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- !
- #define TRACEBACK write (gol,'("in ",a," (",a,", line",i5,")")') rname, __FILE__, __LINE__; call goErr
- #define IF_NOTOK_RETURN(action) if (status/=0) then; TRACEBACK; action; return; end if
- #define IF_ERROR_RETURN(action) if (status> 0) then; TRACEBACK; action; return; end if
- !
- #include "tm5.inc"
- !
- !-----------------------------------------------------------------------------
- ! TM5 !
- !-----------------------------------------------------------------------------
- !BOP
- !
- ! !MODULE: EMISSION_SOX
- !
- ! !DESCRIPTION: data and methods for SOx emissions.
- !
- !
- ! AR5 (August 2010):
- ! - SO2 emissions are used and split into SO2/SO4
- ! - in case of M7, additional partitioning is done into given modes
- ! E.V.: 2.5 % of SO2 emissions are supposed to be SO4 (AEROCOM) to
- ! take into account the sulphate formation in the plumes,
- ! as sub-grid effect. For SO2 the remaining 97.5 % are
- ! calculated in the do_add routine. For SO4 they are calculated
- ! in the main emission_sox routine
- !
- ! SO4 emissions:
- ! industrial: (From Stier et al. 2004)
- ! 100% accumulation mode number
- ! median radius = 0.075 um sigma = 1.59
- ! domestic - transport - biomass burning :
- ! 50% Aitken mode number
- ! median radius = 0.03 um sigma = 1.59
- ! 50% Accumulation mode number
- ! median radius = 0.075 um sigma = 1.59
- !>>> TvN
- ! The size distributions have been changed following
- ! the AeroCom recommendations of Dentener et al. (2006),
- ! adapted to the M7 modes (Stier et al., ACP, 2005).
- ! For emissions from industry, power plants and shipping
- ! a number median radius of 0.5 um was recommended,
- ! at the boundary between accumulation and coarse mode.
- ! Therefore, the emitted mass from these sources
- ! is equally divided between these modes,
- ! with median radii of 0.075 and 0.75 um, respectively.
- ! Emissions from road and off-road transport and the domestic sector
- ! are assumed to be in the Aitken mode,
- ! and from biomass burning in the accumulation mode.
- ! Since only 2.5% of SOx emissions are emitted as particles,
- ! these choices have only minor impacts.
- ! See also comments in mo_aero.F90.
- !<<< TvN
- !\\
- !\\
- ! !INTERFACE:
- !
- MODULE EMISSION_SOX
- !
- ! !USES:
- !
- use GO, only : gol, goErr, goPr
- use dims, only : nregions, idate, okdebug
- use global_types, only : emis_data, d3_data
- use emission_read, only : used_providers, has_emis
- use tm5_distgrid, only : dgrid, get_distgrid, scatter
- use partools, only : isRoot, par_broadcast
- implicit none
- private
- !
- ! !PUBLIC MEMBER FUNCTIONS:
- !
- public :: Emission_SOx_Init ! allocate dataset
- public :: Emission_SOx_Done ! deallocate dataset
- public :: Emission_sox_declare ! read monthly input
- public :: Emission_sox_apply ! distribute & add emissions to tracer array
- !
- ! !PRIVATE DATA MEMBERS:
- !
- character(len=*), parameter :: mname = 'emission_sox'
- type( emis_data ), dimension(:,:), allocatable :: so2_emis_2d
- type( d3_data ), dimension(:,:), allocatable :: so2_emis_3d
- integer :: so2_3dsec, so2_2dsec
- logical, allocatable :: has_data_3d(:), has_data_2d(:)
- !
- ! !REVISION HISTORY:
- ! 2005 - Elisabetta Vignati - changed for coupling with M7
- ! 1 Oct 2010 - Achim Strunk - AR5
- ! 1 Dec 2011 - Narcisa Banda - added EDGAR 4
- ! 27 Jun 2012 - P. Le Sager - adapted for lon-lat MPI domain decomposition
- !
- ! !REMARKS:
- !
- !EOP
- !------------------------------------------------------------------------
- CONTAINS
- !--------------------------------------------------------------------------
- ! TM5 !
- !--------------------------------------------------------------------------
- !BOP
- !
- ! !IROUTINE: EMISSION_SOX_INIT
- !
- ! !DESCRIPTION: allocate memory
- !\\
- !\\
- ! !INTERFACE:
- !
- SUBROUTINE EMISSION_SOX_INIT( status )
- !
- ! !USES:
- !
