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Changeset 9115 for branches

Timestamp:

2017-12-18T15:06:42+01:00 (6 years ago)

Author:

acc

Message:

Branch 2017/dev_merge_2017. Tidier version of sbcwave.F90 with associated changes in modules. References and schemes for Stokes drift parameterisations have been updated. Choices now are the original Breivik 2014 scheme and the latest Li et al 2017 scheme (which is based on the Breivik et al 2016 Phillips spectrum but with a depth averaged profile). This has been compiled but not yet tested. Also removed trailing spaces in lbc_lnk_multi_generic.h90

Location:

branches/2017/dev_merge_2017

Files:

: 5 edited

DOC/TexFiles/Bibliography/Biblio.bib (modified) (2 diffs)
NEMOGCM/NEMO/OPA_SRC/LBC/lbc_lnk_multi_generic.h90 (modified) (1 diff)
NEMOGCM/NEMO/OPA_SRC/SBC/sbc_oce.F90 (modified) (1 diff)
NEMOGCM/NEMO/OPA_SRC/SBC/sbcmod.F90 (modified) (1 diff)
NEMOGCM/NEMO/OPA_SRC/SBC/sbcwave.F90 (modified) (14 diffs)

Legend:

: Unmodified
: Added
: Removed

branches/2017/dev_merge_2017/DOC/TexFiles/Bibliography/Biblio.bib

-                      r9052
+                      r9115
 URL = {http://www.geosci-model-dev.net/8/1285/2015/},
 DOI = {10.5194/gmd-8-1285-2015}
+}
+@ARTICLE{Breivik_al_OM2016,
+   AUTHOR = {{\O}yvind Breivik and Jean-Raymond Bidlot and Peter A.E.M. Janssen},
+   YEAR = {2016},
+   TITLE = "{A Stokes drift approximation based on the Phillips spectrum}",
+   JOURNAL = {OM},
+   VOLUME = {100},
+   DOI = {10.1016/j.ocemod.2016.01.005},
+   PAGES = {49--56, arXiv:1601.08092}
+}
 …
   author = {S Levitus },
   pages = {173 pp}
+}
+@ARTICLE{Li_al_OM2017},
+   AUTHOR = {Q Li and B Fox-Kemper and {\O} Breivik and A Webb},
+   YEAR = {2017},
+   TITLE = {Statistical Models of Global Langmuir Mixing},
+   JOURNAL = {OM},
+   VOLUME = {113},
+   ISSUE = {May},
+   PAGES = {95--114},
+   DOI = {10.1016/j.ocemod.2017.03.016}
+}

branches/2017/dev_merge_2017/NEMOGCM/NEMO/OPA_SRC/LBC/lbc_lnk_multi_generic.h90

-                      r9093
+                      r9115
 #if defined DIM_2d
 #   define ARRAY_TYPE(i,j,k,l)   REAL(wp), DIMENSION(i,j)
 #   define PTR_TYPE              TYPE(PTR_2D)
 #   define PTR_ptab              pt2d
+#if defined DIM_2d
+#   define ARRAY_TYPE(i,j,k,l)   REAL(wp), DIMENSION(i,j)
+#   define PTR_TYPE              TYPE(PTR_2D)
+#   define PTR_ptab              pt2d
 #endif
 #if defined DIM_3d

