subroutine lwxd (ig0,kdlon,kflev,emis . ,aer_t,co2_u,co2_up) c---------------------------------------------------------------------- c LWXD computes transmission function and exchange coefficiants c for distant layers c (co2 / aerosols) c (bands 1 and 2 of co2) c---------------------------------------------------------------------- c c |---|---|---|---|---|---|---|---| c kflev+1 | | | | | | | | 0 | (space) c |---|---|---|---|---|---|---|---| c kflev | |***|***|***|***| | 0 | | c |---|---|---|---|---|---|---|---| c ... | |***|***|***| | 0 | | | c |---|---|---|---|---|---|---|---| c 4 | |***|***| | 0 | |***| | c |---|---|---|---|---|---|---|---| c 3 | |***| | 0 | |***|***| | c |---|---|---|---|---|---|---|---| c 2 | | | 0 | | |***|***| | c |---|---|---|---|---|---|---|---| c 1 | | 0 | | |***|***|***| | c |---|---|---|---|---|---|---|---| c 0 | 0 | | |***|***|***|***| | (ground) c |---|---|---|---|---|---|---|---| c 0 1 2 3 4 ... k |k+1 c (ground) (space) c c (*) xi computed in this subroutine c---------------------------------------------------------------------- use dimradmars_mod, only: ndlon, nuco2, nflev, ndlo2 use yomlw_h, only: nlaylte, xi, xi_emis implicit none #include "callkeys.h" c---------------------------------------------------------------------- c 0.1 arguments c --------- c inputs: c ------- integer ig0 integer kdlon ! part of ngrid integer kflev ! part of nalyer real emis (ndlo2) ! surface emissivity real aer_t (ndlo2,nuco2,kflev+1) ! transmission (aer) real co2_u (ndlo2,nuco2,kflev+1) ! absorber amounts (co2) real co2_up (ndlo2,nuco2,kflev+1) ! idem scaled by the pressure (co2) c---------------------------------------------------------------------- c 0.2 local arrays c ------------ integer ja,jl,jk,jkk,ndim ! parameter(ndim = ndlon*nuco2*(nflev+2)*(nflev+2)) real zu (ndlon,nuco2) real zup (ndlon,nuco2) real zt_co2 (ndlon,nuco2) real zt_aer (ndlon,nuco2) real ksi (ndlon,nuco2,0:nflev+1,0:nflev+1) real ksi_emis (ndlon,nuco2,0:nflev+1,0:nflev+1) real trans (ndlon,nuco2,0:nflev+1,0:nflev+1) real trans_emis (ndlon,nuco2,0:nflev+1,0:nflev+1) c---------------------------------------------------------------------- ndim = ndlon*nuco2*(nflev+2)*(nflev+2) call zerophys(ndim,ksi_emis) c---------------------------------------------------------------------- c 1.0 Transmission functions c ---------------------- c---------------------------------------------------------------------- c 1.1 Direct transmission c ------------------- do jk = 1 , nlaylte+1 do jkk = jk , nlaylte+1 do ja = 1 , nuco2 do jl = 1 , kdlon c co2 c --- zu(jl,ja) = co2_u(jl,ja,jk) - co2_u(jl,ja,jkk) zup(jl,ja) = co2_up(jl,ja,jk) - co2_up(jl,ja,jkk) c aer c --- zt_aer(jl,ja)= aer_t(jl,ja,jk) . /aer_t(jl,ja,jkk) enddo enddo call lwtt(kdlon,zu,zup,nuco2,zt_co2) c co2 and aer c ----------- do ja = 1 , nuco2 do jl = 1 , kdlon trans(jl,ja,jk,jkk) = zt_co2(jl,ja) * zt_aer(jl,ja) enddo enddo c trans reciprocity c ----------------- do ja = 1 , nuco2 do jl = 1 , kdlon trans(jl,ja,jkk,jk) = trans(jl,ja,jk,jkk) c if (trans(jl,ja,jk,jkk) .LT. 0 ) then c print*,'trans