subroutine nlthermeq(ngrid, nlayer, pplev, pplay) c c Compute the number of layers nlaylte (stored in module yomlw_h) c over which local thermodynamic equilibrium c radiation scheme should be run to be sure of covering at least to a c height greater than (pressure lower than) p=pminte, set in nlteparams.h. c The maximum layer needed is found for the worst possible case. c Stephen Lewis 6/2000 c Modified Y. Wanherdrick/ F. Forget 09/2000 use yomlw_h, only: nlaylte implicit none !#include "dimensions.h" !#include "dimphys.h" !#include "dimradmars.h" #include "nlteparams.h" !#include "yomlw.h" #include "callkeys.h" c c Input: integer ngrid, nlayer real pplev(ngrid, nlayer+1) real pplay(ngrid, nlayer) c c Local: integer igpmax, ismax logical firstcall data firstcall /.true./ save firstcall, igpmax c if(firstcall) then c Find the location of maximum surface pressure. c Location won't vary much so only do it at the start; c with no topography location would vary, but this is only c needed for an estimate so any point would do in that case. igpmax = ismax(ngrid, pplev, 1) write(*, 10) ptrans write(*, 20) zw write(*, 30) pminte firstcall = .false. endif c IF(callnlte) then c Find first layer above pminte at this location do nlaylte = nlayer, 1, -1 if (pplay(igpmax, nlaylte).gt.pminte) go to 100 enddo ELSE nlaylte=nlayer END IF 100 write(*,*) 'LTE rad. calculations up to layer ', nlaylte c return c 10 format(' nlthermeq: transition to NLTE centred at ',f6.2,'Pa') 20 format(' half-width (scale heights) ',f6.2) 30 format(' suggested LTE coverage at least ',f6.2,'Pa') end