branches/2017/dev_merge_2017/NEMOGCM/NEMO/OPA_SRC/SBC/sbc_oce.F90

-                      r9033
+                      r9115
    !!           Stokes drift parametrization definition
    !!----------------------------------------------------------------------
+   INTEGER , PUBLIC, PARAMETER ::   jp_breivik  = 0     ! Breivik 2015: v_z=v_0*[exp(2*k*z)/(1-8*k*z)]
+   INTEGER , PUBLIC, PARAMETER ::   jp_phillips = 1     ! Phillips: v_z=v_o*[exp(2*k*z)-beta*sqrt(-2*k*pi*z)*erfc(sqrt(-2*k*z))]
+   INTEGER , PUBLIC, PARAMETER ::   jp_peakfr   = 2     ! Phillips using the peak wave number read from wave model instead of the inverse depth scale
+   INTEGER , PUBLIC, PARAMETER ::   jp_breivik_2014 = 0     !: Breivik  2014: v_z=v_0*[exp(2*k*z)/(1-8*k*z)]
+   INTEGER , PUBLIC, PARAMETER ::   jp_li_2017      = 1     !: Li et al 2017: Stokes drift based on Phillips spectrum (Breivik 2016)
+                                                            !  with depth averaged profile
+   INTEGER , PUBLIC, PARAMETER ::   jp_peakfr       = 2     !: Li et al 2017: using the peak wave number read from wave model instead
+                                                            !  of the inverse depth scale
+   LOGICAL , PUBLIC            ::   ll_st_bv2014  = .FALSE. !  logical indicator, .true. if Breivik 2014 parameterisation is active.
+   LOGICAL , PUBLIC            ::   ll_st_li2017  = .FALSE. !  logical indicator, .true. if Li 2017 parameterisation is active.
+   LOGICAL , PUBLIC            ::   ll_st_bv_li   = .FALSE. !  logical indicator, .true. if either Breivik or Li parameterisation is active.
+   LOGICAL , PUBLIC            ::   ll_st_peakfr  = .FALSE. !  logical indicator, .true. if using Li 2017 with peak wave number
    !!----------------------------------------------------------------------

branches/2017/dev_merge_2017/NEMOGCM/NEMO/OPA_SRC/SBC/sbcmod.F90

-                      r9033
+                      r9115
+      !
       IF( ln_sdw ) THEN
          IF( .NOT.(nn_sdrift==jp_breivik .OR. nn_sdrift==jp_phillips .OR. nn_sdrift==jp_peakfr) ) &
+         IF( .NOT.(nn_sdrift==jp_breivik_2014 .OR. nn_sdrift==jp_li_2017 .OR. nn_sdrift==jp_peakfr) ) &
             CALL ctl_stop( 'The chosen nn_sdrift for Stokes drift vertical velocity must be 0, 1, or 2' )
       ENDIF
+      ll_st_bv2014  = ( nn_sdrift==jp_breivik_2014 )
+      ll_st_li2017  = ( nn_sdrift==jp_li_2017 )
+      ll_st_bv_li   = ( ll_st_bv2014 .OR. ll_st_li2017 )
+      ll_st_peakfr  = ( nn_sdrift==jp_peakfr )
       IF( ln_tauwoc .AND. ln_tauw ) &
          CALL ctl_stop( 'More than one method for modifying the ocean stress has been selected ', &