- use dims, only : lm
- use emission_read, only : providers_def, numb_providers, ed42_nsect_so2
- use emission_data, only : LAR5BMB
- use emission_read, only : n_ar5_ant_sec, n_ar5_shp_sec, n_ar5_air_sec, n_ar5_bmb_sec
- use emission_read, only : ar5_cat_ant, ar5_cat_shp, ar5_cat_air, ar5_cat_bmb
- !
- ! !OUTPUT PARAMETERS:
- !
- integer, intent(out) :: status
- !
- ! !REVISION HISTORY:
- ! 1 Oct 2010 - Achim Strunk - AR5 format
- ! 27 Jun 2012 - P. Le Sager - adapted for lon-lat MPI domain decomposition
- !
- !EOP
- !------------------------------------------------------------------------
- !BOC
- character(len=*), parameter :: rname = mname//'/Emission_sox_Init'
- integer :: region, lsec
- integer :: lmr, lprov, i1, i2, j1, j2
- ! --- begin --------------------------------------
- status = 0
- if(.not. has_emis) return
- ! nb of sectors
- so2_2dsec = 0
- so2_3dsec = 0
- do lprov = 1, numb_providers
- if (count(used_providers.eq.providers_def(lprov)%name)/=0) then
-
- if (trim(providers_def(lprov)%name) .eq. 'AR5') then
-
- ! nb of available sectors in AR5 depends on category
- so2_2dsec = so2_2dsec + n_ar5_ant_sec*count('SO2'.eq.ar5_cat_ant) + &
- n_ar5_shp_sec*count('SO2'.eq.ar5_cat_shp)
- if (LAR5BMB) so2_2dsec = so2_2dsec + n_ar5_bmb_sec*count('SO2'.eq.ar5_cat_bmb)
- so2_3dsec = so2_3dsec + n_ar5_air_sec*count('SO2'.eq.ar5_cat_air)
- ! so2_2dsec = so2_2dsec + providers_def(lprov)%nsect2d
- ! so2_3dsec = so2_3dsec + count('SO2'.eq.ar5_cat_air)
-
- elseif (trim(providers_def(lprov)%name) .eq. 'ED42') then
- so2_2dsec = so2_2dsec + ed42_nsect_so2
- ! no 3d sectors in EDGAR 4.2
- else
- so2_2dsec = so2_2dsec + providers_def(lprov)%nsect2d
- so2_3dsec = so2_3dsec + providers_def(lprov)%nsect3d
- endif
- endif
- enddo
-
- allocate( so2_emis_2d( nregions, so2_2dsec ) )
- allocate( so2_emis_3d( nregions, so2_3dsec ) )
- allocate( has_data_2d(so2_2dsec)) ; has_data_2d=.false.
- allocate( has_data_3d(so2_3dsec)) ; has_data_3d=.false.
- ! allocate information arrays (2d and 3d)
- do region=1,nregions
- CALL GET_DISTGRID( dgrid(region), I_STRT=i1, I_STOP=i2, J_STRT=j1, J_STOP=j2 )
- lmr = lm(region)
- do lsec=1,so2_2dsec
- allocate( so2_emis_2d(region,lsec)%surf(i1:i2,j1:j2) )
- end do
- do lsec=1,so2_3dsec
- allocate( so2_emis_3d(region,lsec)%d3(i1:i2,j1:j2,lmr) )
- end do
- enddo
- ! ok
- status = 0
- END SUBROUTINE EMISSION_SOX_INIT
- !EOC
- !--------------------------------------------------------------------------
- ! TM5 !
- !--------------------------------------------------------------------------
- !BOP
- !
- ! !IROUTINE: EMISSION_SOX_DONE
- !
- ! !DESCRIPTION: Free memory.
- !\\
- !\\
- ! !INTERFACE:
- !
- SUBROUTINE EMISSION_SOX_DONE( status )
- !
- ! !OUTPUT PARAMETERS:
- !
- integer, intent(out) :: status
- !
- ! !REVISION HISTORY:
- ! 1 Oct 2010 - Achim Strunk - adapted for AR5
- !
- !EOP
- !------------------------------------------------------------------------
- !BOC
- character(len=*), parameter :: rname = mname//'/Emission_SOx_Done'
- integer :: region, lsec
- ! --- begin -----------------------------------------
- status = 0
- if(.not. has_emis) return
- do region = 1, nregions
- do lsec=1,so2_2dsec
- deallocate( so2_emis_2d(region,lsec)%surf )
- end do
- do lsec=1,so2_3dsec
- deallocate( so2_emis_3d(region,lsec)%d3 )
- end do
- end do
-
- deallocate( so2_emis_2d, so2_emis_3d )
- deallocate( has_data_2d, has_data_3d )
- status = 0
- END SUBROUTINE EMISSION_SOX_DONE
- !EOC
-
- !--------------------------------------------------------------------------
- ! TM5 !
