! radiation_single_level.F90 - Derived type for single-level fields ! ! (C) Copyright 2014- ECMWF. ! ! This software is licensed under the terms of the Apache Licence Version 2.0 ! which can be obtained at http://www.apache.org/licenses/LICENSE-2.0. ! ! In applying this licence, ECMWF does not waive the privileges and immunities ! granted to it by virtue of its status as an intergovernmental organisation ! nor does it submit to any jurisdiction. ! ! Author: Robin Hogan ! Email: r.j.hogan@ecmwf.int ! ! Modifications ! 2019-01-14 R. Hogan Added out_of_physical_bounds routine ! 2019-01-18 R. Hogan Added weighted albedo mapping module radiation_single_level use parkind1, only : jprb implicit none public !--------------------------------------------------------------------- ! Derived type to contain variables that don't vary with height; ! mostly they are surface properties type single_level_type ! Note that skin temperature is only defined if ! is_simple_surface==.true. real(jprb), allocatable, dimension(:) :: & & cos_sza, & ! (ncol) Cosine of solar zenith angle & skin_temperature ! (ncol) Skin temperature (K) ! Shortwave albedo: if sw_albedo_direct is not allocated then ! sw_albedo will be used for both direct and diffuse solar ! radiation; otherwise, sw_albedo will be used for diffuse ! radiation and sw_albedo_direct for direct radiation. real(jprb), allocatable, dimension(:,:) :: & & sw_albedo, & ! (ncol,nalbedobands) & sw_albedo_direct ! (ncol,nalbedobands) ! If is_simple_surface==.true., we provide longwave emissivity ! coarser spectral intervals, while if ! is_simple_surface==.false. it will be generated by the surface ! radiation scheme and may optionally be on the full spectral grid ! of the atmospheric model. real(jprb), allocatable, dimension(:,:) :: & & lw_emissivity ! (ncol,nemissbands) If ! is_simple_surface==.false. then we specify the emission instead ! of the skin temperature, and again this may be on the emissivity ! bands or the full spectral grid real(jprb), allocatable, dimension(:,:) :: & & lw_emission ! (ncol,nemissbands) ! Incoming solar irradiance at the Earth is specified as the total ! across the shortwave spectrum. Note that this needs to be ! adjusted for Earth-Sun distance, solar cycle etc. To get ! normalized fluxes out, simply set this to 1.0. real(jprb) :: solar_irradiance = 1366.0_jprb ! W m-2 ! If config%use_spectral_solar_irradiance==true then this will be ! scaled by spectral_solar_scaling real(jprb), allocatable, dimension(:) :: & & spectral_solar_scaling ! (n_bands_sw) ! Seed for random number generator in McICA; it is expected that ! the host model generates this from the model time, longitude ! and latitude, in order that the model is deterministic integer, allocatable, dimension(:) :: iseed ! (ncol) ! Is the underlying surface a simple single "flat" tile? If so we ! describe it with skin_temperature and lw_emissivity. Otherwise ! we describe it with lw_emission and lw_emissivity coming out of ! the surface radiation scheme. logical :: is_simple_surface = .true. ! If is_simple_surface==.false., do we use the full number of g ! points for dimensioning sw_albedo, sw_albedo_direct and ! lw_emission? !logical :: use_full_spectrum_sw = .false. !logical :: use_full_spectrum_lw = .true. contains procedure :: allocate => allocate_single_level procedure :: deallocate => deallocate_single_level procedure :: init_seed_simple procedure :: get_albedos procedure :: out_of_physical_bounds end type single_level_type contains !--------------------------------------------------------------------- ! Allocate the arrays of a single-level type subroutine allocate_single_level(this, ncol, nalbedobands, nemisbands, & & use_sw_albedo_direct, is_simple_surface) use yomhook, only : lhook, dr_hook class(single_level_type), intent(inout) :: this integer, intent(in) :: ncol, nalbedobands, nemisbands logical, optional, intent(in) :: use_sw_albedo_direct logical, optional, intent(in) :: is_simple_surface real(jprb) :: hook_handle if (lhook) call dr_hook('radiation_single_level:allocate',0,hook_handle) call this%deallocate() if (present(is_simple_surface)) then this%is_simple_surface = is_simple_surface else this%is_simple_surface = .true. end if allocate(this%cos_sza(ncol)) if (this%is_simple_surface) then allocate(this%skin_temperature(ncol)) else allocate(this%lw_emission(ncol, nemisbands)) end if allocate(this%lw_emissivity(ncol, nemisbands)) allocate(this%sw_albedo(ncol, nalbedobands)) if (present(use_sw_albedo_direct)) then if (use_sw_albedo_direct) then allocate(this%sw_albedo_direct(ncol, nalbedobands)) end if end if allocate(this%iseed(ncol)) if (lhook) call dr_hook('radiation_single_level:allocate',1,hook_handle) end subroutine allocate_single_level !