branches/2017/dev_merge_2017/NEMOGCM/NEMO/OPA_SRC/SBC/sbcwave.F90

-                      r9098
+                      r9115
    LOGICAL, PUBLIC ::   cpl_wfreq  = .FALSE.
    LOGICAL, PUBLIC ::   cpl_wnum   = .FALSE.
    LOGICAL, PUBLIC ::   cpl_tauwoc  = .FALSE.
+   LOGICAL, PUBLIC ::   cpl_tauwoc = .FALSE.
    LOGICAL, PUBLIC ::   cpl_tauw   = .FALSE.
    LOGICAL, PUBLIC ::   cpl_wdrag  = .FALSE.
 …
    TYPE(FLD), ALLOCATABLE, DIMENSION(:) ::   sf_sd      ! structure of input fields (file informations, fields read) Stokes Drift
    TYPE(FLD), ALLOCATABLE, DIMENSION(:) ::   sf_wn      ! structure of input fields (file informations, fields read) wave number for Qiao
    TYPE(FLD), ALLOCATABLE, DIMENSION(:) ::   sf_tauwoc   ! structure of input fields (file informations, fields read) normalized wave stress into the ocean
+   TYPE(FLD), ALLOCATABLE, DIMENSION(:) ::   sf_tauwoc  ! structure of input fields (file informations, fields read) normalized wave stress into the ocean
    TYPE(FLD), ALLOCATABLE, DIMENSION(:) ::   sf_tauw    ! structure of input fields (file informations, fields read) ocean stress components from wave model
 …
       REAL(wp) ::  zstokes_psi_u_bot, zstokes_psi_v_bot
       REAL(wp) ::  zdep_u, zdep_v, zkh_u, zkh_v
+      REAL(wp), DIMENSION(:,:)  , POINTER ::   zk_t, zk_u, zk_v, zu0_sd, zv0_sd   ! 2D workspace
+      REAL(wp), DIMENSION(:,:)  , POINTER ::   zstokes_psi_u_top, zstokes_psi_v_top   ! 2D workspace
+      REAL(wp), DIMENSION(:,:,:), POINTER ::   ze3divh                            ! 3D workspace
+      !!---------------------------------------------------------------------
+      !
+      CALL wrk_alloc( jpi,jpj,jpk,   ze3divh )
+      CALL wrk_alloc( jpi,jpj,       zk_t, zk_u, zk_v, zu0_sd, zv0_sd )
+      CALL wrk_alloc( jpi,jpj,       zstokes_psi_u_top, zstokes_psi_v_top)
+      REAL(wp), DIMENSION(:,:)  , ALLOCATABLE ::   zk_t, zk_u, zk_v, zu0_sd, zv0_sd     ! 2D workspace
+      REAL(wp), DIMENSION(:,:)  , ALLOCATABLE ::   zstokes_psi_u_top, zstokes_psi_v_top ! 2D workspace
+      REAL(wp), DIMENSION(:,:,:), ALLOCATABLE ::   ze3divh                              ! 3D workspace
+      !!---------------------------------------------------------------------
+      !
+      ALLOCATE( ze3divh(jpi,jpj,jpk) )
+      ALLOCATE( zk_t(jpi,jpj), zk_u(jpi,jpj), zk_v(jpi,jpj), zu0_sd(jpi,jpj), zv0_sd(jpi,jpj) )
+      !
       ! select parameterization for the calculation of vertical Stokes drift
       ! exp. wave number at t-point
       IF( nn_sdrift==jp_breivik .OR. nn_sdrift==jp_phillips ) THEN   ! (Eq. (19) in Breivick et al. (2014) )
+      IF( ll_st_bv_li ) THEN   ! (Eq. (19) in Breivik et al. (2014) )
          zfac = 2.0_wp * rpi / 16.0_wp
          DO jj = 1, jpj
 …
             END DO
          END DO
       ELSE IF( nn_sdrift==jp_peakfr ) THEN    ! peak wave number calculated from the peak frequency received by the wave model
+      ELSE IF( ll_st_peakfr ) THEN    ! peak wave number calculated from the peak frequency received by the wave model
          DO jj = 1, jpjm1
             DO ji = 1, jpim1
 …
+      !
       !                       !==  horizontal Stokes Drift 3D velocity  ==!
       IF( nn_sdrift==jp_breivik ) THEN
+      IF( ll_st_bv2014 ) THEN
          DO jk = 1, jpkm1
             DO jj = 2, jpjm1
 …
             END DO
          END DO
+      ELSE IF( nn_sdrift==jp_phillips .OR. nn_sdrift==jp_peakfr ) THEN
+      ELSE IF( ll_st_li2017 .OR. ll_st_peakfr ) THEN
+         ALLOCATE( zstokes_psi_u_top(jpi,jpj), zstokes_psi_v_top(jpi,jpj) )
