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suaer.F90 @ 2156

Last change on this file since 2156 was 1974, checked in by mvals, 6 years ago
Mars GCM: Integration of the detached dust layer parametrizations (rocket dust storm, slope wind lifting, CW, and dust injection scheme, DB). Still experimental, default behaviour (rdstorm=.false., dustinjection=0) identical to previous revision. NB: Updated newstart requires an updated "surface.nc" containing the "hmons" field. EM+MV
File size: 18.7 KB

Rev	Line
[38]	1	SUBROUTINE suaer
[1047]	2	use dimradmars_mod, only: longrefvis, longrefir, nsizemax, long1vis, &
[1246]	3	long2vis, long3vis, long1ir, long2ir, long1co2, &
	4	long2co2, nsun, nir,&
	5	naerkind, name_iaer, &
	6	iaer_dust_conrath,iaer_dust_doubleq,&
	7	iaer_dust_submicron,iaer_h2o_ice,&
[1974]	8	iaer_stormdust_doubleq,&
[1246]	9	file_id,radiustab, gvis, omegavis, &
	10	QVISsQREF, gIR, omegaIR, &
	11	QIRsQREF, QREFvis, QREFir, &
	12	omegaREFvis, omegaREFir, &
[1047]	13	nsize
[1918]	14	use datafile_mod, only: datadir
[38]	15	IMPLICIT NONE
	16	!==================================================================
	17	! Purpose.
	18	! --------
	19	! initialize yomaer, the common that contains the
	20	! radiative characteristics of the aerosols
	21	!
	22	! AUTHORS.
	23	! --------
	24	! Richard Fournier (1996) Francois Forget (1996)
	25	! Frederic Hourdin
	26	! Jean-jacques morcrette ECMWF
	27	! MODIF Francois Forget (2000)
	28	! MODIF Franck Montmessin (add water ice)
	29	! MODIF J.-B. Madeleine 2008W27
	30	! - Optical properties read in ASCII files
	31	! - Add varying radius of the particules
	32	!
	33	! Summary.
	34	! --------
	35	!
	36	! Read the optical properties -> Mean -> Variable assignment
	37	! (ASCII files) (see yomaer.h)
	38	! wvl(nwvl) longsun
	39	! ep(nwvl) epav QVISsQREF(nsun)
	40	! omeg(nwvl) omegav omegavis(nsun)
	41	! gfactor(nwvl) gav gvis(nsun)
	42	!
	43	!==================================================================
	44
	45	! Includes:
	46
[1918]	47	include "callkeys.h"
[38]	48
	49	! Optical properties (read in external ASCII files)
	50	INTEGER :: nwvl ! Number of wavelengths in
	51	! the domain (VIS or IR)
	52	REAL, DIMENSION(:),&
	53	ALLOCATABLE, SAVE :: wvl ! Wavelength axis
	54	REAL, DIMENSION(:),&
	55	ALLOCATABLE, SAVE :: radiusdyn ! Particle size axis
	56
	57	REAL, DIMENSION(:,:),&
	58	ALLOCATABLE, SAVE :: ep,& ! Extinction coefficient Qext
	59	omeg,& ! Single Scattering Albedo
	60	gfactor ! Assymetry Factor
	61
	62	! Local variables:
	63
	64	INTEGER :: iaer ! Aerosol index
	65	INTEGER :: idomain ! Domain index (1=VIS,2=IR)
	66	INTEGER :: iir ! IR channel index
	67	! iir=1: 15um CO2 bands
	68	! iir=2 : CO2 band wings
	69	! iir=3 : 9 um band
	70	! iir=4 : Far IR
	71	INTEGER :: isun ! Solar band index
	72	INTEGER :: isize ! Particle size index
	73	INTEGER :: jfile ! ASCII file scan index
	74	INTEGER :: file_unit = 60
	75	LOGICAL :: file_ok, endwhile
	76	CHARACTER(LEN=132) :: scanline ! ASCII file scanning line
	77	INTEGER :: read_ok
	78
	79	! I/O of "aerave" (subroutine averaging spectrally
	80	! sing.scat.parameters)
	81
	82	REAL tsun ! Sun brightness temperature (for SW)
	83	REAL tsol ! Surface reference brightness temp (LW)
	84	REAL longref ! reference wavelengths
