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trcsbc.F90 @ 10055

Last change on this file since 10055 was 7019, checked in by deazer, 8 years ago
Cleared svn keywords
File size: 10.4 KB

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[941]	1	MODULE trcsbc
	2	!!==============================================================================
	3	!! * MODULE trcsbc *
	4	!! Ocean passive tracers: surface boundary condition
[1175]	5	!!======================================================================
[2528]	6	!! History : 8.2 ! 1998-10 (G. Madec, G. Roullet, M. Imbard) Original code
	7	!! 8.2 ! 2001-02 (D. Ludicone) sea ice and free surface
	8	!! 8.5 ! 2002-06 (G. Madec) F90: Free form and module
	9	!! 9.0 ! 2004-03 (C. Ethe) adapted for passive tracers
	10	!! ! 2006-08 (C. Deltel) Diagnose ML trends for passive tracers
[941]	11	!!==============================================================================
	12	#if defined key_top
	13	!!----------------------------------------------------------------------
	14	!! 'key_top' TOP models
	15	!!----------------------------------------------------------------------
	16	!! trc_sbc : update the tracer trend at ocean surface
	17	!!----------------------------------------------------------------------
[2715]	18	USE oce_trc ! ocean dynamics and active tracers variables
	19	USE trc ! ocean passive tracers variables
	20	USE prtctl_trc ! Print control for debbuging
[5385]	21	USE iom
[4990]	22	USE trd_oce
[2528]	23	USE trdtra
[941]	24
	25	IMPLICIT NONE
	26	PRIVATE
	27
[2715]	28	PUBLIC trc_sbc ! routine called by step.F90
[941]	29
	30	!! * Substitutions
[5836]	31	# include "vectopt_loop_substitute.h90"
[941]	32	!!----------------------------------------------------------------------
[2528]	33	!! NEMO/TOP 3.3 , NEMO Consortium (2010)
[7019]	34	!! $Id$
[2715]	35	!! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
[941]	36	!!----------------------------------------------------------------------
	37	CONTAINS
	38
	39	SUBROUTINE trc_sbc ( kt )
	40	!!----------------------------------------------------------------------
	41	!! * ROUTINE trc_sbc *
	42	!!
	43	!! ** Purpose : Compute the tracer surface boundary condition trend of
	44	!! (concentration/dilution effect) and add it to the general
	45	!! trend of tracer equations.
	46	!!
	47	!! ** Method :
	48	!! * concentration/dilution effect:
	49	!! The surface freshwater flux modify the ocean volume
	50	!! and thus the concentration of a tracer as :
	51	!! tra = tra + emp * trn / e3t for k=1
	52	!! where emp, the surface freshwater budget (evaporation minus
[3680]	53	!! precipitation ) given in kg/m2/s is divided
[1739]	54	!! by 1035 kg/m3 (density of ocean water) to obtain m/s.
[941]	55	!!
	56	!! ** Action : - Update the 1st level of tra with the trend associated
	57	!! with the tracer surface boundary condition
	58	!!
	59	!!----------------------------------------------------------------------
[2715]	60	!
[941]	61	INTEGER, INTENT( in ) :: kt ! ocean time-step index
[2715]	62	!
[5385]	63	INTEGER :: ji, jj, jn ! dummy loop indices
	64	REAL(wp) :: zse3t, zrtrn, zratio, zfact ! temporary scalars
	65	REAL(wp) :: zswitch, zftra, zcd, zdtra, ztfx, ztra ! temporary scalars
[941]	66	CHARACTER (len=22) :: charout
[3625]	67	REAL(wp), POINTER, DIMENSION(:,: ) :: zsfx
[3294]	68	REAL(wp), POINTER, DIMENSION(:,:,:) :: ztrtrd
[5385]	69
[3294]	70	!!---------------------------------------------------------------------
	71	!
	72	IF( nn_timing == 1 ) CALL timing_start('trc_sbc')
	73	!
	74	! Allocate temporary workspace
[6140]	75	CALL wrk_alloc( jpi,jpj, zsfx )
	76	IF( l_trdtrc ) CALL wrk_alloc( jpi,jpj,jpk, ztrtrd )
[5385]	77	!
