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sbctide.F90 @ 11274

Last change on this file since 11274 was 10005, checked in by timgraham, 6 years ago
Included all of the functional changes from STARTHOUR branch in branches/2014
File size: 5.9 KB

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1	MODULE sbctide
2	!!======================================================================
3	!! * MODULE sbctide *
4	!! Initialization of tidal forcing
5	!!======================================================================
6	!! History : 9.0 ! 2007 (O. Le Galloudec) Original code
7	!!----------------------------------------------------------------------
8	USE oce ! ocean dynamics and tracers variables
9	USE dom_oce ! ocean space and time domain
10	USE phycst
11	USE daymod
12	USE dynspg_oce
13	USE tideini
14	!
15	USE iom
16	USE in_out_manager ! I/O units
17	USE ioipsl ! NetCDF IPSL library
18	USE lbclnk ! ocean lateral boundary conditions (or mpp link)
19
20	IMPLICIT NONE
21	PUBLIC
22
23	REAL(wp), PUBLIC, ALLOCATABLE, DIMENSION(:,:) :: pot_astro !
24
25	#if defined key_tide
26	!!----------------------------------------------------------------------
27	!! 'key_tide' : tidal potential
28	!!----------------------------------------------------------------------
29	!! sbc_tide :
30	!! tide_init_potential :
31	!!----------------------------------------------------------------------
32
33	LOGICAL, PUBLIC, PARAMETER :: lk_tide = .TRUE.
34	REAL(wp), ALLOCATABLE, DIMENSION(:,:,:) :: amp_pot, phi_pot
35
36	!!----------------------------------------------------------------------
37	!! NEMO/OPA 3.5 , NEMO Consortium (2013)
38	!! $Id$
39	!! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
40	!!----------------------------------------------------------------------
41	CONTAINS
42
43	SUBROUTINE sbc_tide( kt )
44	!!----------------------------------------------------------------------
45	!! * ROUTINE sbc_tide *
46	!!----------------------------------------------------------------------
47	INTEGER, INTENT( in ) :: kt ! ocean time-step
48	INTEGER :: jk ! dummy loop index
49	INTEGER :: nsec_day_orig ! Temporary variable
50	!!----------------------------------------------------------------------
51
52	IF( nsec_day == NINT(0.5_wp * rdttra(1)) .OR. kt == nit000 ) THEN ! start a new day
53	!
54	IF( kt == nit000 ) THEN
55	ALLOCATE( amp_pot(jpi,jpj,nb_harmo), &
56	& phi_pot(jpi,jpj,nb_harmo), pot_astro(jpi,jpj) )
57	ENDIF
58	!
59	amp_pot(:,:,:) = 0._wp
60	phi_pot(:,:,:) = 0._wp
61	pot_astro(:,:) = 0._wp
62	!
63	! If the run does not start from midnight then need to initialise tides
64	! at the start of the current day (only occurs when kt==nit000)
65	! Temporarily set nsec_day to beginning of day.
66	nsec_day_orig = nsec_day
67	IF ( nsec_day /= NINT(0.5_wp * rdttra(1)) ) THEN
68	kt_tide = kt - (nsec_day - 0.5_wp * rdttra(1))/rdttra(1)
69	nsec_day = NINT(0.5_wp * rdttra(1))
70	ELSE
71	kt_tide = kt
72	ENDIF
73	CALL tide_harmo( omega_tide, v0tide, utide, ftide, ntide, nb_harmo )
74	!
75	!
76	IF(lwp) THEN
77	WRITE(numout,*)
78	WRITE(numout,*) 'sbc_tide : Update of the components and (re)Init. the potential at kt=', kt
79	WRITE(numout,*) '~~~~~~~~ '
80	DO jk = 1, nb_harmo
81	WRITE(numout,*) Wave(ntide(jk))%cname_tide, utide(jk), ftide(jk), v0tide(jk), omega_tide(jk)
82	END DO
83	ENDIF
84	!
85	IF( ln_tide_pot ) CALL tide_init_potential
86	!
87	! Reset nsec_day
88	nsec_day = nsec_day_orig
89	ENDIF
90	!
91	END SUBROUTINE sbc_tide
92
93
94	SUBROUTINE tide_init_potential
95	!!----------------------------------------------------------------------
96	!! * ROUTINE tide_init_potential *
97	!!----------------------------------------------------------------------
98	INTEGER :: ji, jj, jk ! dummy loop indices
99	REAL(wp) :: zcons, ztmp1, ztmp2, zlat, zlon, ztmp, zamp, zcs ! local scalar
100	!!----------------------------------------------------------------------
101
102	DO jk = 1, nb_harmo
103	zcons = 0.7_wp * Wave(ntide(jk))%equitide * ftide(jk)
104	DO ji = 1, jpi
105	DO jj = 1, jpj
106	ztmp1 = amp_pot(ji,jj,jk) * COS( phi_pot(ji,jj,jk) )
107	ztmp2 = -amp_pot(ji,jj,jk) * SIN( phi_pot(ji,jj,jk) )
108	zlat = gphit(ji,jj)*rad !! latitude en radian
109	zlon = glamt(ji,jj)*rad !! longitude en radian
110	ztmp = v0tide(jk) + utide(jk) + Wave(ntide(jk))%nutide * zlon
111	! le potentiel est composé des effets des astres:
112	IF ( Wave(ntide(jk))%nutide == 1 ) THEN ; zcs = zcons * SIN( 2._wp*zlat )
113	ELSEIF( Wave(ntide(jk))%nutide == 2 ) THEN ; zcs = zcons * COS( zlat )**2
114	ELSE ; zcs = 0._wp
115	ENDIF
116	ztmp1 = ztmp1 + zcs * COS( ztmp )
117	ztmp2 = ztmp2 - zcs * SIN( ztmp )
118	zamp = SQRT( ztmp1ztmp1 + ztmp2ztmp2 )
119	amp_pot(ji,jj,jk) = zamp
120	phi_pot(ji,jj,jk) = ATAN2( -ztmp2 / MAX( 1.e-10_wp , zamp ) , &
121	& ztmp1 / MAX( 1.e-10_wp, zamp ) )
122	END DO
123	END DO
124	END DO
125	!
126	END SUBROUTINE tide_init_potential
127
128	#else
129	!!----------------------------------------------------------------------
130	!! Default case : Empty module
131	!!----------------------------------------------------------------------
132	LOGICAL, PUBLIC, PARAMETER :: lk_tide = .FALSE.
133	CONTAINS
134	SUBROUTINE sbc_tide( kt ) ! Empty routine
135	INTEGER , INTENT(in) :: kt ! ocean time-step
136	WRITE(,) 'sbc_tide: You should not have seen this print! error?', kt
137	END SUBROUTINE sbc_tide
138	#endif
139
140	!!======================================================================
141	END MODULE sbctide

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source: branches/UKMO/dev_r5518_GO6_package_STARTHOUR/NEMOGCM/NEMO/OPA_SRC/SBC/sbctide.F90 @ 11274

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