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sediment_mod.F @ 4190

Last change on this file since 4190 was 2630, checked in by fhourdin, 8 years ago
Importation du modèle d'aérosols de Boucher, Escribano et al.
File size: 10.3 KB

Rev	Line
[2630]	1	c----- This subroutine calculates the sedimentation flux of Tracers
	2	c
	3	SUBROUTINE sediment_mod(t_seri,pplay,zrho,paprs,time_step,RHcl,
	4	. id_coss,id_codu,id_scdu,
	5	. ok_chimeredust,
	6	. sed_ss,sed_dust,sed_dustsco,
	7	. sed_ss3D,sed_dust3D,sed_dustsco3D,tr_seri)
	8	cnhl . xlon,xlat,
	9	c
	10	USE dimphy
	11	USE infotrac
	12	IMPLICIT NONE
	13	c
	14	#include "dimensions.h"
	15	#include "chem.h"
	16	c #include "dimphy.h"
	17	#include "YOMCST.h"
	18	#include "YOECUMF.h"
	19	c
	20	REAL RHcl(klon,klev) ! humidite relative ciel clair
	21	REAL tr_seri(klon, klev,nbtr) !conc of tracers
	22	REAL sed_ss(klon) !sedimentation flux of Sea Salt (g/m2/s)
	23	REAL sed_dust(klon) !sedimentation flux of dust (g/m2/s)
	24	REAL sed_dustsco(klon) !sedimentation flux of scoarse dust (g/m2/s)
	25	REAL sed_ss3D(klon,klev) !sedimentation flux of Sea Salt (g/m2/s)
	26	REAL sed_dust3D(klon,klev) !sedimentation flux of dust (g/m2/s)
	27	REAL sed_dustsco3D(klon,klev) !sedimentation flux of scoarse dust (g/m2/s)
	28	REAL t_seri(klon, klev) !Temperature at mid points of Z (K)
	29	REAL v_dep_ss(klon,klev) ! sed. velocity for SS m/s
	30	REAL v_dep_dust(klon,klev) ! sed. velocity for dust m/s
	31	REAL v_dep_dustsco(klon,klev) ! sed. velocity for dust m/s
	32	REAL pplay(klon, klev) !pressure at mid points of Z (Pa)
	33	REAL zrho(klon, klev) !Density of air at mid points of Z (kg/m3)
	34	REAL paprs(klon, klev+1) !pressure at interface of layers Z (Pa)
	35	REAL time_step !time step (sec)
	36	LOGICAL ok_chimeredust
	37	REAL xlat(klon) ! latitudes pour chaque point
	38	REAL xlon(klon) ! longitudes pour chaque point
	39	INTEGER id_coss,id_codu,id_scdu
	40	c
	41	c------local variables
	42	c
	43	INTEGER i, k, nbre_RH
	44	PARAMETER(nbre_RH=12)
	45	c
	46	REAL lambda, ss_g
	47	REAL mmd_ss !mass median diameter of SS (um)
	48	REAL mmd_dust !mass median diameter of dust (um)
	49	REAL mmd_dustsco !mass median diameter of scoarse dust (um)
	50	REAL rho_ss(nbre_RH),rho_ss1 !density of sea salt (kg/m3)
	51	REAL rho_dust !density of dust(kg/m3)
	52	REAL v_stokes, CC, v_sed, ss_growth_f(nbre_RH)
	53	REAL sed_flux(klon,klev) ! sedimentation flux g/m2/s
	54	REAL air_visco(klon,klev)
	55	REAL zdz(klon,klev) ! layers height (m)
	56	REAL temp ! temperature in degree Celius
	57	c
	58	INTEGER RH_num
	59	REAL RH_MAX, DELTA, rh, RH_tab(nbre_RH)
	60	PARAMETER (RH_MAX=95.)
	61	c
	62	DATA RH_tab/0.,10.,20.,30.,40.,50.,60.,70.,80.,85.,90.,95./