+         DO jj = 1, jpjm1              ! exp. wave number & Stokes drift velocity at u- & v-points
+            DO ji = 1, jpim1
+               zstokes_psi_u_top(ji,jj) = 0._wp
+               zstokes_psi_v_top(ji,jj) = 0._wp
+            END DO
+         END DO
          DO jk = 1, jpkm1
             DO jj = 2, jpjm1
                DO ji = 2, jpim1
+                  zdep_u = 0.5_wp * ( gdept_n(ji,jj,jk) + gdept_n(ji+1,jj,jk) )
+                  zdep_v = 0.5_wp * ( gdept_n(ji,jj,jk) + gdept_n(ji,jj+1,jk) )
+                  !
+                  zkh_u = zk_u(ji,jj) * zdep_u     ! k * depth
+                  zkh_v = zk_v(ji,jj) * zdep_v
+                  !                                ! Depth attenuation
+                  zda_u = EXP( -2.0_wp*zkh_u ) - SQRT(2.0_wp*rpi*zkh_u) * ERFC(SQRT(2.0_wp*zkh_u))
+                  zda_v = EXP( -2.0_wp*zkh_v ) - SQRT(2.0_wp*rpi*zkh_v) * ERFC(SQRT(2.0_wp*zkh_v))
+                  zbot_u = 0.5_wp * ( gdepw_n(ji,jj,jk+1) + gdepw_n(ji+1,jj,jk+1) )
+                  zbot_v = 0.5_wp * ( gdepw_n(ji,jj,jk+1) + gdepw_n(ji,jj+1,jk+1) )
+                  zkb_u  = 2.0_wp * zk_u(ji,jj) * zbot_u                             ! 2k * bottom depth
+                  zkb_v  = 2.0_wp * zk_v(ji,jj) * zbot_v                             ! 2k * bottom depth
+                  !
+                  zke3_u = MAX(1.e-8_wp, 2.0_wp * zk_u(ji,jj) * e3u_n(ji,jj,jk))     ! 2k * thickness
+                  zke3_v = MAX(1.e-8_wp, 2.0_wp * zk_v(ji,jj) * e3v_n(ji,jj,jk))     ! 2k * thickness
+                  ! Depth attenuation .... do u component first..
+                  zdepth      = zkb_u
+                  zsqrt_depth = SQRT(zdepth)
+                  zexp_depth  = EXP(-zdepth)
+                  zstokes_psi_u_bot = 1.0_wp - zexp_depth  &
+                       &              - z_two_thirds * ( zsqrtpi*zsqrt_depth*zdepth*ERFC(zsqrt_depth) &
+                       &              + 1.0_wp - (1.0_wp + zdepth)*zexp_depth )
+                  zda_u                    = ( zstokes_psi_u_bot - zstokes_psi_u_top(ji,jj) ) / zke3_u
+                  zstokes_psi_u_top(ji,jj) =   zstokes_psi_u_bot
+                  !         ... and then v component
+                  zdepth      =zkb_v
+                  zsqrt_depth = SQRT(zdepth)
+                  zexp_depth  = EXP(-zdepth)
+                  zstokes_psi_v_bot = 1.0_wp - zexp_depth  &
+                       &              - z_two_thirds * ( zsqrtpi*zsqrt_depth*zdepth*ERFC(zsqrt_depth) &
+                       &              + 1.0_wp - (1.0_wp + zdepth)*zexp_depth )
+                  zda_v                    = ( zstokes_psi_v_bot - zstokes_psi_v_top(ji,jj) ) / zke3_v
+                  zstokes_psi_v_top(ji,jj) =   zstokes_psi_v_bot
+                  !
                   usd(ji,jj,jk) = zda_u * zu0_sd(ji,jj) * umask(ji,jj,jk)
 …
             END DO
          END DO
+         DEALLOCATE( zstokes_psi_u_top, zstokes_psi_v_top )
       ENDIF
 …
       CALL iom_put( "wstokes",  wsd  )
+      !
+      CALL wrk_dealloc( jpi,jpj,jpk,   ze3divh )
+      CALL wrk_dealloc( jpi,jpj,       zk_t, zk_u, zk_v, zu0_sd, zv0_sd )
+      CALL wrk_dealloc( jpi,jpj,       zstokes_psi_u_top, zstokes_psi_v_top)
+      DEALLOCATE( ze3divh )
+      DEALLOCATE( zk_t, zk_u, zk_v, zu0_sd, zv0_sd )
+      !
    END SUBROUTINE sbc_stokes
 …
       ENDIF
       IF( ln_tauwoc .AND. .NOT. cpl_tauwoc ) THEN    !==  Wave induced stress  ==!
          CALL fld_read( kt, nn_fsbc, sf_tauwoc )          ! read wave norm stress from external forcing
+      IF( ln_tauwoc .AND. .NOT. cpl_tauwoc ) THEN  !==  Wave induced stress  ==!