- !--------------------------------------------------------------------------
- !BOP
- !
- ! !IROUTINE: EMISSION_SOX_DECLARE
- !
- ! !DESCRIPTION: Opens, reads and evaluates input files (per month).
- ! Provides emissions on 2d/3d-arrays which are then added
- ! to tracers in routine *apply.
- !\\
- !\\
- ! !INTERFACE:
- !
- SUBROUTINE EMISSION_SOX_DECLARE( status )
- !
- ! !USES:
- !
- use binas, only : pi
- use toolbox, only : coarsen_emission
- use dims, only : im, jm, lm, idate, sec_month, nlon360, nlat180, iglbsfc
- use chem_param, only : xms, xmso2
- use emission_data, only : msg_emis, LAR5BMB
- #ifdef with_m7
- use chem_param, only : mode_ais, mode_acs, mode_cos
- use chem_param, only : iso4ais, iso4acs, iso4cos
- use chem_param, only : iais_n, iacs_n, icos_n
- use chem_param, only : xmso4, xmnumb, sigma_lognormal
- use chem_param, only : so4_density, h2so4_factor
- use emission_data, only : emis_mass, emis_number
- use emission_data, only : rad_so4_ait, rad_so4_acc, rad_so4_coa
- use emission_data, only : frac_so4
- use emission_data, only : emission_vdist_by_sector
- #endif
- ! ---------------- AR5 - EDGAR 4 --------------------
- use emission_data, only : emis_input_year_sox, emis_input_year_nat
- use emission_data, only : emis_input_dir_ed4, emis_input_dir_mac
- use emission_data, only : emis_input_dir_gfed, emis_input_dir_retro
- use emission_read, only : emission_ar5_regrid_aircraft
-
- use emission_read, only : emission_cmip6_ReadSector
- use emission_read, only : emission_cmip6bmb_ReadSector
- use emission_read, only : emission_ar5_ReadSector
- use emission_read, only : emission_macc_ReadSector
- use emission_read, only : emission_ed4_ReadSector
- use emission_read, only : emission_gfed_ReadSector
- use emission_read, only : emission_retro_ReadSector
- use emission_read, only : sectors_def, numb_sectors
- use emission_read, only : ar5_dim_3ddata
- use emission_read, only : ed42_so2_sectors
- !
- ! !OUTPUT PARAMETERS:
- !
- integer, intent(out) :: status
- !
- ! !REVISION HISTORY:
- ! 1 Oct 2010 - Achim Strunk - revamped for AR5
- ! 1 Dec 2011 - Narcisa Banda - added EDGAR 4
- ! 27 Jun 2012 - P. Le Sager - adapted for lon-lat MPI domain decomposition
- !
- ! !REMARKS:
- !
- !EOP
- !------------------------------------------------------------------------
- !BOC
- character(len=*), parameter :: rname = mname//'/emission_sox_declare'
- integer :: region, hasData
- integer, parameter :: add_field=0
- integer, parameter :: ayear=1, amonth=2
- integer :: imr, jmr, lmr, lsec, i1, i2, j1, j2
- type(d3_data), dimension(nregions) :: emis3d, work, work3d
- type(emis_data) :: wrk2D(nregions)
- #ifdef with_m7
- real :: mass2numb_acs, mass2numb_ais, mass2numb_cos
- real :: numbscale, sfacacs, sfacais, sfaccos
- #endif
- ! ---------------------------------------------------------------
- real, dimension(:,:,:), allocatable :: field3d, field3d2
- integer :: seccount2d, seccount3d
- ! --- begin ----------------------------
- status = 0
- if(.not. has_emis) return
-
- write(gol,'(" EMISS-INFO ------------- read SOx emissions -------------")'); call goPr
- do region = 1, nregions
- do lsec=1,so2_2dsec
- so2_emis_2d(region,lsec)%surf = 0.0
- end do
- do lsec=1,so2_3dsec
- so2_emis_3d(region,lsec)%d3 = 0.0
- end do
- CALL GET_DISTGRID( dgrid(region), I_STRT=i1, I_STOP=i2, J_STRT=j1, J_STOP=j2 )
- lmr = lm(region)
-
- allocate( work3d(region)%d3 (i1:i2,j1:j2, ar5_dim_3ddata) ) ; work3d(region)%d3 = 0.0
- allocate( emis3d(region)%d3 (i1:i2,j1:j2, lmr ) ) ; emis3d(region)%d3 = 0.0
- end do
- ! global arrays for coarsening
- do region = 1, nregions
- if (isRoot)then
- allocate(work(region)%d3(im(region),jm(region),ar5_dim_3ddata))
- else
- allocate(work(region)%d3(1,1,1))
- end if
- enddo
