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traadv.F90 in NEMO/trunk/src/OCE/TRA – NEMO

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source: NEMO/trunk/src/OCE/TRA/traadv.F90 @ 11993

Last change on this file since 11993 was 11993, checked in by cetlod, 4 years ago
trunk : undo bad commit. Oups
Property svn:keywords set to `Id`
File size: 15.5 KB

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[458]	1	MODULE traadv
	2	!!==============================================================================
	3	!! * MODULE traadv *
	4	!! Ocean active tracers: advection trend
	5	!!==============================================================================
[2528]	6	!! History : 2.0 ! 2005-11 (G. Madec) Original code
	7	!! 3.3 ! 2010-09 (C. Ethe, G. Madec) merge TRC-TRA + switch from velocity to transport
[5836]	8	!! 3.6 ! 2011-06 (G. Madec) Addition of Mixed Layer Eddy parameterisation
	9	!! 3.7 ! 2014-05 (G. Madec) Add 2nd/4th order cases for CEN and FCT schemes
	10	!! - ! 2014-12 (G. Madec) suppression of cross land advection option
[7646]	11	!! 3.6 ! 2015-06 (E. Clementi) Addition of Stokes drift in case of wave coupling
[458]	12	!!----------------------------------------------------------------------
[503]	13
	14	!!----------------------------------------------------------------------
[5836]	15	!! tra_adv : compute ocean tracer advection trend
[9019]	16	!! tra_adv_init : control the different options of advection scheme
[458]	17	!!----------------------------------------------------------------------
[5836]	18	USE oce ! ocean dynamics and active tracers
	19	USE dom_oce ! ocean space and time domain
	20	USE domvvl ! variable vertical scale factors
[9019]	21	USE sbcwave ! wave module
	22	USE sbc_oce ! surface boundary condition: ocean
[9531]	23	USE traadv_cen ! centered scheme (tra_adv_cen routine)
	24	USE traadv_fct ! FCT scheme (tra_adv_fct routine)
	25	USE traadv_mus ! MUSCL scheme (tra_adv_mus routine)
	26	USE traadv_ubs ! UBS scheme (tra_adv_ubs routine)
	27	USE traadv_qck ! QUICKEST scheme (tra_adv_qck routine)
	28	USE tramle ! Mixed Layer Eddy transport (tra_mle_trp routine)
	29	USE ldftra ! Eddy Induced transport (ldf_eiv_trp routine)
[5836]	30	USE ldfslp ! Lateral diffusion: slopes of neutral surfaces
[9019]	31	USE trd_oce ! trends: ocean variables
	32	USE trdtra ! trends manager: tracers
	33	USE diaptr ! Poleward heat transport
[5147]	34	!
[5836]	35	USE in_out_manager ! I/O manager
	36	USE iom ! I/O module
	37	USE prtctl ! Print control
	38	USE lib_mpp ! MPP library
	39	USE timing ! Timing
	40
[458]	41	IMPLICIT NONE
	42	PRIVATE
	43
[9019]	44	PUBLIC tra_adv ! called by step.F90
	45	PUBLIC tra_adv_init ! called by nemogcm.F90
[2715]	46
[5836]	47	! !!* Namelist namtra_adv *
[9526]	48	LOGICAL :: ln_traadv_OFF ! no advection on T and S
[5836]	49	LOGICAL :: ln_traadv_cen ! centered scheme flag
	50	INTEGER :: nn_cen_h, nn_cen_v ! =2/4 : horizontal and vertical choices of the order of CEN scheme
	51	LOGICAL :: ln_traadv_fct ! FCT scheme flag
	52	INTEGER :: nn_fct_h, nn_fct_v ! =2/4 : horizontal and vertical choices of the order of FCT scheme
	53	LOGICAL :: ln_traadv_mus ! MUSCL scheme flag