	63	c
	64	c
	65	DATA rho_ss/2160. ,2160. ,2160., 2160, 1451.6, 1367.9,
	66	. 1302.9,1243.2,1182.7, 1149.5,1111.6, 1063.1/
	67	c
	68	DATA ss_growth_f/0.503, 0.503, 0.503, 0.503, 0.724, 0.782,
	69	. 0.838, 0.905, 1.000, 1.072, 1.188, 1.447/
	70	c
	71	c
	72	mmd_ss=12.7 !dia -um at 80% for bin 0.5-20 um but 90% of real mmd
	73	! obsolete mmd_dust=2.8 !micrometer for bin 0.5-20 and 0.5-10 um
	74	! 4tracer SPLA: mmd_dust=11.0 !micrometer for bin 0.5-20 and 0.5-10 um
	75	!3days mmd_dust=3.333464 !micrometer for bin 0.5-20 and 0.5-10 um
	76	!3days mmd_dustsco=12.91315 !micrometer for bin 0.5-20 and 0.5-10 um
	77	!JE20140911 mmd_dust=3.002283 !micrometer for bin 0.5-20 and 0.5-10 um
	78	!JE20140911 mmd_dustsco=13.09771 !micrometer for bin 0.5-20 and 0.5-10 um
	79	!JE20140911 mmd_dust=5.156346 !micrometer for bin 0.5-20 and 0.5-10 um
	80	!JE20140911 mmd_dustsco=15.56554 !micrometer for bin 0.5-20 and 0.5-10 um
	81	IF (ok_chimeredust) THEN
	82	!JE20150212<< : changes in ustar in dustmod changes emission distribution
	83	! mmd_dust=3.761212 !micrometer for bin 0.5-3 and 0.5-10 um
	84	! mmd_dustsco=15.06167 !micrometer for bin 3-20 and 0.5-10 um
	85	!JE20150212>>
	86	!JE20150618: Change in div3 of dustmod changes distribution. now is div3=6
	87	!div=3 mmd_dust=3.983763
	88	!div=3 mmd_dustsco=15.10854
	89	mmd_dust=3.898047
	90	mmd_dustsco=15.06167
	91	ELSE
	92	mmd_dust=11.0 !micrometer for bin 0.5-20 and 0.5-10 um
	93	mmd_dustsco=100. ! absurd value, bin not used in this scheme
	94	ENDIF
	95
	96
	97	rho_dust=2600. !kg/m3
	98	c
	99	c--------- Air viscosity (poise=0.1 kg/m-sec)-----------
	100	c
	101	DO k=1, klev
	102	DO i=1, klon
	103	c
	104	zdz(i,k)=(paprs(i,k)-paprs(i,k+1))/zrho(i,k)/RG
	105	c
	106	temp=t_seri(i,k)-RTT
	107	c
	108	IF (temp.LT.0.) THEN
	109	air_visco(i,k)=(1.718+0.0049temp-1.2e-5temptemp)1.e-4
	110	ELSE
	111	air_visco(i,k)=(1.718+0.0049temp)1.e-4
	112	ENDIF
	113	c
	114	ENDDO
	115	ENDDO
	116	c
	117	c--------- for Sea Salt -------------------
	118	c
	119	c
	120	c
	121	IF(id_coss>0) THEN
	122	DO k=1, klev
	123	DO i=1,klon
	124	c
	125	c---cal. correction factor hygroscopic growth of aerosols
	126	c
	127	rh=MIN(RHcl(i,k)*100.,RH_MAX)
	128	RH_num = INT( rh/10. + 1.)
	129	IF (rh.gt.85.) RH_num=10
	130	IF (rh.gt.90.) RH_num=11
	131	DELTA=(rh-RH_tab(RH_num))/(RH_tab(RH_num+1)-RH_tab(RH_num))
	132	c
	133	ss_g=ss_growth_f(rh_num) +
	134	. DELTA*(ss_growth_f(RH_num+1)-ss_growth_f(RH_num))
	135
	136	rho_ss1=rho_ss(rh_num) +
	137	. DELTA*(rho_ss(RH_num+1)-rho_ss(RH_num))
	138	c
	139	v_stokes=RG(rho_ss1-zrho(i,k)) !m/sec
	140	. (mmd_ssss_g)(mmd_ssss_g)
	141	. 1.e-12/(18.0*air_visco(i,k)/10.)
