MODULE recomp_tend_co2_slope_mod implicit none !======================================================================= contains !======================================================================= SUBROUTINE recomp_tend_co2_slope(ngrid,nslope,timelen,tendencies_co2_ice_phys,tendencies_co2_ice_phys_ini,co2ice_slope,emissivity_slope, & vmr_co2_PCM,vmr_co2_pem,ps_PCM_2,global_avg_press_PCM,global_avg_press_new) use constants_marspem_mod, only : alpha_clap_co2, beta_clap_co2, sigmaB, Lco2, sols_per_my, sec_per_sol implicit none !======================================================================= ! ! Routine that compute the evolution of the tendencie for co2 ice ! !======================================================================= ! arguments: ! ---------- ! INPUT integer, intent(in) :: timelen, ngrid, nslope real, dimension(ngrid,timelen), intent(in) :: vmr_co2_PCM ! physical point field : Volume mixing ratio of co2 in the first layer real, dimension(ngrid,timelen), intent(in) :: vmr_co2_pem ! physical point field : Volume mixing ratio of co2 in the first layer real, dimension(ngrid,timelen), intent(in) :: ps_PCM_2 ! physical point field : Surface pressure in the PCM real, intent(in) :: global_avg_press_PCM ! global averaged pressure at previous timestep real, intent(in) :: global_avg_press_new ! global averaged pressure at current timestep real, dimension(ngrid,nslope), intent(in) :: tendencies_co2_ice_phys_ini ! physical point field : Evolution of perennial ice over one year real, dimension(ngrid,nslope), intent(in) :: co2ice_slope ! CO2 ice per mesh and sub-grid slope (kg/m^2) real, dimension(ngrid,nslope), intent(in) :: emissivity_slope ! Emissivity per mesh and sub-grid slope(1) ! OUTPUT real, intent(inout) :: tendencies_co2_ice_phys(ngrid,nslope) ! physical point field : Evolution of perennial ice over one year ! local: ! ---- integer :: i, t, islope real :: coef, ave write(*,*) "Update of the CO2 tendency from the current pressure" ! Evolution of the water ice for each physical point do i = 1,ngrid do islope = 1,nslope coef = sols_per_my*sec_per_sol*emissivity_slope(i,islope)*sigmaB/Lco2 ave = 0. if (co2ice_slope(i,islope) > 1.e-4 .and. abs(tendencies_co2_ice_phys(i,islope)) > 1.e-5) then do t=1,timelen ave = ave + (beta_clap_co2/(alpha_clap_co2-log(vmr_co2_PCM(i,t)*ps_PCM_2(i,t)/100.)))**4 & - (beta_clap_co2/(alpha_clap_co2-log(vmr_co2_pem(i,t)*ps_PCM_2(i,t)*(global_avg_press_new/global_avg_press_PCM)/100.)))**4 enddo endif if (ave < 1e-4) ave = 0. tendencies_co2_ice_phys(i,islope) = tendencies_co2_ice_phys_ini(i,islope) - coef*ave/timelen enddo enddo END SUBROUTINE recomp_tend_co2_slope END MODULE recomp_tend_co2_slope_mod