| 1 | MODULE dynzad |
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| 2 | !!====================================================================== |
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| 3 | !! *** MODULE dynzad *** |
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| 4 | !! Ocean dynamics : vertical advection trend |
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| 5 | !!====================================================================== |
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| 6 | !! History : OPA ! 1991-01 (G. Madec) Original code |
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| 7 | !! NEMO 0.5 ! 2002-07 (G. Madec) Free form, F90 |
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| 8 | !!---------------------------------------------------------------------- |
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| 9 | |
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| 10 | !!---------------------------------------------------------------------- |
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| 11 | !! dyn_zad : vertical advection momentum trend |
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| 12 | !!---------------------------------------------------------------------- |
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| 13 | USE oce ! ocean dynamics and tracers |
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| 14 | USE dom_oce ! ocean space and time domain |
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| 15 | USE sbc_oce ! surface boundary condition: ocean |
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| 16 | USE trd_oce ! trends: ocean variables |
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| 17 | USE trddyn ! trend manager: dynamics |
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| 18 | ! |
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| 19 | USE in_out_manager ! I/O manager |
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| 20 | USE lib_mpp ! MPP library |
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| 21 | USE prtctl ! Print control |
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| 22 | USE timing ! Timing |
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| 23 | |
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| 24 | IMPLICIT NONE |
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| 25 | PRIVATE |
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| 26 | |
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| 27 | PUBLIC dyn_zad ! routine called by dynadv.F90 |
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| 28 | |
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| 29 | !! * Substitutions |
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| 30 | # include "vectopt_loop_substitute.h90" |
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| 31 | !!---------------------------------------------------------------------- |
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| 32 | !! NEMO/OCE 4.0 , NEMO Consortium (2018) |
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| 33 | !! $Id$ |
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| 34 | !! Software governed by the CeCILL license (see ./LICENSE) |
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| 35 | !!---------------------------------------------------------------------- |
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| 36 | CONTAINS |
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| 37 | |
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| 38 | SUBROUTINE dyn_zad ( kt, Kmm, puu, pvv, Krhs ) |
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| 39 | !!---------------------------------------------------------------------- |
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| 40 | !! *** ROUTINE dynzad *** |
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| 41 | !! |
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| 42 | !! ** Purpose : Compute the now vertical momentum advection trend and |
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| 43 | !! add it to the general trend of momentum equation. |
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| 44 | !! |
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| 45 | !! ** Method : The now vertical advection of momentum is given by: |
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| 46 | !! w dz(u) = u(rhs) + 1/(e1e2u*e3u) mk+1[ mi(e1e2t*ww) dk(u) ] |
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| 47 | !! w dz(v) = v(rhs) + 1/(e1e2v*e3v) mk+1[ mj(e1e2t*ww) dk(v) ] |
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| 48 | !! Add this trend to the general trend (puu(:,:,:,Krhs),pvv(:,:,:,Krhs)): |
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| 49 | !! (u(rhs),v(rhs)) = (u(rhs),v(rhs)) + w dz(u,v) |
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| 50 | !! |
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| 51 | !! ** Action : - Update (puu(:,:,:,Krhs),pvv(:,:,:,Krhs)) with the vert. momentum adv. trends |
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| 52 | !! - Send the trends to trddyn for diagnostics (l_trddyn=T) |
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| 53 | !!---------------------------------------------------------------------- |
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| 54 | INTEGER , INTENT( in ) :: kt ! ocean time-step inedx |
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| 55 | INTEGER , INTENT( in ) :: Kmm, Krhs ! ocean time level indices |
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| 56 | REAL(wp), DIMENSION(jpi,jpj,jpk,jpt), INTENT(inout) :: puu, pvv ! ocean velocities and RHS of momentum equation |
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| 57 | ! |
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| 58 | INTEGER :: ji, jj, jk ! dummy loop indices |
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| 59 | REAL(wp) :: zua, zva ! local scalars |
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| 60 | REAL(wp), DIMENSION(jpi,jpj) :: zww |
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| 61 | REAL(wp), DIMENSION(jpi,jpj,jpk) :: zwuw, zwvw |