- do region = 1, nregions
- wrk2D(region)%surf => work(region)%d3(:,:,1)
- end do
- ! --------------------------------
- ! do a loop over available sectors
- ! --------------------------------
- ! count 2d and 3d sectors
- seccount2d = 0
- seccount3d = 0
-
- ! always allocate here 3d data set (for 2d sectors it will be filled in first layer only)
- if (isRoot) then
- allocate( field3d( nlon360, nlat180, ar5_dim_3ddata ) ) ; field3d = 0.0
- else
- allocate( field3d( 1, 1, 1 ) )
- end if
- sec : do lsec = 1, numb_sectors
- if (count(used_providers.eq.sectors_def(lsec)%prov).eq.0) cycle
- if ((trim(sectors_def(lsec)%prov).eq.'ED42') .and. (count(ed42_so2_sectors.eq.sectors_def(lsec)%name) .eq. 0)) cycle
- if (associated(sectors_def(lsec)%species)) then ! AR5 check
- if (count('SO2'.eq.sectors_def(lsec)%species).eq.0) cycle
- if ((trim(sectors_def(lsec)%catname) .eq. 'biomassburning').and.(.not.LAR5BMB)) cycle
- endif
-
- field3d = 0.0
- if( sectors_def(lsec)%f3d ) then
- seccount3d = seccount3d + 1
- else
- seccount2d = seccount2d + 1
- end if
- if (isRoot) then ! READ
- select case( trim(sectors_def(lsec)%prov) )
- case( 'CMIP6' )
- call emission_cmip6_ReadSector( 'SO2', emis_input_year_sox, idate(2), lsec, field3d, status )
- IF_NOTOK_RETURN(status=1;deallocate(field3d))
- case( 'CMIP6BMB' )
- call emission_cmip6bmb_ReadSector( 'SO2', emis_input_year_sox, idate(2), lsec, field3d, status )
- IF_NOTOK_RETURN(status=1;deallocate(field3d))
- case( 'AR5' )
-
- ! Screen out agricultural and solvent sectors for SO2,
- ! because they are zero in the RCPs
- ! and not present in the historical files.
- if (trim(sectors_def(lsec)%name) .ne. 'emiss_agr' .and. &
- trim(sectors_def(lsec)%name) .ne. 'emiss_slv') then
- call emission_ar5_ReadSector( 'SO2', emis_input_year_sox, idate(2), lsec, field3d, status )
- IF_NOTOK_RETURN(status=1)
- endif
- case( 'MACC' )
- ! screen out sectors w/o SO2 (soil, bio, oc)
- if ( ( .not. (trim(sectors_def(lsec)%name) .eq. 'emiss_soil')) .and. &
- ( .not. (trim(sectors_def(lsec)%name) .eq. 'emiss_bio') ) .and. &
- ( .not. (trim(sectors_def(lsec)%name) .eq. 'emiss_air') ) .and. &
- ( .not. (trim(sectors_def(lsec)%name) .eq. 'emiss_oc') ) ) then
- if (trim(sectors_def(lsec)%catname) .eq. 'natural') then
- call emission_macc_ReadSector( emis_input_dir_mac, 'SO2', emis_input_year_nat, idate(2), &
- '0.5x0.5_kg.nc', sectors_def(lsec)%name, 'kg / s', field3d, status )
- IF_NOTOK_RETURN(status=1)
- else
- call emission_macc_ReadSector( emis_input_dir_mac, 'SO2', emis_input_year_sox, idate(2), &
- '0.5x0.5_kg.nc', sectors_def(lsec)%name, 'kg / s', field3d, status )
- IF_NOTOK_RETURN(status=1)
- endif
-
- endif
- case( 'ED41' )
- select case(trim(sectors_def(lsec)%name))
- case ('1A3b_c_e','1A3d_SHIP','1A3d1')
- call emission_ed4_ReadSector( emis_input_dir_ed4, 'SO2', 'so2', 2005, idate(2), &
- lsec, trim(sectors_def(lsec)%prov), 'kg / s', field3d, status )
- IF_NOTOK_RETURN(status=1)
- field3d = field3d * xmso2/xms
- end select
- case( 'ED42' )
- ! biomass burning (GFED/RETRO/AR5BMB) and transport (ED41) are excluded through ED42_SO2_SECTORS definition
- call emission_ed4_ReadSector( emis_input_dir_ed4, 'SO2', 'so2', emis_input_year_sox, idate(2), &
- lsec, trim(sectors_def(lsec)%prov), 'kg / s', field3d, status )
- IF_NOTOK_RETURN(status=1)
- field3d = field3d * xmso2/xms
- case('GFEDv3')
- call emission_gfed_ReadSector( emis_input_dir_gfed, 'so2', emis_input_year_sox, idate(2), &
- sectors_def(lsec)%name, 'kg / s', field3d(:,:,1), status )
- IF_NOTOK_RETURN(status=1)
- case('RETRO')
- call emission_retro_ReadSector( emis_input_dir_retro, 'SO2', emis_input_year_sox, idate(2), &
- sectors_def(lsec)%name, 'kg / s', field3d(:,:,1), status )
- IF_NOTOK_RETURN(status=1)
-
- case('MEGAN')
- !