--------------------------------------------------------------------- ! Deallocate the arrays of a single-level type subroutine deallocate_single_level(this) use yomhook, only : lhook, dr_hook class(single_level_type), intent(inout) :: this real(jprb) :: hook_handle if (lhook) call dr_hook('radiation_single_level:deallocate',0,hook_handle) if (allocated(this%cos_sza)) then deallocate(this%cos_sza) end if if (allocated(this%skin_temperature)) then deallocate(this%skin_temperature) end if if (allocated(this%sw_albedo)) then deallocate(this%sw_albedo) end if if (allocated(this%sw_albedo_direct)) then deallocate(this%sw_albedo_direct) end if if (allocated(this%lw_emissivity)) then deallocate(this%lw_emissivity) end if if (allocated(this%lw_emission)) then deallocate(this%lw_emission) end if if (allocated(this%spectral_solar_scaling)) then deallocate(this%spectral_solar_scaling) end if if (allocated(this%iseed)) then deallocate(this%iseed) end if if (lhook) call dr_hook('radiation_single_level:deallocate',1,hook_handle) end subroutine deallocate_single_level !--------------------------------------------------------------------- ! Unimaginative initialization of random-number seeds subroutine init_seed_simple(this, istartcol, iendcol) class(single_level_type), intent(inout) :: this integer, intent(in) :: istartcol, iendcol integer :: jcol if (.not. allocated(this%iseed)) then allocate(this%iseed(istartcol:iendcol)) end if do jcol = istartcol,iendcol this%iseed(jcol) = jcol end do end subroutine init_seed_simple !--------------------------------------------------------------------- ! Extract the shortwave and longwave surface albedos in each g-point subroutine get_albedos(this, istartcol, iendcol, config, & & sw_albedo_direct, sw_albedo_diffuse, lw_albedo) use radiation_config, only : config_type use radiation_io, only : nulerr, radiation_abort use yomhook, only : lhook, dr_hook class(single_level_type), intent(in) :: this type(config_type), intent(in) :: config integer, intent(in) :: istartcol, iendcol ! The longwave albedo of the surface in each longwave g-point; ! note that these are weighted averages of the values from ! individual tiles real(jprb), intent(out), optional & & :: lw_albedo(config%n_g_lw, istartcol:iendcol) ! Direct and diffuse shortwave surface albedo in each shortwave ! g-point; note that these are weighted averages of the values ! from individual tiles real(jprb), intent(out), dimension(config%n_g_sw, istartcol:iendcol) & & :: sw_albedo_direct, sw_albedo_diffuse ! Temporary storage of albedo in ecRad bands real(jprb) :: sw_albedo_band(istartcol:iendcol, config%n_bands_sw) real(jprb) :: lw_albedo_band(istartcol:iendcol, config%n_bands_lw) ! Number of albedo bands integer :: nalbedoband ! Loop indices for ecRad bands and albedo bands integer :: jband, jalbedoband, jcol real(jprb) :: hook_handle if (lhook) call dr_hook('radiation_single_level:get_albedos',0,hook_handle) if (config%do_sw) then ! Albedos/emissivities are stored in single_level in their own ! spectral intervals and with column as the first dimension if (config%use_canopy_full_spectrum_sw) then ! Albedos provided in each g point if (size(this%sw_albedo,2) /= config%n_g_sw) then write(nulerr,'(a,i0,a)') '*** Error: single_level%sw_albedo does not have the expected ', & & config%n_g_sw, ' spectral intervals' call radiation_abort() end if sw_albedo_diffuse = transpose(this%sw_albedo(istartcol:iendcol,:)) if (allocated(this%sw_albedo_direct)) then sw_albedo_direct = transpose(this%sw_albedo_direct(istartcol:iendcol,:)) end if else if (.not. config%do_nearest_spectral_sw_albedo) then ! Albedos averaged accurately to ecRad spectral bands nalbedoband = size(config%sw_albedo_weights,1) if (size(this%sw_albedo,2) /= nalbedoband) then write(nulerr,'(a,i0,a)') '*** Error: single_level%sw_albedo does not have the expected ', & & nalbedoband, ' bands' call radiation_abort() end if sw_albedo_band = 0.0_jprb do jband = 1,config%n_bands_sw do jalbedoband = 1,nalbedoband if (config%sw_albedo_weights(jalbedoband,jband) /= 