	142	c
	143	lambda=6.61.e-8(103125/pplay(i,k))*(t_seri(i,k)/293.15)
	144	c
	145	CC=1.0+1.257lambda/(mmd_ssss_g)/1.e6 ! C-correction factor
	146	c
	147	v_sed=v_stokes*CC ! m/sec !orig
	148	c
	149	c---------check for v_sed*dt<zdz
	150	c
	151	IF (v_sed*time_step.GT.zdz(i,k)) THEN
	152	v_sed=zdz(i,k)/time_step
	153	ENDIF
	154	c
	155	v_dep_ss(i,k)= v_sed
	156	sed_flux(i,k)= tr_seri(i,k,id_coss)v_sed !g/cm3m/sec
	157	!sed_ss3D(i,k)= -sed_flux(i,k)/zdz(i,k) !g/cm3*sec !!!!!!!
	158	! conc_sed_ss3D(i,k)=sed_flux(i,k)1.e6 !g/m3sec !!!!!!!
	159	c
	160	ENDDO !klon
	161	ENDDO !klev
	162	c
	163	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
	164	sed_ss3D(:,:)=0.0 ! initialisation
	165
	166	DO k=1, klev
	167	DO i=1, klon
	168	sed_ss3D(i,k)=sed_ss3D(i,k)-
	169	. sed_flux(i,k)/zdz(i,k) !!!!!!!!!!!!!!!!!!!!!!
	170	ENDDO !klon
	171	ENDDO !klev
	172	c
	173	DO k=1, klev-1
	174	DO i=1, klon
	175	sed_ss3D(i,k)=sed_ss3D(i,k)+
	176	. sed_flux(i,k+1)/zdz(i,k) !!!!!!!!
	177
	178	ENDDO !klon
	179	ENDDO !klev
	180
	181	DO k = 1, klev
	182	DO i = 1, klon
	183	tr_seri(i,k,id_coss)=tr_seri(i,k,id_coss)+
	184	s sed_ss3D(i,k)*time_step
	185	ENDDO
	186	ENDDO
	187
	188	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
	189	c
	190	DO i=1, klon
	191	sed_ss(i)=sed_flux(i,1)1.e61.e3 !--unit mg/m2/s
	192	ENDDO !klon
	193	ELSE
	194	DO i=1, klon
	195	sed_ss(i)=0.
	196	ENDDO
	197	ENDIF
	198	c
	199	c
	200
	201	c--------- For dust ------------------
	202	c
	203	c
	204	IF(id_codu>0) THEN
	205	DO k=1, klev
	206	DO i=1,klon
	207	c
	208	v_stokes=RG(rho_dust-zrho(i,k)) !m/sec
	209	. mmd_dustmmd_dust
	210	. 1.e-12/(18.0*air_visco(i,k)/10.)
	211	c
	212	lambda=6.61.e-8(103125/pplay(i,k))*(t_seri(i,k)/293.15)
	213	CC=1.0+1.257*lambda/(mmd_dust)/1.e6 !dimensionless
	214	v_sed=v_stokes*CC !m/sec
	215	c
	216	c---------check for v_sed*dt<zdz
	217	c
	218	IF (v_sed*time_step.GT.zdz(i,k)) THEN
	219	v_sed=zdz(i,k)/time_step
	220	ENDIF
	221
	222	c
	223	v_dep_dust(i,k)= v_sed
	224	sed_flux(i,k) = tr_seri(i,k,id_codu)*v_sed !g/cm3.m/sec
	225	!sed_dust3D(i,k)= -sed_flux(i,k)/zdz(i,k) !g/cm3*sec !!!!!!!
