lmix(ig))))))
	138	else
	139	zmix(ig)=zlev(ig,lmix(ig))
	140	print*,'pb zmix'
	141	endif
	142	else
	143	zmix(ig)=0.
	144	endif
	145	!test
	146	if ((zmax(ig)-zmix(ig)).le.0.) then
	147	zmix(ig)=0.9*zmax(ig)
	148	! print*,'pb zmix>zmax'
	149	endif
	150	enddo
	151	!
	152	! calcul du nouveau lmix correspondant
	153	do ig=1,ngrid
	154	do l=1,nlay
	155	if (zmix(ig).ge.zlev(ig,l).and. &
	156	& zmix(ig).lt.zlev(ig,l+1)) then
	157	lmix(ig)=l
	158	endif
	159	enddo
	160	enddo
	161	!
	162	return
	163	end

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