0.0_jprb) then do jcol = istartcol,iendcol sw_albedo_band(jcol,jband) & & = sw_albedo_band(jcol,jband) & & + config%sw_albedo_weights(jalbedoband,jband) & & * this%sw_albedo(jcol, jalbedoband) end do end if end do end do sw_albedo_diffuse = transpose(sw_albedo_band(istartcol:iendcol, & & config%i_band_from_reordered_g_sw)) if (allocated(this%sw_albedo_direct)) then sw_albedo_band = 0.0_jprb do jband = 1,config%n_bands_sw do jalbedoband = 1,nalbedoband if (config%sw_albedo_weights(jalbedoband,jband) /= 0.0_jprb) then sw_albedo_band(istartcol:iendcol,jband) & & = sw_albedo_band(istartcol:iendcol,jband) & & + config%sw_albedo_weights(jalbedoband,jband) & & * this%sw_albedo_direct(istartcol:iendcol, jalbedoband) end if end do end do sw_albedo_direct = transpose(sw_albedo_band(istartcol:iendcol, & & config%i_band_from_reordered_g_sw)) else sw_albedo_direct = sw_albedo_diffuse end if else ! Albedos mapped less accurately to ecRad spectral bands sw_albedo_diffuse = transpose(this%sw_albedo(istartcol:iendcol, & & config%i_albedo_from_band_sw(config%i_band_from_reordered_g_sw))) if (allocated(this%sw_albedo_direct)) then sw_albedo_direct = transpose(this%sw_albedo_direct(istartcol:iendcol, & & config%i_albedo_from_band_sw(config%i_band_from_reordered_g_sw))) else sw_albedo_direct = sw_albedo_diffuse end if end if end if if (config%do_lw .and. present(lw_albedo)) then if (config%use_canopy_full_spectrum_lw) then if (config%n_g_lw /= size(this%lw_emissivity,2)) then write(nulerr,'(a,i0,a)') '*** Error: single_level%lw_emissivity does not have the expected ', & & config%n_g_lw, ' spectral intervals' call radiation_abort() end if lw_albedo = 1.0_jprb - transpose(this%lw_emissivity(istartcol:iendcol,:)) else if (.not. config%do_nearest_spectral_lw_emiss) then ! Albedos averaged accurately to ecRad spectral bands nalbedoband = size(config%lw_emiss_weights,1) if (nalbedoband /= size(this%lw_emissivity,2)) then write(nulerr,'(a,i0,a)') '*** Error: single_level%lw_emissivity does not have the expected ', & & nalbedoband, ' bands' call radiation_abort() end if lw_albedo_band = 0.0_jprb do jband = 1,config%n_bands_lw do jalbedoband = 1,nalbedoband if (config%lw_emiss_weights(jalbedoband,jband) /= 0.0_jprb) then do jcol = istartcol,iendcol lw_albedo_band(jcol,jband) & & = lw_albedo_band(jcol,jband) & & + config%lw_emiss_weights(jalbedoband,jband) & & * (1.0_jprb-this%lw_emissivity(jcol, jalbedoband)) end do end if end do end do lw_albedo = transpose(lw_albedo_band(istartcol:iendcol, & & config%i_band_from_reordered_g_lw)) else lw_albedo = 1.0_jprb - transpose(this%lw_emissivity(istartcol:iendcol, & & config%i_emiss_from_band_lw(config%i_band_from_reordered_g_lw))) end if end if if (lhook) call dr_hook('radiation_single_level:get_albedos',1,hook_handle) end subroutine get_albedos !--------------------------------------------------------------------- ! Return .true. if the contents of a single_level structure are out ! of a physically sensible range, optionally only considering only ! columns between istartcol and iendcol function out_of_physical_bounds(this, istartcol, iendcol, do_fix) result(is_bad) use yomhook, only : lhook, dr_hook use radiation_check, only : out_of_bounds_1d, out_of_bounds_2d class(single_level_type), intent(inout) :: this integer, optional,intent(in) :: istartcol, iendcol logical, optional,intent(in) :: do_fix logical :: is_bad logical :: do_fix_local real(jprb) :: hook_handle if (lhook) call dr_hook('radiation_single_level:out_of_physical_bounds',0,hook_handle) if (present(do_fix)) then do_fix_local = do_fix else do_fix_local = .false. end if is_bad = out_of_bounds_1d(this%cos_sza, "cos_sza", -1.0_jprb, 1.0_jprb, & & do_fix_local, i1=istartcol, i2=iendcol) & & .or. out_of_bounds_1d(this%skin_temperature, "skin_temperature", 173.0_jprb, 373.0_jprb, & & do_fix_local, i1=istartcol, i2=iendcol) & & .or. out_of_bounds_2d(this%sw_albedo, "sw_albedo", 0.0_jprb, 1.0_jprb, & & do_fix_local, i1=istartcol, i2=iendcol) & & .or. out_of_bounds_2d(this%sw_albedo_direct, "sw_albedo", 0.0_jprb, 1.0_jprb, & & do_fix_local, i1=istartcol, i2=iendcol) & & .or. out_of_bounds_2d(this%lw_emissivity, "lw_emissivity", 0.0_jprb, 1.0_jprb, & & do_fix_local, i1=istartcol, i2=iendcol) if (lhook) call dr_hook('radiation_single_level:out_of_physical_bounds',1,hook_handle) end function out_of_physical_bounds end module radiation_single_level