	85	REAL longsun(nsun+1) ! solar band boundaries
	86	REAL longir(nir+1) ! IR band boundaries
	87	REAL epref ! reference extinction ep
	88	! at wavelength "longref"
	89	REAL epav(nir) ! average ep
	90	! (= <Qext>/Qext(longref) if epref=1)
	91	REAL omegav(nir) ! Average sing.scat.albedo
	92	REAL gav(nir) ! Average assymetry parameter
	93
	94	!==================================================================
	95	!---- Please indicate the names of the optical property files below
	96	! Please also choose the reference wavelengths of each aerosol
	97
	98	DO iaer = 1, naerkind ! Loop on aerosol kind
	99	aerkind: SELECT CASE (name_iaer(iaer))
	100	!==================================================================
	101	CASE("dust_conrath") aerkind ! Typical dust profile
	102	!==================================================================
	103	! Visible domain:
	104	file_id(iaer,1) = 'optprop_dustvis_TM.dat' !M.Wolff TM
[222]	105	! file_id(iaer,1) = 'optprop_dustvis_clancy.dat' !Clancy-Lee
[38]	106	! file_id(iaer,1) = 'optprop_dustvis_ockert.dat' !Ockert-Bell
	107	! Infrared domain:
	108	file_id(iaer,2) = 'optprop_dustir_TM.dat' !M.Wolff TM
[222]	109	! Toon-Forget + solsir=2 using Clancy-Lee
	110	! file_id(iaer,2) = 'optprop_dustir_clancy.dat'
	111	! Toon-Forget + solsir=2 using Ockert-Bell
	112	! file_id(iaer,2) = 'optprop_dustir_ockert.dat'
[38]	113	! Reference wavelength in the visible:
	114	longrefvis(iaer)=0.67E-6
	115	! For dust: change readtesassim accordingly;
	116	! Reference wavelength in the infrared:
[1353]	117	longrefir(iaer)=dustrefir
[38]	118	!==================================================================
	119	CASE("dust_doubleq") aerkind! Two-moment scheme for dust
	120	!==================================================================
	121	! Visible domain:
	122	file_id(iaer,1) = 'optprop_dustvis_TM_n50.dat' !T-Matrix
	123	! file_id(iaer,1) = 'optprop_dustvis_n50.dat' !Mie
	124	! Infrared domain:
	125	file_id(iaer,2) = 'optprop_dustir_n50.dat' !Mie
	126	! Reference wavelength in the visible:
	127	longrefvis(iaer)=0.67E-6
	128	! If not equal to 0.67e-6 -> change readtesassim accordingly;
	129	! Reference wavelength in the infrared:
[1353]	130	longrefir(iaer)=dustrefir
[38]	131	!==================================================================
	132	CASE("dust_submicron") aerkind ! Small dust population
	133	!==================================================================
	134	! Visible domain:
	135	file_id(iaer,1) = 'optprop_dustvis_01um_TM.dat' !M.Wolff
	136	! Infrared domain:
	137	file_id(iaer,2) = 'optprop_dustir_01um_TM.dat' !M.Wolff
	138	! Reference wavelength in the visible:
	139	longrefvis(iaer)=0.67E-6
	140	! If not equal to 0.67e-6 -> change readtesassim accordingly;
	141	! Reference wavelength in the infrared:
[1353]	142	longrefir(iaer)=dustrefir
[38]	143	!==================================================================
	144	CASE("h2o_ice") aerkind ! Water ice crystals
	145	!==================================================================
	146	! Visible domain:
	147	file_id(iaer,1) = 'optprop_icevis_n30.dat' !Warren
	148	! file_id(iaer,1) = 'optprop_icevis.dat' !Warren
	149	! Infrared domain:
	150	file_id(iaer,2) = 'optprop_iceir_n30.dat' !Warren