	54	LOGICAL :: ln_mus_ups ! use upstream scheme in vivcinity of river mouths
	55	LOGICAL :: ln_traadv_ubs ! UBS scheme flag
	56	INTEGER :: nn_ubs_v ! =2/4 : vertical choice of the order of UBS scheme
	57	LOGICAL :: ln_traadv_qck ! QUICKEST scheme flag
[458]	58
[9019]	59	INTEGER :: nadv ! choice of the type of advection scheme
	60	! ! associated indices:
[5836]	61	INTEGER, PARAMETER :: np_NO_adv = 0 ! no T-S advection
	62	INTEGER, PARAMETER :: np_CEN = 1 ! 2nd/4th order centered scheme
	63	INTEGER, PARAMETER :: np_FCT = 2 ! 2nd/4th order Flux Corrected Transport scheme
[9019]	64	INTEGER, PARAMETER :: np_MUS = 3 ! MUSCL scheme
	65	INTEGER, PARAMETER :: np_UBS = 4 ! 3rd order Upstream Biased Scheme
	66	INTEGER, PARAMETER :: np_QCK = 5 ! QUICK scheme
[5836]	67
[458]	68	!! * Substitutions
[503]	69	# include "vectopt_loop_substitute.h90"
[458]	70	!!----------------------------------------------------------------------
[9598]	71	!! NEMO/OCE 4.0 , NEMO Consortium (2018)
[2528]	72	!! $Id$
[10068]	73	!! Software governed by the CeCILL license (see ./LICENSE)
[458]	74	!!----------------------------------------------------------------------
	75	CONTAINS
	76
	77	SUBROUTINE tra_adv( kt )
	78	!!----------------------------------------------------------------------
	79	!! * ROUTINE tra_adv *
	80	!!
	81	!! ** Purpose : compute the ocean tracer advection trend.
	82	!!
[503]	83	!! ** Method : - Update (ua,va) with the advection term following nadv
[458]	84	!!----------------------------------------------------------------------
[9019]	85	INTEGER, INTENT(in) :: kt ! ocean time-step index
[2528]	86	!
[7753]	87	INTEGER :: jk ! dummy loop index
[9019]	88	REAL(wp), DIMENSION(jpi,jpj,jpk) :: zun, zvn, zwn ! 3D workspace
	89	REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: ztrdt, ztrds
[458]	90	!!----------------------------------------------------------------------
[2715]	91	!
[9019]	92	IF( ln_timing ) CALL timing_start('tra_adv')
[3294]	93	!
[2528]	94	! ! set time step
[9531]	95	IF( neuler == 0 .AND. kt == nit000 ) THEN ; r2dt = rdt ! at nit000 (Euler)
	96	ELSEIF( kt <= nit000 + 1 ) THEN ; r2dt = 2._wp * rdt ! at nit000 or nit000+1 (Leapfrog)
[458]	97	ENDIF
[2528]	98	!
[5836]	99	! !== effective transport ==!
[9019]	100	zun(:,:,jpk) = 0._wp
	101	zvn(:,:,jpk) = 0._wp
	102	zwn(:,:,jpk) = 0._wp
[7646]	103	IF( ln_wave .AND. ln_sdw ) THEN
	104	DO jk = 1, jpkm1 ! eulerian transport + Stokes Drift
[7753]	105	zun(:,:,jk) = e2u (:,:) * e3u_n(:,:,jk) * ( un(:,:,jk) + usd(:,:,jk) )
	106	zvn(:,:,jk) = e1v (:,:) * e3v_n(:,:,jk) * ( vn(:,:,jk) + vsd(:,:,jk) )
	107	zwn(:,:,jk) = e1e2t(:,:) * ( wn(:,:,jk) + wsd(:,:,jk) )
[7646]	108	END DO
	109	ELSE
	110	DO jk = 1, jpkm1
[7753]	111	zun(:,:,jk) = e2u (:,:) * e3u_n(:,:,jk) * un(:,:,jk) ! eulerian transport only
	112	zvn(:,:,jk) = e1v (:,:) * e3v_n(:,:,jk) * vn(:,:,jk)
	113	zwn(:,:,jk) = e1e2t(:,:) * wn(:,:,jk)
[7646]	114	END DO
	115	ENDIF
[4292]	116	!
[5836]	117	IF( ln_vvl_ztilde .OR. ln_vvl_layer ) THEN ! add z-tilde and/or vvl corrections
[7753]	118	zun(:,:,:) = zun(:,:,:) + un_td(:,:,:)
	119	zvn(:,:,:) = zvn(:,:,:) + vn_td(:,:,:)
[4292]	120	ENDIF
	121	!