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| 62 | REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: ztrdu, ztrdv |
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| 63 | !!---------------------------------------------------------------------- |
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| 64 | ! |
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| 65 | IF( ln_timing ) CALL timing_start('dyn_zad') |
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| 66 | ! |
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| 67 | IF( kt == nit000 ) THEN |
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| 68 | IF(lwp) WRITE(numout,*) |
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| 69 | IF(lwp) WRITE(numout,*) 'dyn_zad : 2nd order vertical advection scheme' |
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| 70 | ENDIF |
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| 71 | |
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| 72 | IF( l_trddyn ) THEN ! Save puu(:,:,:,Krhs) and pvv(:,:,:,Krhs) trends |
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| 73 | ALLOCATE( ztrdu(jpi,jpj,jpk) , ztrdv(jpi,jpj,jpk) ) |
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| 74 | ztrdu(:,:,:) = puu(:,:,:,Krhs) |
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| 75 | ztrdv(:,:,:) = pvv(:,:,:,Krhs) |
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| 76 | ENDIF |
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| 77 | |
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| 78 | DO jk = 2, jpkm1 ! Vertical momentum advection at level w and u- and v- vertical |
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| 79 | DO jj = 2, jpj ! vertical fluxes |
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| 80 | DO ji = fs_2, jpi ! vector opt. |
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| 81 | zww(ji,jj) = 0.25_wp * e1e2t(ji,jj) * ww(ji,jj,jk) |
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| 82 | END DO |
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| 83 | END DO |
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| 84 | DO jj = 2, jpjm1 ! vertical momentum advection at w-point |
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| 85 | DO ji = fs_2, fs_jpim1 ! vector opt. |
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| 86 | zwuw(ji,jj,jk) = ( zww(ji+1,jj ) + zww(ji,jj) ) * ( puu(ji,jj,jk-1,Kmm) - puu(ji,jj,jk,Kmm) ) |
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| 87 | zwvw(ji,jj,jk) = ( zww(ji ,jj+1) + zww(ji,jj) ) * ( pvv(ji,jj,jk-1,Kmm) - pvv(ji,jj,jk,Kmm) ) |
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| 88 | END DO |
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| 89 | END DO |
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| 90 | END DO |
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| 91 | ! |
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| 92 | ! Surface and bottom advective fluxes set to zero |
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| 93 | DO jj = 2, jpjm1 |
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| 94 | DO ji = fs_2, fs_jpim1 ! vector opt. |
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| 95 | zwuw(ji,jj, 1 ) = 0._wp |
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| 96 | zwvw(ji,jj, 1 ) = 0._wp |
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| 97 | zwuw(ji,jj,jpk) = 0._wp |
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| 98 | zwvw(ji,jj,jpk) = 0._wp |
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| 99 | END DO |
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| 100 | END DO |
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| 101 | ! |
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| 102 | DO jk = 1, jpkm1 ! Vertical momentum advection at u- and v-points |
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| 103 | DO jj = 2, jpjm1 |
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| 104 | DO ji = fs_2, fs_jpim1 ! vector opt. |
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| 105 | puu(ji,jj,jk,Krhs) = puu(ji,jj,jk,Krhs) - ( zwuw(ji,jj,jk) + zwuw(ji,jj,jk+1) ) * r1_e1e2u(ji,jj) / e3u(ji,jj,jk,Kmm) |
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| 106 | pvv(ji,jj,jk,Krhs) = pvv(ji,jj,jk,Krhs) - ( zwvw(ji,jj,jk) + zwvw(ji,jj,jk+1) ) * r1_e1e2v(ji,jj) / e3v(ji,jj,jk,Kmm) |
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| 107 | END DO |
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| 108 | END DO |
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| 109 | END DO |
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| 110 | |
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| 111 | IF( l_trddyn ) THEN ! save the vertical advection trends for diagnostic |
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| 112 | ztrdu(:,:,:) = puu(:,:,:,Krhs) - ztrdu(:,:,:) |
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| 113 | ztrdv(:,:,:) = pvv(:,:,:,Krhs) - ztrdv(:,:,:) |
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| 114 | CALL trd_dyn( ztrdu, ztrdv, jpdyn_zad, kt, Kmm ) |
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| 115 | DEALLOCATE( ztrdu, ztrdv ) |
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| 116 | ENDIF |
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| 117 | ! ! Control print |
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| 118 | IF(ln_ctl) CALL prt_ctl( tab3d_1=puu(:,:,:,Krhs), clinfo1=' zad - Ua: ', mask1=umask, & |
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| 119 | & tab3d_2=pvv(:,:,:,Krhs), clinfo2= ' Va: ', mask2=vmask, clinfo3='dyn' ) |
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| 120 | ! |
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| 121 | IF( ln_timing ) CALL timing_stop('dyn_zad') |
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| 122 | ! |
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| 123 | END SUBROUTINE dyn_zad |
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| 124 | |
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| 125 | !!====================================================================== |
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| 126 | END MODULE dynzad |
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