- ! No biogenic emission of SO2 in the MEGAN inventory
- !
- case('DUMMY')
- case default
- write(gol,*) "Error in buidling list of providers USED_PROVIDERS"; call goErr
- status=1; TRACEBACK; return
- end select
- ! nothing found???
- if( sum(field3d) < 100.*TINY(1.0) ) then
- if (okdebug) then
- write(gol,'("EMISS-INFO - no SO2 emissions found for ",a," ",a," for month ",i2 )') &
- trim(sectors_def(lsec)%prov), trim(sectors_def(lsec)%name), idate(2) ; call goPr
- endif
- hasData=0
- else
- if (okdebug) then
- write(gol,'("EMISS-INFO - found SO2 emissions for ",a," ",a," for month ",i2 )') &
- trim(sectors_def(lsec)%prov), trim(sectors_def(lsec)%name), idate(2) ; call goPr
- endif
- field3d = field3d * sec_month ! from kg(SO2)/s to kg(SO2)/month
- hasData=1
- end if
- end if
- call Par_broadcast(hasData, status)
- IF_NOTOK_RETURN(status=1)
- if (hasData == 0) then
- cycle sec
- else
- if ( sectors_def(lsec)%f3d ) then
- has_data_3d(seccount3d)=.true.
- else
- has_data_2d(seccount2d)=.true.
- end if
- end if
- ! Distinguish 2d/3d sectors
- if( sectors_def(lsec)%f3d ) then
- ! ---------------------------------------
- ! 3d data (AIRCRAFT), available for CMIP6
- ! ---------------------------------------
- if (isRoot) then
-
- ! write some numbers
- call msg_emis( amonth, trim(sectors_def(lsec)%prov), sectors_def(lsec)%name, 'SO2', xmso2, sum(field3d) )
- ! distribute to work arrays in regions
- call Coarsen_Emission( 'SO2 '//trim(sectors_def(lsec)%name), nlon360, nlat180, ar5_dim_3ddata, &
- field3d, work, add_field, status )
- IF_NOTOK_RETURN(status=1)
- end if
- ! scatter, sum up on target array
- do region = 1, nregions
- call scatter(dgrid(region), work3d(region)%d3, work(region)%d3, 0, status)
- IF_NOTOK_RETURN( status=1 )
- CALL GET_DISTGRID( dgrid(region), I_STRT=i1, J_STRT=j1)
- ! aircraft data: regrid vertically to model layers
- call emission_ar5_regrid_aircraft( region, i1, j1, work3d(region)%d3, emis3d(region)%d3, status )
- IF_NOTOK_RETURN( status=1 )
- so2_emis_3d(region,seccount3d)%d3 = so2_emis_3d(region,seccount3d)%d3 + emis3d(region)%d3
-
- end do
- else ! ar5_sector is 2d
- ! ---------------------------
- ! 2d data (Anthropogenic, Ships, Biomassburning)
- ! ---------------------------
- if (isRoot) then ! print total & regrid
- call msg_emis( amonth, trim(sectors_def(lsec)%prov),sectors_def(lsec)%name, 'SO2', xmso2, sum(field3d(:,:,1)) )
-
- call coarsen_emission( 'SO2 '//sectors_def(lsec)%name, &
- nlon360, nlat180, field3d(:,:,1), wrk2D, add_field, status )
- IF_NOTOK_RETURN(status=1)
- end if
- do region = 1, nregions
- call scatter(dgrid(region), so2_emis_2d(region,seccount2d)%surf, work(region)%d3(:,:,1), 0, status)
- IF_NOTOK_RETURN(status=1)
- end do
- end if ! 2D/3D
- end do sec ! sectors
- ! Cleanup
- deallocate( field3d )
- do region = 1, nregions