[7753]	122	zun(:,:,jpk) = 0._wp ! no transport trough the bottom
	123	zvn(:,:,jpk) = 0._wp
	124	zwn(:,:,jpk) = 0._wp
[2528]	125	!
[5836]	126	IF( ln_ldfeiv .AND. .NOT. ln_traldf_triad ) &
	127	& CALL ldf_eiv_trp( kt, nit000, zun, zvn, zwn, 'TRA' ) ! add the eiv transport (if necessary)
[2528]	128	!
[9531]	129	IF( ln_mle ) CALL tra_mle_trp( kt, nit000, zun, zvn, zwn, 'TRA' ) ! add the mle transport (if necessary)
[5147]	130	!
[5836]	131	CALL iom_put( "uocetr_eff", zun ) ! output effective transport
[2561]	132	CALL iom_put( "vocetr_eff", zvn )
	133	CALL iom_put( "wocetr_eff", zwn )
[5147]	134	!
[5836]	135	!!gm ???
[11993]	136	IF( ln_diaptr ) CALL dia_ptr( zvn ) ! diagnose the effective MSF
[5836]	137	!!gm ???
[5147]	138	!
[7646]	139	IF( l_trdtra ) THEN !* Save ta and sa trends
[9019]	140	ALLOCATE( ztrdt(jpi,jpj,jpk), ztrds(jpi,jpj,jpk) )
[7753]	141	ztrdt(:,:,:) = tsa(:,:,:,jp_tem)
	142	ztrds(:,:,:) = tsa(:,:,:,jp_sal)
[7646]	143	ENDIF
	144	!
[5836]	145	SELECT CASE ( nadv ) !== compute advection trend and add it to general trend ==!
[503]	146	!
[9019]	147	CASE ( np_CEN ) ! Centered scheme : 2nd / 4th order
[5836]	148	CALL tra_adv_cen ( kt, nit000, 'TRA', zun, zvn, zwn , tsn, tsa, jpts, nn_cen_h, nn_cen_v )
[9019]	149	CASE ( np_FCT ) ! FCT scheme : 2nd / 4th order
[6140]	150	CALL tra_adv_fct ( kt, nit000, 'TRA', r2dt, zun, zvn, zwn, tsb, tsn, tsa, jpts, nn_fct_h, nn_fct_v )
[9019]	151	CASE ( np_MUS ) ! MUSCL
[6140]	152	CALL tra_adv_mus ( kt, nit000, 'TRA', r2dt, zun, zvn, zwn, tsb, tsa, jpts , ln_mus_ups )
[9019]	153	CASE ( np_UBS ) ! UBS
[6140]	154	CALL tra_adv_ubs ( kt, nit000, 'TRA', r2dt, zun, zvn, zwn, tsb, tsn, tsa, jpts , nn_ubs_v )
[9019]	155	CASE ( np_QCK ) ! QUICKEST
[6140]	156	CALL tra_adv_qck ( kt, nit000, 'TRA', r2dt, zun, zvn, zwn, tsb, tsn, tsa, jpts )
[5836]	157	!
[458]	158	END SELECT
[2528]	159	!
[7646]	160	IF( l_trdtra ) THEN ! save the advective trends for further diagnostics
	161	DO jk = 1, jpkm1
[7753]	162	ztrdt(:,:,jk) = tsa(:,:,jk,jp_tem) - ztrdt(:,:,jk)
	163	ztrds(:,:,jk) = tsa(:,:,jk,jp_sal) - ztrds(:,:,jk)
[7646]	164	END DO
	165	CALL trd_tra( kt, 'TRA', jp_tem, jptra_totad, ztrdt )
	166	CALL trd_tra( kt, 'TRA', jp_sal, jptra_totad, ztrds )
[9019]	167	DEALLOCATE( ztrdt, ztrds )
[7646]	168	ENDIF
	169	! ! print mean trends (used for debugging)
[2528]	170	IF(ln_ctl) CALL prt_ctl( tab3d_1=tsa(:,:,:,jp_tem), clinfo1=' adv - Ta: ', mask1=tmask, &
	171	& tab3d_2=tsa(:,:,:,jp_sal), clinfo2= ' Sa: ', mask2=tmask, clinfo3='tra' )
[503]	172	!