	151	! file_id(iaer,2) = 'optprop_iceir.dat' !Warren
	152	! Reference wavelength in the visible:
	153	longrefvis(iaer)=0.67E-6 ! 1.5um OMEGA/MEx
	154	! Reference wavelength in the infrared:
	155	longrefir(iaer)=12.1E-6 ! 825cm-1 TES/MGS
	156	!==================================================================
[1974]	157	CASE("stormdust_doubleq") aerkind ! Two-moment scheme for stormdust - radiative properties
	158	!==================================================================
	159	! Visible domain:
	160	file_id(iaer,1) = 'optprop_dustvis_TM_n50.dat' !T-Matrix
	161	! Infrared domain:
	162	file_id(iaer,2) = 'optprop_dustir_n50.dat' !Mie
	163	! Reference wavelength in the visible:
	164	longrefvis(iaer)=0.67E-6
	165	! If not equal to 0.67e-6 -> change readtesassim accordingly;
	166	! Reference wavelength in the infrared:
	167	longrefir(iaer)=dustrefir
	168	!==================================================================
[38]	169	END SELECT aerkind
	170	!==================================================================
	171	WRITE(,) "Scatterer: ",trim(name_iaer(iaer))
	172	WRITE(,) " corresponding files: "
	173	WRITE(,) "VIS: ",trim(file_id(iaer,1))
	174	WRITE(,) "IR : ",trim(file_id(iaer,2))
	175	!==================================================================
	176	ENDDO ! iaer (loop on aerosol kind)
	177
	178	! Initializations:
	179
	180	radiustab(1:naerkind,1:2,1:nsizemax)=0
	181
	182	gvis(1:nsun,1:naerkind,1:nsizemax)=0
	183	omegavis(1:nsun,1:naerkind,1:nsizemax)=0
	184	QVISsQREF(1:nsun,1:naerkind,1:nsizemax)=0
	185
	186	gIR(1:nir,1:naerkind,1:nsizemax)=0
	187	omegaIR(1:nir,1:naerkind,1:nsizemax)=0
	188	QIRsQREF(1:nir,1:naerkind,1:nsizemax)=0
	189
	190	QREFvis(1:naerkind,1:nsizemax)=0
	191	QREFir(1:naerkind,1:nsizemax)=0
	192	omegaREFvis(1:naerkind,1:nsizemax)=0
	193	omegaREFir(1:naerkind,1:nsizemax)=0
	194
	195	DO iaer = 1, naerkind ! Loop on aerosol kind
	196	DO idomain = 1, 2 ! Loop on radiation domain (VIS or IR)
	197	!==================================================================
	198	! 1. READ OPTICAL PROPERTIES
	199	!==================================================================
	200
	201	! 1.1 Open the ASCII file
	202
[1918]	203	INQUIRE(FILE=TRIM(datadir)//&
	204	'/'//TRIM(file_id(iaer,idomain)),&
[38]	205	EXIST=file_ok)
	206	IF(.NOT.file_ok) THEN
	207	write(,)'Problem opening ',&
[1918]	208	TRIM(file_id(iaer,idomain))
[38]	209	write(,)'It should be in: ',&
[1918]	210	TRIM(datadir)
	211	write(,)'1) You can change this directory address in callfis.def with'
	212	write(,)' datadir=/path/to/datafiles'
[38]	213	write(,)'2) If ',&
[1918]	214	TRIM(file_id(iaer,idomain)),&
[38]	215	' is a LMD reference datafile, it'
	216	write(,)' can be obtained online on:'
	217	write(,)' http://www.lmd.jussieu.fr/',&
[1381]	218	'~lmdz/planets/mars/datadir'
[38]	219	write(,)'3) If the name of the file is wrong, you can'
	220	write(,)' change it in file phymars/suaer.F90. Just'
	221	write(,)' modify the variable called file_id.'
	222	CALL ABORT
	223	ENDIF
	224	OPEN(UNIT=file_unit,&
[1918]	225	FILE=TRIM(datadir)//&
	226	'/'//TRIM(file_id(iaer,idomain)),&
[38]	227	FORM='formatted')
	228
	229	! 1.2 Allocate the optical property table
	230
	231	jfile = 1
	232	endwhile = .false.
