!### macro's ##################################################### ! #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: deposition_data ! ! !DESCRIPTION: Dry Deposition Constants !\\ !\\ ! !INTERFACE: ! module deposition_data ! ! !USES: ! use GO, only : gol, goPr, goErr implicit none public ! ! !PUBLIC DATA MEMBERS: ! ! ! -- definition of terms which correct for the diffusivity ! for the computation of the boundary layer resistance, (v/D)**2/3 ! v = 0.189 cm2 s-1 (heat) and D from DH2O/DX where DH2O=0.212 ! integer, parameter :: diffrb_o3 = 1.2 integer, parameter :: diffrb_hno3 = 1.4 integer, parameter :: diffrb_no = 1.1 integer, parameter :: diffrb_no2 = 1.2 integer, parameter :: diffrb_so2 = 1.4 integer, parameter :: diffrb_so4 = 999. integer, parameter :: diffrb_h2o2 = 1.2 integer, parameter :: diffrb_ald2 = 1.4 integer, parameter :: diffrb_mald = 1.4 integer, parameter :: diffrb_ch2o = 1.1 integer, parameter :: diffrb_ch3o2h = 1.3 integer, parameter :: diffrb_nh3 = 0.9 integer, parameter :: diffrb_pan = 1.7 integer, parameter :: diffrb_co = 1.2 integer, parameter :: diffrb_ch3coo2h = 1.5 integer, parameter :: diffrb_hcooh = 1.3 integer, parameter :: diffrb_hno2 = 1.3 integer, parameter :: diffrb_hno4 = 0.0 ! <--- dummy ! ! -- parallel soil resistance, the resistances of the trace gases ! of the Wesely scheme are calculated assuming a O3 soil resistance ! of 400 s m-1, for SO2 rsoil=100 s m-1 and the wet skin resistance of ! O3 is 2000 s m-1 whereas rws SO2 is 100 s m-1. ! integer, parameter :: rsoil_o3 = 400.0 integer, parameter :: rsoil_hno3 = 1.0 integer, parameter :: rsoil_no = 1.0e+5 integer, parameter :: rsoil_no2 = 600.0 integer, parameter :: rsoil_so2 = 100.0 integer, parameter :: rsoil_so4 = 999. integer, parameter :: rsoil_h2o2 = 80.0 integer, parameter :: rsoil_mald = 1.e+5 integer, parameter :: rsoil_ald2 = 1.0e+5 integer, parameter :: rsoil_ch2o = 1666.0 integer, parameter :: rsoil_ch3o2h = 3650.0 integer, parameter :: rsoil_nh3 = 100.0 integer, parameter :: rsoil_pan = 3994.0 integer, parameter :: rsoil_co = 5000.0 integer, parameter :: rsoil_ch3coo2h = 3290.0 integer, parameter :: rsoil_hcooh = 1.0 integer, parameter :: rsoil_hno2 = 97.0 integer, parameter :: rsoil_hno4 = 0.0 ! <--- dummy ! ! -- sea water resistance, which is generally similar to the wet skin ! resistance except of that for SO2 due to a different pH of sea water ! compared to the pH of a wet canopy ! note for ammonia ocean emissions we use 2-way exchange approach FD ! integer, parameter :: rwat_o3 = 2000.0 integer, parameter :: rwat_hno3 = 1.0 integer, parameter :: rwat_no = 1.0e+5 integer, parameter :: rwat_no2 = 3000.0 integer, parameter :: rwat_so2 = 1.0 integer, parameter :: rwat_so4 = 999.0 integer, parameter :: rwat_h2o2 = 72.0 integer, parameter :: rwat_mald = 300.0 integer, parameter :: rwat_ald2 = 300.0 integer, parameter :: rwat_ch2o = 254.0 integer, parameter :: rwat_ch3o2h = 293.0 integer, parameter :: rwat_nh3 = 1.0 integer, parameter :: rwat_pan = 295.0 integer, parameter :: rwat_co = 1.0e+5 integer, parameter :: rwat_ch3coo2h = 291.0 integer, parameter :: rwat_hcooh = 1.0 integer, parameter :: rwat_hno2 = 75.0 integer, parameter :: rwat_hno4 = 0.0 ! <--- dummy ! ! -- wet skin reservoir resistance ! integer, parameter :: rws_o3 = 2000.0 integer, parameter :: rws_hno3 = 1.0 integer, parameter :: rws_no = 1.0e+5 integer, parameter :: rws_no2 = 3000.0 integer, parameter :: rws_so2 = 100.0 integer, parameter :: rws_so4 = 999.0 integer, parameter :: rws_h2o2 = 72.0 integer, parameter :: rws_mald = 300.0 integer, parameter :: rws_ald2 = 300.0 integer, parameter :: rws_ch2o = 254.0 integer, parameter :: rws_ch3o2h = 293.0 integer, parameter :: rws_nh3 = 1.0 integer, parameter :: rws_pan = 295.0 integer, parameter :: rws_co = 1.0e+5 integer, parameter :: rws_ch3coo2h = 291.0 integer, parameter :: rws_hno2 = 75.0 integer, parameter :: rws_hcooh = 1.0 integer, parameter :: rws_hno4 = 0.0 ! <--- dummy ! ! -- snow resistance, the snow/ice resistances of the trace gases ! of Wesely's scheme are taken same as that of the rsoil and corrected ! for temperatures smaller than 271 K ! integer, parameter :: rsnow_o3 = 2000.0 integer, parameter :: rsnow_hno3 = 1.0 integer, parameter :: rsnow_no = 1.0e+5 integer, parameter :: rsnow_no2 = 3000.0 integer, parameter :: rsnow_so2 = 1.0 integer, parameter :: rsnow_so4 = 999.0 integer, parameter :: rsnow_h2o2 = 80.0 integer, parameter :: rsnow_mald = 1.0e+5 integer, parameter :: rsnow_ald2 = 1.0e+5 integer, parameter :: rsnow_ch2o = 1666.0 integer, parameter :: rsnow_ch3o2h = 3650.0 integer, parameter :: rsnow_nh3 = 1.0e5 integer, parameter :: rsnow_pan = 3394.0 integer, parameter :: rsnow_co = 1.0e5 integer, parameter :: rsnow_ch3coo2h = 3290.0 integer, parameter :: rsnow_hcooh = 1.0e+5 integer, parameter :: rsnow_hno2 = 97.0 integer, parameter :: rsnow_hno4 = 0.0 ! <--- dummy ! ! -- mesophyll resistance ! integer, parameter :: rmes_o3 = 1.0 integer, parameter :: rmes_hno3 = 1.0 integer, parameter :: rmes_no = 500.0 integer, parameter :: rmes_no2 = 1.0 integer, parameter :: rmes_so2 = 1.0 integer, parameter :: rmes_so4 = 999.0 integer, parameter :: rmes_h2o2 = 1.0 integer, parameter :: rmes_mald = 200.0 integer, parameter :: rmes_ald2 = 200.0 integer, parameter :: rmes_ch2o = 1.0 integer, parameter :: rmes_ch3o2h = 1.0 integer, parameter :: rmes_nh3 = 1.0 integer, parameter :: rmes_pan = 1.0 integer, parameter :: rmes_co = 5000.0 integer, parameter :: rmes_ch3coo2h = 1.0 integer, parameter :: rmes_hcooh = 1.0 integer, parameter :: rmes_hno2 = 1.0 integer, parameter :: rmes_hno4 = 0.0 ! <--- dummy ! ! -- cuticle resistance ! integer, parameter :: rcut_o3 = 1.0e+5 integer, parameter :: rcut_hno3 = 1.0 integer, parameter :: rcut_no = 1.0e+5 integer, parameter :: rcut_no2 = 1.0e+5 integer, parameter :: rcut_so2 = 1.0e+5 integer, parameter :: rcut_so4 = 999. integer, parameter :: rcut_h2o2 = 1.0e+5 integer, parameter :: rcut_mald = 1.0e+5 integer, parameter :: rcut_ald2 = 1.0e+5 integer, parameter :: rcut_ch2o = 1.0e+5 integer, parameter :: rcut_ch3o2h = 1.0e+5 integer, parameter :: rcut_nh3 = 1.0e+5 integer, parameter :: rcut_pan = 1.0e+5 integer, parameter :: rcut_co = 1.0e+5 integer, parameter :: rcut_ch3coo2h = 1.0e+5 integer, parameter :: rcut_hcooh = 2500.0 integer, parameter :: rcut_hno2 = 1.0e+5 integer, parameter :: rcut_hno4 = 0.0 ! <--- dummy ! ! -- Diffusivity coefficent, to correct stomatal resistance for differences ! in diffusivity between water vapour and the specific trace gas ! integer, parameter :: diffcf_o3 = 1.6 integer, parameter :: diffcf_hno3 = 1.9 integer, parameter :: diffcf_no = 1.3 integer, parameter :: diffcf_no2 = 1.6 integer, parameter :: diffcf_so2 = 1.9 integer, parameter :: diffcf_so4 = 999. integer, parameter :: diffcf_h2o2 = 1.4 integer, parameter :: diffcf_mald = 1.6 integer, parameter :: diffcf_ald2 = 1.6 integer, parameter :: diffcf_ch2o = 1.3 integer, parameter :: diffcf_ch3o2h = 1.6 integer, parameter :: diffcf_nh3 = 1.0 integer, parameter :: diffcf_pan = 2.6 integer, parameter :: diffcf_co = 1.2 integer, parameter :: diffcf_ch3coo2h = 2.0 integer, parameter :: diffcf_hcooh = 1.6 integer, parameter :: diffcf_hno2 = 1.6 integer, parameter :: diffcf_hno4 = 0.0 ! <--- dummy ! ! !REVISION HISTORY: ! 25 Mar 2010 - P. Le Sager - reintroduced SO4 parameters, added ! protex tags. ! ! !REMARKS: ! o extracted from dry_deposition.F90 codes; ! o dummy values for HNO4, actual deposition velocity is computed from: ! vd(HNO4) = ( vd(NO2) + vd(H2O2) )/2 ! !EOP !------------------------------------------------------------------------------ end module deposition_data