[9019]	173	IF( ln_timing ) CALL timing_stop( 'tra_adv' )
[2715]	174	!
[458]	175	END SUBROUTINE tra_adv
	176
	177
[2528]	178	SUBROUTINE tra_adv_init
[458]	179	!!---------------------------------------------------------------------
[2528]	180	!! * ROUTINE tra_adv_init *
[458]	181	!!
[503]	182	!! ** Purpose : Control the consistency between namelist options for
	183	!! tracer advection schemes and set nadv
[458]	184	!!----------------------------------------------------------------------
[5836]	185	INTEGER :: ioptio, ios ! Local integers
	186	!
[9526]	187	NAMELIST/namtra_adv/ ln_traadv_OFF, & ! No advection
[9019]	188	& ln_traadv_cen , nn_cen_h, nn_cen_v, & ! CEN
	189	& ln_traadv_fct , nn_fct_h, nn_fct_v, & ! FCT
	190	& ln_traadv_mus , ln_mus_ups, & ! MUSCL
	191	& ln_traadv_ubs , nn_ubs_v, & ! UBS
	192	& ln_traadv_qck ! QCK
[458]	193	!!----------------------------------------------------------------------
[5836]	194	!
	195	! !== Namelist ==!
	196	REWIND( numnam_ref ) ! Namelist namtra_adv in reference namelist : Tracer advection scheme
[4147]	197	READ ( numnam_ref, namtra_adv, IOSTAT = ios, ERR = 901)
[11536]	198	901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namtra_adv in reference namelist' )
[5836]	199	!
	200	REWIND( numnam_cfg ) ! Namelist namtra_adv in configuration namelist : Tracer advection scheme
[4147]	201	READ ( numnam_cfg, namtra_adv, IOSTAT = ios, ERR = 902 )
[11536]	202	902 IF( ios > 0 ) CALL ctl_nam ( ios , 'namtra_adv in configuration namelist' )
[6140]	203	IF(lwm) WRITE( numond, namtra_adv )
	204	!
[5836]	205	IF(lwp) THEN ! Namelist print
[458]	206	WRITE(numout,*)
[2528]	207	WRITE(numout,*) 'tra_adv_init : choice/control of the tracer advection scheme'
[9019]	208	WRITE(numout,*) '~~~~~~~~~~~~'
[1601]	209	WRITE(numout,*) ' Namelist namtra_adv : chose a advection scheme for tracers'
[9526]	210	WRITE(numout,*) ' No advection on T & S ln_traadv_OFF = ', ln_traadv_OFF
[5836]	211	WRITE(numout,*) ' centered scheme ln_traadv_cen = ', ln_traadv_cen
	212	WRITE(numout,*) ' horizontal 2nd/4th order nn_cen_h = ', nn_fct_h
	213	WRITE(numout,*) ' vertical 2nd/4th order nn_cen_v = ', nn_fct_v
	214	WRITE(numout,*) ' Flux Corrected Transport scheme ln_traadv_fct = ', ln_traadv_fct
	215	WRITE(numout,*) ' horizontal 2nd/4th order nn_fct_h = ', nn_fct_h
	216	WRITE(numout,*) ' vertical 2nd/4th order nn_fct_v = ', nn_fct_v
	217	WRITE(numout,*) ' MUSCL scheme ln_traadv_mus = ', ln_traadv_mus
	218	WRITE(numout,*) ' + upstream scheme near river mouths ln_mus_ups = ', ln_mus_ups
	219	WRITE(numout,*) ' UBS scheme ln_traadv_ubs = ', ln_traadv_ubs
	220	WRITE(numout,*) ' vertical 2nd/4th order nn_ubs_v = ', nn_ubs_v
	221	WRITE(numout,*) ' QUICKEST scheme ln_traadv_qck = ', ln_traadv_qck
[2528]	222	ENDIF
[6140]	223	!
[9019]	224	! !== Parameter control & set nadv ==!