	233	DO WHILE (.NOT.endwhile)
	234	READ(file_unit,*,iostat=read_ok) scanline
	235	if (read_ok.ne.0) then
	236	write(,)' readoptprop: Error reading file',&
[1918]	237	TRIM(datadir)//&
	238	'/'//TRIM(file_id(iaer,idomain))
[38]	239	call abort
	240	endif
	241	IF ((scanline(1:1) .ne. '#').and.&
	242	(scanline(1:1) .ne. ' ')) THEN
	243	BACKSPACE(file_unit)
	244	reading1_seq: SELECT CASE (jfile) ! ====================
	245	CASE(1) reading1_seq ! nwvl ----------------------------
	246	read(file_unit,*,iostat=read_ok) nwvl
	247	if (read_ok.ne.0) then
	248	write(,)' readoptprop: Error while reading line:',&
	249	trim(scanline)
	250	write(,)' of file',&
[1918]	251	TRIM(datadir)//&
	252	'/'//TRIM(file_id(iaer,idomain))
[38]	253	call abort
	254	endif
	255	jfile = jfile+1
	256	CASE(2) reading1_seq ! nsize ---------------------------
	257	read(file_unit,*,iostat=read_ok) nsize(iaer,idomain)
	258	if (read_ok.ne.0) then
	259	write(,)' readoptprop: Error while reading line:',&
	260	trim(scanline)
	261	write(,)' of file',&
[1918]	262	TRIM(datadir)//&
	263	'/'//TRIM(file_id(iaer,idomain))
[38]	264	call abort
	265	endif
	266	endwhile = .true.
	267	CASE DEFAULT reading1_seq ! ----------------------------
	268	WRITE(,) 'readoptprop: ',&
	269	'Error while loading optical properties.'
	270	CALL ABORT
	271	END SELECT reading1_seq ! ==============================
	272	ENDIF
	273	ENDDO
	274
	275	ALLOCATE(wvl(nwvl)) ! wvl
	276	ALLOCATE(radiusdyn(nsize(iaer,idomain))) ! radiusdyn
	277	ALLOCATE(ep(nwvl,nsize(iaer,idomain))) ! ep
	278	ALLOCATE(omeg(nwvl,nsize(iaer,idomain))) ! omeg
	279	ALLOCATE(gfactor(nwvl,nsize(iaer,idomain))) ! g
	280
	281	! 1.3 Read the data
	282
	283	jfile = 1
	284	endwhile = .false.
	285	DO WHILE (.NOT.endwhile)
	286	READ(file_unit,*) scanline
	287	IF ((scanline(1:1) .ne. '#').and.&
	288	(scanline(1:1) .ne. ' ')) THEN
	289	BACKSPACE(file_unit)
	290	reading2_seq: SELECT CASE (jfile) ! ====================
	291	CASE(1) reading2_seq ! wvl -----------------------------
	292	read(file_unit,*) wvl
	293	jfile = jfile+1
	294	CASE(2) reading2_seq ! radiusdyn -----------------------
	295	read(file_unit,*) radiusdyn
	296	jfile = jfile+1
	297	CASE(3) reading2_seq ! ep ------------------------------
	298	isize = 1
	299	DO WHILE (isize .le. nsize(iaer,idomain))
	300	READ(file_unit,*) scanline
	301	IF ((scanline(1:1) .ne. '#').and.&
	302	(scanline(1:1) .ne. ' ')) THEN
	303	BACKSPACE(file_unit)
	304	read(file_unit,*) ep(:,isize)
	305	isize = isize + 1
	306	ENDIF
	307	ENDDO
	308	jfile = jfile+1
	309	CASE(4) reading2_seq ! omeg ----------------------------
	310	isize = 1
	311	DO WHILE (isize .le. nsize(iaer,idomain))
	312	READ(file_unit,*) scanline
	313	IF ((scanline(1:1) .ne. '#').and.&
	314	(scanline(1:1) .ne. ' ')) THEN
	315	BACKSPACE(file_unit)
	316	read(file_unit,*) omeg(:,isize)
	317	isize = isize + 1
	318	ENDIF
	319	ENDDO
	320	jfile = jfile+1
	321	CASE(5) reading2_seq ! gfactor -------------------------
	322	isize = 1
	323	DO WHILE (isize .le. nsize(iaer,idomain))
	324	READ(file_unit,*) scanline
	325	IF ((scanline(1:1) .ne. '#').and.&
	326	(scanline(1:1) .ne. ' ')) THEN
	327	BACKSPACE(file_unit)
	328	read(file_unit,*) gfactor(:,isize)
	329	isize = isize + 1
	330	ENDIF
	331	ENDDO
	332	endwhile = .true.
	333	CASE DEFAULT reading2_seq ! ----------------------------
	334	WRITE(,) 'suaer.F90: ',&
	335	'Error while loading optical properties.'