	226	c
	227	ENDDO !klon
	228	ENDDO !klev
	229
	230	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
	231	sed_dust3D(:,:)=0.0 ! initialisation
	232
	233	DO k=1, klev
	234	DO i=1, klon
	235	sed_dust3D(i,k)=sed_dust3D(i,k)-
	236	. sed_flux(i,k)/zdz(i,k)
	237	ENDDO !klon
	238	ENDDO !klev
	239
	240	c
	241	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
	242
	243	DO k=1, klev-1
	244	DO i=1, klon
	245	sed_dust3D(i,k)=sed_dust3D(i,k) +
	246	. sed_flux(i,k+1)/zdz(i,k)
	247	ENDDO !klon
	248	ENDDO !klev
	249	c
	250	DO k = 1, klev
	251	DO i = 1, klon
	252	tr_seri(i,k,id_codu)=tr_seri(i,k,id_codu)+
	253	s sed_dust3D(i,k)*time_step
	254	ENDDO
	255	ENDDO
	256
	257
	258	DO i=1, klon
	259	sed_dust(i)=sed_flux(i,1)1.e61.e3 !--unit mg/m2/s
	260	ENDDO !klon
	261	ELSE
	262	DO i=1, klon
	263	sed_dust(i)=0.
	264	ENDDO
	265	ENDIF
	266	c
	267
	268
	269	c--------- For scoarse dust ------------------
	270	c
	271	c
	272	IF(id_scdu>0) THEN
	273	DO k=1, klev
	274	DO i=1,klon
	275	c
	276	v_stokes=RG(rho_dust-zrho(i,k)) !m/sec
	277	. mmd_dustscommd_dustsco
	278	. 1.e-12/(18.0*air_visco(i,k)/10.)
	279	c
	280	lambda=6.61.e-8(103125/pplay(i,k))*(t_seri(i,k)/293.15)
	281	CC=1.0+1.257*lambda/(mmd_dustsco)/1.e6 !dimensionless
	282	v_sed=v_stokes*CC !m/sec
	283	c
	284	c---------check for v_sed*dt<zdz
	285
	286
	287	IF (v_sed*time_step.GT.zdz(i,k)) THEN
	288	v_sed=zdz(i,k)/time_step
	289	ENDIF
	290
	291	c
	292	v_dep_dustsco(i,k)= v_sed
	293	sed_flux(i,k) = tr_seri(i,k,id_scdu)*v_sed !g/cm3.m/sec
	294	!sed_dustsco3D(i,k)= -sed_flux(i,k)/zdz(i,k) !g/cm3*sec !!!!!!!
	295	c
	296	ENDDO !klon
	297	ENDDO !klev
	298
	299	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
	300	sed_dustsco3D(:,:)=0.0 ! initialisation
	301
	302	DO k=1, klev
	303	DO i=1, klon
	304	sed_dustsco3D(i,k)=sed_dustsco3D(i,k)-
	305	. sed_flux(i,k)/zdz(i,k)
	306	ENDDO !klon
	307	ENDDO !klev
	308	c
	309	DO k=1, klev-1
	310	DO i=1, klon
	311	sed_dustsco3D(i,k)=sed_dustsco3D(i,k) +
	312	. sed_flux(i,k+1)/zdz(i,k)
	313	ENDDO !klon
	314	ENDDO !klev
	315
	316	DO k = 1, klev
	317	DO i = 1, klon
	318	tr_seri(i,k,id_scdu)=tr_seri(i,k,id_scdu)+
	319	s sed_dustsco3D(i,k)*time_step
	320	ENDDO
	321	ENDDO
	322	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
	323
	324
	325	c
	326	DO i=1, klon
	327	sed_dustsco(i)=sed_flux(i,1)1.e61.e3 !--unit mg/m2/s
	328	ENDDO !klon
	329	ELSE
	330	DO i=1, klon
	331	sed_dustsco(i)=0.
	332	ENDDO
	333	ENDIF
	334	c
	335
	336
	337
	338
	339	c
	340	RETURN
	341	END

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