	225	ioptio = 0
[9526]	226	IF( ln_traadv_OFF ) THEN ; ioptio = ioptio + 1 ; nadv = np_NO_adv ; ENDIF
	227	IF( ln_traadv_cen ) THEN ; ioptio = ioptio + 1 ; nadv = np_CEN ; ENDIF
	228	IF( ln_traadv_fct ) THEN ; ioptio = ioptio + 1 ; nadv = np_FCT ; ENDIF
	229	IF( ln_traadv_mus ) THEN ; ioptio = ioptio + 1 ; nadv = np_MUS ; ENDIF
	230	IF( ln_traadv_ubs ) THEN ; ioptio = ioptio + 1 ; nadv = np_UBS ; ENDIF
	231	IF( ln_traadv_qck ) THEN ; ioptio = ioptio + 1 ; nadv = np_QCK ; ENDIF
[5836]	232	!
[9019]	233	IF( ioptio /= 1 ) CALL ctl_stop( 'tra_adv_init: Choose ONE advection option in namelist namtra_adv' )
[5836]	234	!
	235	IF( ln_traadv_cen .AND. ( nn_cen_h /= 2 .AND. nn_cen_h /= 4 ) & ! Centered
	236	.AND. ( nn_cen_v /= 2 .AND. nn_cen_v /= 4 ) ) THEN
	237	CALL ctl_stop( 'tra_adv_init: CEN scheme, choose 2nd or 4th order' )
	238	ENDIF
	239	IF( ln_traadv_fct .AND. ( nn_fct_h /= 2 .AND. nn_fct_h /= 4 ) & ! FCT
	240	.AND. ( nn_fct_v /= 2 .AND. nn_fct_v /= 4 ) ) THEN
	241	CALL ctl_stop( 'tra_adv_init: FCT scheme, choose 2nd or 4th order' )
	242	ENDIF
	243	IF( ln_traadv_ubs .AND. ( nn_ubs_v /= 2 .AND. nn_ubs_v /= 4 ) ) THEN ! UBS
	244	CALL ctl_stop( 'tra_adv_init: UBS scheme, choose 2nd or 4th order' )
	245	ENDIF
	246	IF( ln_traadv_ubs .AND. nn_ubs_v == 4 ) THEN
	247	CALL ctl_warn( 'tra_adv_init: UBS scheme, only 2nd FCT scheme available on the vertical. It will be used' )
	248	ENDIF
	249	IF( ln_isfcav ) THEN ! ice-shelf cavities
[6140]	250	IF( ln_traadv_cen .AND. nn_cen_v == 4 .OR. & ! NO 4th order with ISF
	251	& ln_traadv_fct .AND. nn_fct_v == 4 ) CALL ctl_stop( 'tra_adv_init: 4th order COMPACT scheme not allowed with ISF' )
[5836]	252	ENDIF
	253	!
[9019]	254	! !== Print the choice ==!
	255	IF(lwp) THEN
[503]	256	WRITE(numout,*)
[6140]	257	SELECT CASE ( nadv )
[9190]	258	CASE( np_NO_adv ) ; WRITE(numout,*) ' ==>>> NO T-S advection'
	259	CASE( np_CEN ) ; WRITE(numout,*) ' ==>>> CEN scheme is used. Horizontal order: ', nn_cen_h, &
	260	& ' Vertical order: ', nn_cen_v
	261	CASE( np_FCT ) ; WRITE(numout,*) ' ==>>> FCT scheme is used. Horizontal order: ', nn_fct_h, &
	262	& ' Vertical order: ', nn_fct_v
	263	CASE( np_MUS ) ; WRITE(numout,*) ' ==>>> MUSCL scheme is used'
	264	CASE( np_UBS ) ; WRITE(numout,*) ' ==>>> UBS scheme is used'
	265	CASE( np_QCK ) ; WRITE(numout,*) ' ==>>> QUICKEST scheme is used'
[6140]	266	END SELECT
[458]	267	ENDIF
[503]	268	!
[9531]	269	CALL tra_mle_init !== initialisation of the Mixed Layer Eddy parametrisation (MLE) ==!
[4245]	270	!
[2528]	271	END SUBROUTINE tra_adv_init
[458]	272
	273	!!======================================================================
	274	END MODULE traadv

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