- if (associated(wrk2D(region)%surf)) nullify(wrk2D(region)%surf)
- deallocate( work(region)%d3 )
- deallocate( work3d(region)%d3 )
- end do
-
- ! check sectors found
- if( seccount2d /= so2_2dsec ) then
- write(gol,'(80("-"))') ; call goPr
- write(gol,'("ERROR: 2d sectors do not equal total number:",i4," /= ",i4," !")') seccount2d, so2_2dsec ; call goErr
- write(gol,'(80("-"))') ; call goPr
- status=1; return
- end if
- if( seccount3d /= so2_3dsec ) then
- write(gol,'(80("-"))') ; call goPr
- write(gol,'("ERROR: 3d sectors do not equal total number:",i4," /= ",i4," !")') seccount3d, so2_3dsec ; call goErr
- write(gol,'(80("-"))') ; call goPr
- status=1; return
- end if
- #ifdef with_m7
- ! do SO4 partitioning from SO2 emissions
- ! --------------------------------
- ! do a loop over available sectors
- ! --------------------------------
- ! count 2d and 3d sectors
- seccount2d = 0
- seccount3d = 0
- do lsec = 1, numb_sectors
- if (count(used_providers.eq.sectors_def(lsec)%prov).eq.0) cycle
-
- if ((trim(sectors_def(lsec)%prov).eq.'ED42') .and. (count(ed42_so2_sectors.eq.sectors_def(lsec)%name) .eq. 0)) cycle
-
- if (associated(sectors_def(lsec)%species)) then ! AR5 check
- if (count('SO2'.eq.sectors_def(lsec)%species).eq.0) cycle
- if ((trim(sectors_def(lsec)%catname) .eq. 'biomassburning').and.(.not.LAR5BMB)) cycle
- endif
-
- if( sectors_def(lsec)%f3d ) then
- seccount3d = seccount3d + 1
- if (.not.has_data_3d(seccount3d)) cycle
- else
- seccount2d = seccount2d + 1
- if (.not.has_data_2d(seccount2d)) cycle
- end if
- !>>> TvN
- select case( trim(sectors_def(lsec)%vdisttype) )
- !case( 'industry' )
- case ( 'industry', 'combenergy' )
- sfacais = 0.0 * xmso4 / xmso2 * frac_so4
- !sfacacs = 1.0 * xmso4 / xmso2 * frac_so4
- sfacacs = 0.5 * xmso4 / xmso2 * frac_so4
- sfaccos = 0.5 * xmso4 / xmso2 * frac_so4
- case ( 'volcanic' )
- sfacais = 0.5 * xmso4 / xmso2 * frac_so4
- sfacacs = 0.5 * xmso4 / xmso2 * frac_so4
- sfaccos = 0.0 * xmso4 / xmso2 * frac_so4
- case default
- select case ( trim(sectors_def(lsec)%catname) )
- case ('ships')
- ! as industry and power plants
- sfacais = 0.0 * xmso4 / xmso2 * frac_so4
- sfacacs = 0.5 * xmso4 / xmso2 * frac_so4
- sfaccos = 0.5 * xmso4 / xmso2 * frac_so4
- case ( 'biomassburning')
- sfacais = 0.0 * xmso4 / xmso2 * frac_so4
- sfacacs = 1.0 * xmso4 / xmso2 * frac_so4
- sfaccos = 0.0 * xmso4 / xmso2 * frac_so4
- case default
- ! e.g. traffic, domestic
- sfacais = 1.0 * xmso4 / xmso2 * frac_so4
- sfacacs = 0.0 * xmso4 / xmso2 * frac_so4
- sfaccos = 0.0 * xmso4 / xmso2 * frac_so4
- end select
- end select
- !<<< TvN
- ! mass to number factors for these two modes
- !>>> TvN
- ! The mass2numb conversion factors have been
- ! slightly enhanced to account for the small contribution
- ! from the hydrogen ions to the mass,
- ! since so4_density is the density of sulfuric acid.