	336	CALL ABORT
	337	END SELECT reading2_seq ! ==============================
	338	ENDIF
	339	ENDDO
	340
	341	! 1.4 Close the file
	342
	343	CLOSE(file_unit)
	344
	345	!==================================================================
	346	! 2. AVERAGED PROPERTIES AND VARIABLE ASSIGNMENTS
	347	!==================================================================
	348	domain: SELECT CASE (idomain)
	349	!==================================================================
	350	CASE(1) domain ! VISIBLE DOMAIN (idomain=1)
	351	!==================================================================
	352
	353	! 2.1 Parameters
	354	tsun=6000.E+0
	355	longsun(1)=long1vis
	356	longsun(2)=long2vis
	357	longsun(3)=long3vis
	358	longref=longrefvis(iaer)
	359	epref=1.E+0
	360
	361	DO isize=1,nsize(iaer,idomain)
	362	! test that there is enough room to store the data
	363	if (isize.gt.nsizemax) then
	364	write(,) "suaer: Error ! nsizemax is too small!"
	365	write(,) " nsizemax=",nsizemax
	366	write(,) " you must increase the value of nsizemax"
[1047]	367	write(,) " in dimradmars_mod !"
[38]	368	stop
	369	endif
	370	! ------------------------------------------------
	371	! 2.2 Save the particle sizes
	372	radiustab(iaer,idomain,isize)=radiusdyn(isize)
	373	! 2.3 Averaged optical properties (GCM channels)
	374	! Notice: Aerave also computes the extinction coefficient and
	375	! single scattering albedo at reference wavelength
	376	! (called QREFvis and OMEGAREFvis, same in the IR,
	377	! and not epref, which is a different parameter);
	378	! Reference wavelengths are defined for each aerosol in
[1047]	379	! dimradmars_mod.
[38]	380
	381	CALL aerave ( nwvl,&
	382	wvl(:),ep(:,isize),omeg(:,isize),gfactor(:,isize),&
	383	longref,epref,tsun,&
	384	nsun,longsun, epav,omegav,gav,&
	385	QREFvis(iaer,isize),omegaREFvis(iaer,isize) )
	386	! 2.4 Variable assignements (declared by yomaer.h)
	387	DO isun=1,nsun
	388	QVISsQREF(isun,iaer,isize)=epav(isun)
	389	gvis(isun,iaer,isize)=gav(isun)
	390	omegavis(isun,iaer,isize)=omegav(isun)
	391	END DO
	392	! 2.5 Output display
[411]	393	! WRITE(,) 'Les donnees spectrales :'
	394	! WRITE(,) 'Solaire (SW) ---->'
	395	! WRITE(,) 'Aerosol number: ', iaer
	396	! WRITE(,) 'Rayon aerosol: ', radiustab(iaer,idomain,isize)
	397	! WRITE(,) '<Qext>/Qext(longrefvis) ; omega ; g'
	398	! DO isun=1,nsun
	399	! WRITE(,) QVISsQREF(isun,iaer,isize),&
	400	! omegavis(isun,iaer,isize),&
	401	! gvis(isun,iaer,isize)
	402	! ENDDO
	403	! WRITE(,) 'QREFvis(',iaer,isize,') = ',QREFvis(iaer,isize)
	404	! WRITE(,) 'omegaREFvis(',iaer,isize,') = ',&
	405	! omegaREFvis(iaer,isize)
[38]	406	! ------------------------------------------------
	407	ENDDO
	408
	409	!==================================================================
	410	CASE(2) domain ! INFRARED DOMAIN (idomain=2)
	411	!==================================================================
	412
	413	DO isize=1,nsize(iaer,idomain) ! ----------------------------------
	414
	415	! 2.1 solsir is not used anymore; division of Qext(IR) by solsir
	416	! has to be done in the input ASCII files (if necessary).
	417
	418	! 2.2 Save the particle sizes
	419	radiustab(iaer,idomain,isize)=radiusdyn(isize)
	420
	421	! 2.3 Parameters
	422
	423	tsol=215.D+0
	424	longir(1)=long1ir
	425	longir(2)=long1co2
	426	longir(3)=long2co2
	427	longir(4)=long2ir
	428	longref=longrefir(iaer)
	429	epref=1.E+0
	430
	431	! 2.4 Averaged optical properties (GCM channels)
	432	! epav is <QIR>/Qext(longrefir) since epref=1
	433	! Notice: Aerave also Computes the extinction coefficient at
	434	! reference wavelength (called QREFvis or QREFir,
	435	! and not epref, which is a different parameter);
	436	! Reference wavelengths are defined for each aerosol in
[1047]	437	! dimradmar_mod.
