! This SUBROUTINE calculates the emissions of BLACK CARBON and ORGANIC ! MATTER SUBROUTINE finemission(zdz, pdtphys, zalt, kminbc, kmaxbc, & scale_param_bb, scale_param_ff, & iregion_ind, iregion_bb, & nbreg_ind, nbreg_bb, & lmt_bcff, lmt_bcnff, lmt_bcbb_l, lmt_bcbb_h, & lmt_bcba, lmt_omff, lmt_omnff, lmt_ombb_l, & lmt_ombb_h, lmt_omnat, lmt_omba, id_fine, & flux_sparam_bb, flux_sparam_ff, & source_tr, flux_tr, tr_seri) USE dimphy USE indice_sol_mod USE infotrac ! USE phytracr_spl_mod, ONLY: nbreg_dust, nbreg_ind, nbreg_bb IMPLICIT NONE INCLUDE "dimensions.h" INCLUDE "chem.h" INCLUDE "YOMCST.h" INCLUDE "paramet.h" INTEGER :: i, k, kminbc, kmaxbc !============================= INPUT =================================== REAL :: pdtphys ! pas d'integration pour la physique (seconde) REAL :: zalt(klon, klev) REAL :: zdz(klon, klev) ! !------------------------- Scaling Parameters -------------------------- ! INTEGER :: nbreg_ind, nbreg_bb INTEGER :: iregion_ind(klon) !Defines regions for SO2, BC & OM INTEGER :: iregion_bb(klon) !Defines regions for SO2, BC & OM REAL :: scale_param_bb(nbreg_bb) !Scaling parameter for biomas burning REAL :: scale_param_ff(nbreg_ind) !Scaling parameter for industrial emissions (fossil fuel) INTEGER :: id_fine !============================= OUTPUT ================================== REAL :: source_tr(klon, nbtr) REAL :: flux_tr(klon, nbtr) REAL :: tr_seri(klon, klev, nbtr) ! traceur REAL :: flux_sparam_bb(klon), flux_sparam_ff(klon) !========================= LOCAL VARIABLES ============================= REAL :: zzdz !------------------------- BLACK CARBON emissions ---------------------- REAL :: lmt_bcff(klon) ! emissions de BC fossil fuels REAL :: lmt_bcnff(klon) ! emissions de BC non-fossil fuels REAL :: lmt_bcbb_l(klon) ! emissions de BC biomass basses REAL :: lmt_bcbb_h(klon) ! emissions de BC biomass hautes REAL :: lmt_bcba(klon) ! emissions de BC bateau !------------------------ ORGANIC MATTER emissions --------------------- REAL :: lmt_omff(klon) ! emissions de OM fossil fuels REAL :: lmt_omnff(klon) ! emissions de OM non-fossil fuels REAL :: lmt_ombb_l(klon) ! emissions de OM biomass basses REAL :: lmt_ombb_h(klon) ! emissions de OM biomass hautes REAL :: lmt_omnat(klon) ! emissions de OM Natural REAL :: lmt_omba(klon) ! emissions de OM bateau EXTERNAL condsurfc !======================================================================== ! LOW LEVEL EMISSIONS !======================================================================== ! corresponds to bc_source.EQ.3 DO i = 1, klon IF (iregion_ind(i)>0) THEN IF(id_fine>0) source_tr(i, id_fine) = source_tr(i, id_fine) + & (scale_param_ff(iregion_ind(i)) * lmt_bcff(i) + & !g/m2/s scale_param_ff(iregion_ind(i)) * lmt_omff(i) & ) * 1.e4 !g/m2/s ! IF(id_fine>0) flux_tr(i, id_fine) = flux_tr(i, id_fine) + & (scale_param_ff(iregion_ind(i)) * lmt_bcff(i) + & !mg/m2/s scale_param_ff(iregion_ind(i)) * lmt_omff(i) & ) * 1.e4 * 1.e3 !mg/m2/s ! flux_sparam_ff(i) = flux_sparam_ff(i) + & scale_param_ff(iregion_ind(i)) * & (lmt_bcff(i) + lmt_omff(i)) & * 1.e4 * 1.e3 ENDIF IF (iregion_bb(i)>0) THEN IF(id_fine>0) source_tr(i, id_fine) = source_tr(i, id_fine) + & (scale_param_bb(iregion_bb(i)) * lmt_bcbb_l(i) + & !g/m2/s scale_param_bb(iregion_bb(i)) * lmt_ombb_l(i) & !g/m2/s ) * 1.e4 !g/m2/s ! IF(id_fine>0) flux_tr(i, id_fine) = flux_tr(i, id_fine) + & (scale_param_bb(iregion_bb(i)) * lmt_bcbb_l(i) + & !mg/m2/s scale_param_bb(iregion_bb(i)) * lmt_ombb_l(i) + & !mg/m2/s scale_param_bb(iregion_bb(i)) * lmt_bcbb_h(i) + & !mg/m2/s scale_param_bb(iregion_bb(i)) * lmt_ombb_h(i) & !mg/m2/s ) * 1.e4 * 1.e3 !mg/m2/s ! flux_sparam_bb(i) = flux_sparam_bb(i) + & scale_param_bb(iregion_bb(i)) * (lmt_bcbb_l(i) + & lmt_bcbb_h(i) + lmt_ombb_l(i) + lmt_ombb_h(i)) & * 1.e4 * 1.e3 ENDIF IF(id_fine>0) source_tr(i, id_fine) = source_tr(i, id_fine) + & (lmt_bcnff(i) + lmt_bcba(i) + lmt_omnff(i) + & lmt_omnat(i) + lmt_omba(i)) * 1.e4 !g/m2/s ! IF(id_fine>0) flux_tr(i, id_fine) = flux_tr(i, id_fine) + & (lmt_bcnff(i) + lmt_omnff(i) + lmt_omnat(i) + & lmt_omba(i) + lmt_bcba(i)) * 1.e4 * 1.e3 !mg/m2/s ! flux_sparam_ff(i) = flux_sparam_ff(i) + & (lmt_omba(i) + lmt_bcba(i)) * 1.e4 * 1.e3 ENDDO !======================================================================== ! HIGH LEVEL EMISSIONS !======================================================================== ! Sources hautes de BC/OM ! ! HIGH LEVEL EMISSIONS OF SO2 ARE IN PRECUREMISSION.F ! k = 2 !introducing emissions in level 2 !nhl DO i = 1, klon ! !nhl tr_seri(i,k,id_fine)=tr_seri(i,k,id_fine)+scale_param_ff(iregion_ind(i))* !nhl . (lmt_bcff_h(i)+lmt_omff_h(i))/zdz(i,k)/100.*pdtphys ! !nhl ENDDO DO k = kminbc, kmaxbc DO i = 1, klon zzdz = zalt(i, kmaxbc + 1) - zalt(i, kminbc) ! IF (iregion_bb(i) >0) THEN IF(id_fine>0) tr_seri(i, k, id_fine) = tr_seri(i, k, id_fine) + & (scale_param_bb(iregion_bb(i)) * lmt_bcbb_h(i) + & scale_param_bb(iregion_bb(i)) * lmt_ombb_h(i)) & / zzdz / 100. * pdtphys ENDIF ! ENDDO ENDDO ! END SUBROUTINE finemission