- numbscale = rad_so4_ait*EXP(1.5*(LOG(sigma_lognormal(mode_ais)))**2)
- mass2numb_ais = h2so4_factor*3./(4.*pi*numbscale**3*so4_density)
- numbscale = rad_so4_acc*EXP(1.5*(LOG(sigma_lognormal(mode_acs)))**2)
- mass2numb_acs = h2so4_factor*3./(4.*pi*numbscale**3*so4_density)
- numbscale = rad_so4_coa*EXP(1.5*(LOG(sigma_lognormal(mode_cos)))**2)
- mass2numb_cos = h2so4_factor*3./(4.*pi*numbscale**3*so4_density)
- !<<< TvN
- do region = 1, nregions
- ! allocate helper array
- call get_distgrid( dgrid(region), I_STRT=i1, I_STOP=i2, J_STRT=j1, J_STOP=j2 )
- lmr = lm(region)
- allocate( field3d(i1:i2,j1:j2,lmr) )
- ! distinguish 2d/3d sectors
- if( sectors_def(lsec)%f3d ) then
- field3d = so2_emis_3d(region,seccount3d)%d3
- else
- emis3d(region)%d3 = 0.0
- ! do vertical distribution
- call emission_vdist_by_sector( sectors_def(lsec)%vdisttype, 'SO2', region, so2_emis_2d(region,seccount2d), &
- emis3d(region), status )
- IF_NOTOK_RETURN(status=1;deallocate(field3d))
- field3d = emis3d(region)%d3
- end if
- ! finally add it to the emis target arrays according to the splitting above
- ! AIS
- emis_mass (region,mode_ais)%d4(:,:,:,1) = &
- emis_mass (region,mode_ais)%d4(:,:,:,1) + field3d * sfacais
- ! scale mass to get number
- emis_number(region,mode_ais)%d4(:,:,:,1) = &
- emis_number(region,mode_ais)%d4(:,:,:,1) + field3d * sfacais * mass2numb_ais
- ! ACS
- emis_mass (region,mode_acs)%d4(:,:,:,1) = &
- emis_mass (region,mode_acs)%d4(:,:,:,1) + field3d * sfacacs
- ! scale mass to get number
- emis_number(region,mode_acs)%d4(:,:,:,1) = &
- emis_number(region,mode_acs)%d4(:,:,:,1) + field3d * sfacacs * mass2numb_acs
- !>>> TvN
- ! COS
- emis_mass (region,mode_cos)%d4(:,:,:,1) = &
- emis_mass (region,mode_cos)%d4(:,:,:,1) + field3d * sfaccos
- ! scale mass to get number
- emis_number(region,mode_cos)%d4(:,:,:,1) = &
- emis_number(region,mode_cos)%d4(:,:,:,1) + field3d * sfaccos * mass2numb_cos
- !<<< TvN
- deallocate( field3d )
- end do ! regions
- end do ! sectors
- do region = 1, nregions
- deallocate( emis3d(region)%d3 )
- end do
- #endif /* ifdef M7 */
- END SUBROUTINE EMISSION_SOX_DECLARE
- !EOC
-
- !--------------------------------------------------------------------------
- ! TM5 !
- !--------------------------------------------------------------------------
- !BOP
- !
- ! !IROUTINE: EMISSION_SOX_APPLY
- !
- ! !DESCRIPTION: Take monthly emissions, and
- ! - split them vertically
- ! - apply time splitting factors
- ! - add them up (add_3d)
- !\\
- !\\
- ! !INTERFACE:
- !
- SUBROUTINE EMISSION_SOX_APPLY( region, status )
- !
- ! !USES:
- !
- use dims, only : itaur, nsrce, tref
- use dims, only : im, jm, lm
- use datetime, only : tau2date
- use emission_data, only : frac_so4
- use emission_data, only : emission_vdist_by_sector, LAR5BMB
- use emission_data, only : do_add_3d, do_add_3d_cycle, bb_cycle
- use emission_data, only : emis_bb_trop_cycle
- use emission_read , only : ed42_so2_sectors
- use chem_param, only : inh3, xmnh3, xmn
- use emission_read, only : sectors_def, numb_sectors
- use chem_param, only : xmso2, xms, iso2, iso4
- use chem_param, only : xmh2so4
- !
- ! !INPUT PARAMETERS:
- !
- integer, intent(in) :: region
- !
- ! !OUTPUT PARAMETERS:
- !
- integer, intent(out) :: status
- !
- ! !REVISION HISTORY:
- ! 1 Oct 2010 - Achim Strunk - AR5 version
- ! 27 Jun 2012 - Ph. Le Sager - adapted for lon-lat MPI domain decomposition
- !
- ! !REMARKS:
- !