bande',ja,jk,jkk,trans(jl,ja,jk,jkk) c endif c if (trans(jl,ja,jk,jkk) .GT. 1) then c print*,'trans bande',ja,jk,jkk,trans(jl,ja,jk,jkk) c trans(jl,ja,jk,jkk)=1 c print*,'trans bande',ja,jk,jkk,trans(jl,ja,jk,jkk) c endif enddo enddo enddo enddo c---------------------------------------------------------------------- c 1.2 Transmission with reflexion c --------------------------- do jk = 1 , nlaylte+1 do jkk = jk , nlaylte+1 if (callemis) then do ja = 1 , nuco2 do jl = 1 , kdlon c co2 c --- zu(jl,ja) = 2 * co2_u(jl,ja,1) - co2_u(jl,ja,jk) . - co2_u(jl,ja,jkk) zup(jl,ja) = 2 * co2_up(jl,ja,1) - co2_up(jl,ja,jk) . - co2_up(jl,ja,jkk) c aer c --- zt_aer(jl,ja) = aer_t(jl,ja,1) . * aer_t(jl,ja,1) . / aer_t(jl,ja,jk) . / aer_t(jl,ja,jkk) enddo enddo call lwtt(kdlon,zu,zup,nuco2,zt_co2) c co2 and aer c ----------- do ja = 1 , nuco2 do jl = 1 , kdlon trans_emis(jl,ja,jk,jkk) = zt_co2(jl,ja) . * zt_aer(jl,ja) enddo enddo else do ja = 1 , nuco2 do jl = 1 , kdlon trans_emis(jl,ja,jk,jkk) = 1. enddo enddo endif c trans reciprocity c ----------------- do ja = 1 , nuco2 do jl = 1 , kdlon trans_emis(jl,ja,jkk,jk) = trans_emis(jl,ja,jk,jkk) c if (trans_emis(jl,ja,jk,jkk) .LT. 0 c . .OR. trans_emis(jl,ja,jk,jkk) .GT. 1) then c print*,'trans_emis bande',ja,jk,jkk,trans_emis(jl,ja,jk,jkk) c endif enddo enddo enddo enddo c---------------------------------------------------------------------- c 2.0 Exchange Coefficiants c --------------------- do jk = 1 , nlaylte-2 do jkk = jk+2 , nlaylte do ja = 1 , nuco2 do jl = 1 , kdlon ksi(jl,ja,jk,jkk) = . trans(jl,ja,jk+1,jkk) - trans(jl,ja,jk,jkk) . - trans(jl,ja,jk+1,jkk+1) + trans(jl,ja,jk,jkk+1) ksi_emis(jl,ja,jk,jkk) = . trans_emis(jl,ja,jk,jkk) - trans_emis(jl,ja,jk+1,jkk) . - trans_emis(jl,ja,jk,jkk+1) + trans_emis(jl,ja,jk+1,jkk+1) c if (ksi(jl,ja,jk,jkk) .LT. 0 ) then c print*,'ksi bande',ja,jk,jkk,ksi(jl,ja,jk,jkk) c ksi(jl,ja,jk,jkk)=0 c print*,'ksi bande',ja,jk,jkk,ksi(jl,ja,jk,jkk) c endif c if (ksi(jl,ja,jk,jkk) .GT. 1) then c print*,'ksi bande',ja,jk,jkk,ksi(jl,ja,jk,jkk) c ksi(jl,ja,jk,jkk)=1 c print*,'ksi bande',ja,jk,jkk,ksi(jl,ja,jk,jkk) c endif c if (ksi_emis(jl,ja,jk,jkk) .LT. 0 c . .OR. ksi_emis(jl,ja,jk,jkk) .GT. 1) then c print*,'ksi_emis bande',ja,jk,jkk,ksi_emis(jl,ja,jk,jkk) c endif xi(ig0+jl,ja,jk,jkk) = ksi(jl,ja,jk,jkk) . + ksi_emis(jl,ja,jk,jkk) * (1 - emis(jl)) c ksi reciprocity c --------------- ksi(jl,ja,jkk,jk) = ksi(jl,ja,jk,jkk) ksi_emis(jl,ja,jkk,jk) = ksi_emis(jl,ja,jk,jkk) xi(ig0+jl,ja,jkk,jk) = xi(ig0+jl,ja,jk,jkk) enddo enddo enddo enddo c---------------------------------------------------------------------- c 2.1 Save xi_emis for neighbours (lwxn.F) c ----------------------------------- do jk = 1 , nlaylte-1 do ja = 1 , nuco2 do jl = 1 , kdlon c ksi_emis(jl,ja,jk,jk+1) = c . trans_emis(jl,ja,jk,jk+1) - trans_emis(jl,ja,jk+1,jk+1) c . - trans_emis(jl,ja,jk,jk+2) + trans_emis(jl,ja,jk+1,jk+2) xi_emis(ig0+jl,ja,jk) = . ksi_emis(jl,ja,jk,jk+1) * (1-emis(jl)) enddo enddo enddo c---------------------------------------------------------------------- return end