[38]	438
	439	CALL aerave ( nwvl,&
	440	wvl(:),ep(:,isize),omeg(:,isize),gfactor(:,isize),&
	441	longref,epref,tsol,&
	442	nir-1,longir,epav,omegav,gav,&
	443	QREFir(iaer,isize),omegaREFir(iaer,isize) )
[411]	444	! WRITE(,) 'QREFir(',iaer,isize,') = ',QREFir(iaer,isize)
	445	! WRITE(,) 'omegaREFir(',iaer,isize,') = ',&
	446	! omegaREFir(iaer,isize)
[38]	447
	448	! 2.5 Computing <QIR>/Qext(longrefvis)
	449
	450	DO iir=1,nir-1
[411]	451	! WRITE(,) 'QIRsQREFir Channel ',iir,': ',epav(iir)
[38]	452	epav(iir)= epav(iir) * QREFir(iaer,isize) / &
	453	QREFvis(iaer,isize)
	454	ENDDO
[411]	455	! WRITE(,) 'Aerosol number', iaer
	456	! WRITE(,) 'Particle size: ',radiustab(iaer,idomain,isize)
	457	! WRITE(,) 'Rapport Solaire/IR:',&
	458	! QREFvis(iaer,isize) / QREFir(iaer,isize)
[38]	459
	460	! 2.6 Variable assignements
	461	! (variables are declared by yomaer.h)
	462
	463	! Single scattering properties
	464	! in each of the "nir" bands
[1047]	465	! (cf. dimradmars_mod)
[38]	466
	467	! iir=1 : central 15um CO2 bands
	468	QIRsQREF(1,iaer,isize)=epav(2)
	469	omegaIR(1,iaer,isize)=omegav(2)
	470	gIR(1,iaer,isize)=gav(2)
	471
	472	! iir=2 : CO2 band wings
	473	! (same properties than for central part)
	474	QIRsQREF(2,iaer,isize)=epav(2)
	475	omegaIR(2,iaer,isize)=omegav(2)
	476	gIR(2,iaer,isize)=gav(2)
	477
	478	! iir=3 : 9 um band [long1ir - long1co2]
	479	QIRsQREF(3,iaer,isize)=epav(1)
	480	omegaIR(3,iaer,isize)=omegav(1)
	481	gIR(3,iaer,isize)=gav(1)
	482
	483	! iir=4 : Far IR [long2co2 - long2ir]
	484	QIRsQREF(4,iaer,isize)=epav(3)
	485	omegaIR(4,iaer,isize)=omegav(3)
	486	gIR(4,iaer,isize)=gav(3)
	487
	488	! 2.7 Output display
	489
[411]	490	! WRITE(,) 'AEROSOL PROPERTIES: Number ',iaer
	491	! WRITE(,) 'Thermal IR (LW) ---->'
	492	! WRITE(,) 'Particle size: ',radiustab(iaer,idomain,isize)
	493	! WRITE(,) '<Qext>/Qext(longrefvis) ; omega ; g'
	494	! DO iir=1,nir
	495	! WRITE(,) QIRsQREF(iir,iaer,isize),omegaIR(iir,iaer,isize),&
	496	! gIR(iir,iaer,isize)
	497	! ENDDO
	498	! WRITE(,) 'CO2: <Qabs>/Qext(longrefvis) = ',&
	499	! QIRsQREF(1,iaer,isize)*(1-omegaIR(1,iaer,isize))
	500	! WRITE(,) ''
[38]	501
	502	ENDDO ! isize (particle size) -------------------------------------
	503
	504	END SELECT domain
	505	!==================================================================
	506	! 3. Deallocate temporary variables (read in ASCII files)
	507	!==================================================================
	508
	509	DEALLOCATE(wvl) ! wvl
	510	DEALLOCATE(radiusdyn) ! radiusdyn
	511	DEALLOCATE(ep) ! ep
	512	DEALLOCATE(omeg) ! omeg
	513	DEALLOCATE(gfactor) ! g
	514
	515	END DO ! Loop on iaer
	516	END DO ! Loop on idomain
	517	!==================================================================
	518	RETURN
	519	END

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