- !EOP
- !------------------------------------------------------------------------
- !BOC
- character(len=*), parameter :: rname = mname//'/emission_sox_apply'
- integer, dimension(6) :: idater
- real :: dtime, fraction, sfrac
- integer :: imr, jmr, lmr, lsec, i1, i2, j1, j2
- integer :: seccount2d, seccount3d
- type(d3_data) :: emis3d
- ! --- begin -----------------------------------------
- status = 0
- if(.not. has_emis) return
- if( okdebug ) then
- write(gol,*) 'start of emission_sox_apply'; call goPr
- end if
-
- call tau2date(itaur(region),idater)
- dtime=float(nsrce)/(2*tref(region)) !emissions are added in two steps...XYZECCEZYX.
- ! get a working structure for 3d emissions
- call get_distgrid( dgrid(region), I_STRT=i1, I_STOP=i2, J_STRT=j1, J_STOP=j2 )
- allocate( emis3d%d3(i1:i2,j1:j2,lm(region)) ) ; emis3d%d3 = 0.0
- ! count 2d and 3d sectors
- seccount2d = 0
- seccount3d = 0
- ! cycle over sectors
- do lsec = 1, numb_sectors
- if (count(used_providers.eq.sectors_def(lsec)%prov).eq.0) cycle
-
- if ((trim(sectors_def(lsec)%prov).eq.'ED42') .and. (count(ed42_so2_sectors.eq.sectors_def(lsec)%name) .eq. 0)) cycle
-
- if (associated(sectors_def(lsec)%species)) then ! AR5 check
- if (count('SO2'.eq.sectors_def(lsec)%species).eq.0) cycle
- if ((trim(sectors_def(lsec)%catname) .eq. 'biomassburning').and.(.not.LAR5BMB)) cycle
- endif
- ! default: no additional splitting
- fraction = 1.0
- ! ----------------------------------------------------------------------------------------
- ! distinguish here between sectors and whether they should have additional splitting, e.g.,
- ! if( sectors_def(lsec)%catname == 'biomassburning' ) fraction = fraction * bb_frac etc...
- ! ----------------------------------------------------------------------------------------
- ! distinguish between 2d/3d sectors
- if( sectors_def(lsec)%f3d ) then
- seccount3d = seccount3d + 1
- if (.not.has_data_3d(seccount3d)) cycle
- emis3d%d3 = so2_emis_3d(region,seccount3d)%d3
- else
- seccount2d = seccount2d + 1
- if (.not.has_data_2d(seccount2d)) cycle
- emis3d%d3 = 0.0
- ! vertically distribute according to sector
- call emission_vdist_by_sector( sectors_def(lsec)%vdisttype, 'SO2', region, so2_emis_2d(region,seccount2d), emis3d, status)
- IF_NOTOK_RETURN(status=1;deallocate(emis3d%d3))
- end if
- ! SO2: sfrac = fraction * (1.-frac_so4)
- sfrac = fraction * (1.0 - frac_so4)
- ! add dataset according to sector and category
- if( emis_bb_trop_cycle .and. trim(sectors_def(lsec)%catname) == "biomassburning" ) then
- call do_add_3d_cycle( region, iso2, i1, j1, emis3d%d3, bb_cycle(region)%scalef, xmso2, xmso2, status, sfrac )
- IF_NOTOK_RETURN(status=1)
- else
- call do_add_3d( region, iso2, i1, j1, emis3d%d3, xmso2, xmso2, status, sfrac )
- IF_NOTOK_RETURN(status=1)
- end if
-
- #ifndef with_m7
- ! SO4: sfrac = fraction * frac_so4
- sfrac = fraction * frac_so4
- ! add dataset according to sector and category
- if( emis_bb_trop_cycle .and. trim(sectors_def(lsec)%catname) == "biomassburning" ) then
- call do_add_3d_cycle( region, iso4, i1, j1, emis3d%d3, bb_cycle(region)%scalef, xmh2so4, xmso2, status, sfrac )
- IF_NOTOK_RETURN(status=1)
- else
- call do_add_3d( region, iso4, i1, j1, emis3d%d3, xmh2so4, xmso2, status, sfrac )
- IF_NOTOK_RETURN(status=1)
- end if
- #endif
- end do ! sectors_def
- deallocate( emis3d%d3 )
- if(okdebug) then
- write(gol,*) 'end of emission_sox_apply'; call goPr
- endif
- ! OK
- status = 0
- END SUBROUTINE EMISSION_SOX_APPLY
- !EOC
-
- END MODULE EMISSION_SOX
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