	78	zrtrn = 1.e-15_wp
[941]	79
[5385]	80	SELECT CASE( nn_ice_embd ) ! levitating or embedded sea-ice option
	81	CASE( 0 ) ; zswitch = 1 ! (0) standard levitating sea-ice : salt exchange only
	82	CASE( 1, 2 ) ; zswitch = 0 ! (1) levitating sea-ice: salt and volume exchange but no pressure effect
[5836]	83	! ! (2) embedded sea-ice : salt and volume fluxes and pressure
[5385]	84	END SELECT
	85
	86	IF( ln_top_euler) THEN
[6140]	87	r2dt = rdttrc ! = rdttrc (use Euler time stepping)
[5385]	88	ELSE
	89	IF( neuler == 0 .AND. kt == nittrc000 ) THEN ! at nittrc000
[6140]	90	r2dt = rdttrc ! = rdttrc (restarting with Euler time stepping)
[5385]	91	ELSEIF( kt <= nittrc000 + nn_dttrc ) THEN ! at nittrc000 or nittrc000+1
[6140]	92	r2dt = 2. * rdttrc ! = 2 rdttrc (leapfrog)
[5385]	93	ENDIF
	94	ENDIF
	95
	96
[3294]	97	IF( kt == nittrc000 ) THEN
[941]	98	IF(lwp) WRITE(numout,*)
	99	IF(lwp) WRITE(numout,*) 'trc_sbc : Passive tracers surface boundary condition'
	100	IF(lwp) WRITE(numout,*) '~~~~~~~ '
[5385]	101
	102	IF( ln_rsttr .AND. & ! Restart: read in restart file
	103	iom_varid( numrtr, 'sbc_'//TRIM(ctrcnm(1))//'_b', ldstop = .FALSE. ) > 0 ) THEN
	104	IF(lwp) WRITE(numout,*) ' nittrc000-nn_dttrc surface tracer content forcing fields red in the restart file'
	105	zfact = 0.5_wp
	106	DO jn = 1, jptra
	107	CALL iom_get( numrtr, jpdom_autoglo, 'sbc_'//TRIM(ctrcnm(jn))//'_b', sbc_trc_b(:,:,jn) ) ! before tracer content sbc
	108	END DO
	109	ELSE ! No restart or restart not found: Euler forward time stepping
	110	zfact = 1._wp
	111	sbc_trc_b(:,:,:) = 0._wp
	112	ENDIF
	113	ELSE ! Swap of forcing fields
	114	IF( ln_top_euler ) THEN
	115	zfact = 1._wp
	116	sbc_trc_b(:,:,:) = 0._wp
	117	ELSE
	118	zfact = 0.5_wp
	119	sbc_trc_b(:,:,:) = sbc_trc(:,:,:)
	120	ENDIF
	121	!
[941]	122	ENDIF
	123
[3680]	124	! Coupling online : river runoff is added to the horizontal divergence (hdivn) in the subroutine sbc_rnf_div
	125	! one only consider the concentration/dilution effect due to evaporation minus precipitation + freezing/melting of sea-ice
[3719]	126	! Coupling offline : runoff are in emp which contains E-P-R
	127	!
[6140]	128	IF( .NOT. lk_offline .AND. .NOT.ln_linssh ) THEN ! online coupling with vvl
[3719]	129	zsfx(:,:) = 0._wp
	130	ELSE ! online coupling free surface or offline with free surface
[3681]	131	zsfx(:,:) = emp(:,:)
[3680]	132	ENDIF
[2528]	133
[941]	134	! 0. initialization
	135	DO jn = 1, jptra
[2528]	136	!
[6140]	137	IF( l_trdtrc ) ztrtrd(:,:,:) = tra(:,:,:,jn) ! save trends
[5385]	138
	139	IF ( nn_ice_tr == -1 ) THEN ! No tracers in sea ice (null concentration in sea ice)
	140
	141	DO jj = 2, jpj
	142	DO ji = fs_2, fs_jpim1 ! vector opt.
	143	sbc_trc(ji,jj,jn) = zsfx(ji,jj) * r1_rau0 * trn(ji,jj,1,jn)