+         CALL fld_read( kt, nn_fsbc, sf_tauwoc )         ! read wave norm stress from external forcing
          tauoc_wave(:,:) = sf_tauwoc(1)%fnow(:,:,1)
       ENDIF
 …
          ENDIF
+         !                                         !==  Computation of the 3d Stokes Drift  ==!
+         ! Calculate only if required fields have been read
+         ! In coupled wave model-NEMO case the call is done after coupling
+         !
+         IF( ((nn_sdrift==jp_breivik .OR. nn_sdrift==jp_phillips) .AND. &
+                          jp_hsw>0 .AND. jp_wmp>0 .AND. jp_usd>0 .AND. jp_vsd>0) .OR. &
+             (nn_sdrift==jp_peakfr .AND. jp_wfr>0 .AND. jp_usd>0 .AND. jp_vsd>0) ) &
+            CALL sbc_stokes()            ! Calculate only if required fields are read
+         !                               ! In coupled wave model-NEMO case the call is done after coupling
+         IF( ( ll_st_bv_li   .AND. jp_hsw>0 .AND. jp_wmp>0 .AND. jp_usd>0 .AND. jp_vsd>0 ) .OR. &
+           & ( ll_st_peakfr  .AND. jp_wfr>0 .AND. jp_usd>0 .AND. jp_vsd>0                ) ) CALL sbc_stokes()
+         !
       ENDIF
 …
       INTEGER ::   ifpr
       !!
       CHARACTER(len=100)     ::  cn_dir                          ! Root directory for location of drag coefficient files
+      CHARACTER(len=100)     ::  cn_dir                            ! Root directory for location of drag coefficient files
       TYPE(FLD_N), ALLOCATABLE, DIMENSION(:) ::   slf_i, slf_j     ! array of namelist informations on the fields to read
       TYPE(FLD_N)            ::  sn_cdg, sn_usd, sn_vsd,  &
                              &   sn_hsw, sn_wmp, sn_wfr, sn_wnum, &
                              &   sn_tauwoc, sn_tauwx, sn_tauwy      ! informations about the fields to be read
+                             &   sn_tauwoc, sn_tauwx, sn_tauwy     ! informations about the fields to be read
+      !
       NAMELIST/namsbc_wave/  sn_cdg, cn_dir, sn_usd, sn_vsd, sn_hsw, sn_wmp, sn_wfr, &
 …
       IF( ln_cdgw ) THEN
          IF( .NOT. cpl_wdrag ) THEN
             ALLOCATE( sf_cd(1), STAT=ierror )           !* allocate and fill sf_wave with sn_cdg
+            ALLOCATE( sf_cd(1), STAT=ierror )               !* allocate and fill sf_wave with sn_cdg
             IF( ierror > 0 )   CALL ctl_stop( 'STOP', 'sbc_wave_init: unable to allocate sf_wave structure' )
+            !
 …
             IF( ierror > 0 )   CALL ctl_stop( 'STOP', 'sbc_wave_init: unable to allocate sf_wave structure' )
+            !
                                     ALLOCATE( sf_tauwoc(1)%fnow(jpi,jpj,1)   )
+                                     ALLOCATE( sf_tauwoc(1)%fnow(jpi,jpj,1)   )
             IF( sn_tauwoc%ln_tint )  ALLOCATE( sf_tauwoc(1)%fdta(jpi,jpj,1,2) )
             CALL fld_fill( sf_tauwoc, (/ sn_tauwoc /), cn_dir, 'sbc_wave_init', 'Wave module', 'namsbc_wave' )
 …
             jp_vsd = jpfld
          ENDIF
          IF( .NOT. cpl_hsig .AND. (nn_sdrift==jp_breivik .OR. nn_sdrift==jp_phillips) ) THEN
+         IF( .NOT. cpl_hsig  .AND. ll_st_bv_li  ) THEN
             jpfld  = jpfld + 1
             jp_hsw = jpfld
          ENDIF
          IF( .NOT. cpl_wper .AND. (nn_sdrift==jp_breivik .OR. nn_sdrift==jp_phillips) ) THEN
+         IF( .NOT. cpl_wper  .AND. ll_st_bv_li  ) THEN
             jpfld  = jpfld + 1
             jp_wmp = jpfld
          ENDIF
          IF( .NOT. cpl_wfreq .AND. nn_sdrift==jp_peakfr ) THEN
+         IF( .NOT. cpl_wfreq .AND. ll_st_peakfr ) THEN
             jpfld  = jpfld + 1
             jp_wfr = jpfld

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