	144	END DO
	145	END DO
	146
	147	ELSE
	148
	149	DO jj = 2, jpj
	150	DO ji = fs_2, fs_jpim1 ! vector opt.
[6140]	151	zse3t = 1. / e3t_n(ji,jj,1)
[5385]	152	! tracer flux at the ice/ocean interface (tracer/m2/s)
	153	zftra = - trc_i(ji,jj,jn) * fmmflx(ji,jj) ! uptake of tracer in the sea ice
	154	zcd = trc_o(ji,jj,jn) * fmmflx(ji,jj) ! concentration dilution due to freezing-melting,
	155	! only used in the levitating sea ice case
	156	! tracer flux only : add concentration dilution term in net tracer flux, no F-M in volume flux
	157	! tracer and mass fluxes : no concentration dilution term in net tracer flux, F-M term in volume flux
	158	ztfx = zftra + zswitch * zcd ! net tracer flux (+C/D if no ice/ocean mass exchange)
	159
	160	zdtra = r1_rau0 * ( ztfx + zsfx(ji,jj) * trn(ji,jj,1,jn) )
	161	IF ( zdtra < 0. ) THEN
	162	zratio = -zdtra * zse3t * r2dt / ( trn(ji,jj,1,jn) + zrtrn )
	163	zdtra = MIN(1.0, zratio) * zdtra ! avoid negative concentrations to arise
	164	ENDIF
	165	sbc_trc(ji,jj,jn) = zdtra
	166	END DO
	167	END DO
	168	ENDIF
[6309]	169	!
	170	CALL lbc_lnk( sbc_trc(:,:,jn), 'T', 1. )
[5385]	171	! Concentration dilution effect on tracers due to evaporation & precipitation
[941]	172	DO jj = 2, jpj
	173	DO ji = fs_2, fs_jpim1 ! vector opt.
[6140]	174	zse3t = zfact / e3t_n(ji,jj,1)
[5385]	175	tra(ji,jj,1,jn) = tra(ji,jj,1,jn) + ( sbc_trc_b(ji,jj,jn) + sbc_trc(ji,jj,jn) ) * zse3t
[941]	176	END DO
	177	END DO
[5385]	178	!
[1175]	179	IF( l_trdtrc ) THEN
	180	ztrtrd(:,:,:) = tra(:,:,:,jn) - ztrtrd(:,:,:)
[4990]	181	CALL trd_tra( kt, 'TRC', jn, jptra_nsr, ztrtrd )
[1175]	182	END IF
	183	! ! ===========
	184	END DO ! tracer loop
	185	! ! ===========
[5385]	186
	187	! Write in the tracer restar file
	188	! *******************************
	189	IF( lrst_trc ) THEN
	190	IF(lwp) WRITE(numout,*)
	191	IF(lwp) WRITE(numout,*) 'sbc : ocean surface tracer content forcing fields written in tracer restart file ', &
	192	& 'at it= ', kt,' date= ', ndastp
	193	IF(lwp) WRITE(numout,*) '~~~~'
	194	DO jn = 1, jptra
	195	CALL iom_rstput( kt, nitrst, numrtw, 'sbc_'//TRIM(ctrcnm(jn))//'_b', sbc_trc(:,:,jn) )
	196	END DO
	197	ENDIF
	198	!
[2528]	199	IF( ln_ctl ) THEN
	200	WRITE(charout, FMT="('sbc ')") ; CALL prt_ctl_trc_info(charout)
	201	CALL prt_ctl_trc( tab4d=tra, mask=tmask, clinfo=ctrcnm, clinfo2='trd' )
[941]	202	ENDIF
[6140]	203	CALL wrk_dealloc( jpi,jpj, zsfx )
	204	IF( l_trdtrc ) CALL wrk_dealloc( jpi,jpj,jpk, ztrtrd )
[3294]	205	!
	206	IF( nn_timing == 1 ) CALL timing_stop('trc_sbc')
	207	!
[941]	208	END SUBROUTINE trc_sbc
	209
	210	#else
	211	!!----------------------------------------------------------------------
	212	!! Dummy module : NO passive tracer
	213	!!----------------------------------------------------------------------
	214	CONTAINS
	215	SUBROUTINE trc_sbc (kt) ! Empty routine
	216	INTEGER, INTENT(in) :: kt
	217	WRITE(,) 'trc_sbc: You should not have seen this print! error?', kt
	218	END SUBROUTINE trc_sbc
	219	#endif
	220
	221	!!======================================================================
	222	END MODULE trcsbc

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source: branches/UKMO/dev_r6393_CO6_package_trunk/NEMOGCM/NEMO/TOP_SRC/TRP/trcsbc.F90 @ 10055

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