source: LMDZ6/trunk/libf/phylmd/ecrad/radiation/radiation_general_cloud_optics.F90 @ 5422

Last change on this file since 5422 was 4853, checked in by idelkadi, 9 months ago

Ecrad update in LMDZ / Implementation of Ecrad double call in LMDZ

  • version 1.6.1 (commit 210d7911380f53a788c3cad73b3cf9b4e022ef87)
  • interface routines between lmdz and ecrad grouped in a new "lmdz" directory
  • double call method redesigned so as to go through the Ecrad initialization and configuration part only once for the entire simulation
  • clean-up in the read.F routine: delete unitules arguments
  • modification of default gas model in namelist (default: ECCKD)
File size: 12.7 KB
Line 
1! radiation_general_cloud_optics.F90 - Computing generalized cloud optical properties
2!
3! (C) Copyright 2020- ECMWF.
4!
5! This software is licensed under the terms of the Apache Licence Version 2.0
6! which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
7!
8! In applying this licence, ECMWF does not waive the privileges and immunities
9! granted to it by virtue of its status as an intergovernmental organisation
10! nor does it submit to any jurisdiction.
11!
12! Author:  Robin Hogan
13! Email:   r.j.hogan@ecmwf.int
14! License: see the COPYING file for details
15!
16
17module radiation_general_cloud_optics
18
19  implicit none
20
21  public
22 
23contains
24
25  ! Provides elemental function "delta_eddington_scat_od"
26#include "radiation_delta_eddington.h"
27
28
29  !---------------------------------------------------------------------
30  ! Load cloud scattering data; this subroutine delegates to one
31  ! in radiation_general_cloud_optics_data.F90
32  subroutine setup_general_cloud_optics(config)
33
34    use parkind1,         only : jprb
35    use yomhook,          only : lhook, dr_hook, jphook
36
37    use radiation_io,     only : nulout
38    use radiation_config, only : config_type, NMaxCloudTypes
39    use radiation_spectral_definition, only : SolarReferenceTemperature, &
40         &                                    TerrestrialReferenceTemperature
41
42    type(config_type), intent(inout) :: config
43
44    character(len=511) :: file_name
45
46    integer :: jtype ! loop index
47    integer :: strlen
48
49    real(jphook) :: hook_handle
50
51    if (lhook) call dr_hook('radiation_general_cloud_optics:setup_general_cloud_optics',0,hook_handle)
52
53    ! Count number of cloud types
54    config%n_cloud_types = 0
55    do jtype = 1,NMaxCloudTypes
56      if (len_trim(config%cloud_type_name(jtype)) > 0) then
57        config%n_cloud_types = jtype
58      else
59        exit
60      end if
61    end do
62
63    ! If cloud_type_name has not been provided then assume liquid,ice
64    ! noting that the default spectral averaging (defined in
65    ! radiation_config.F90) is "thick"
66    if (config%n_cloud_types == 0) then
67      config%cloud_type_name(1) = "mie_droplet"
68      config%cloud_type_name(2) = "baum-general-habit-mixture_ice"
69      ! Optionally override spectral averaging method
70      !config%use_thick_cloud_spectral_averaging(1) = .false.
71      !config%use_thick_cloud_spectral_averaging(2) = .false.
72      config%n_cloud_types = 2
73    end if
74
75    ! Allocate structures
76    if (config%do_sw) then
77      allocate(config%cloud_optics_sw(config%n_cloud_types))
78    end if
79
80    if (config%do_lw) then
81      allocate(config%cloud_optics_lw(config%n_cloud_types))
82    end if
83
84    ! Load cloud optics data
85    do jtype = 1,config%n_cloud_types
86      if (config%cloud_type_name(jtype)(1:1) == '/') then
87        file_name = trim(config%cloud_type_name(jtype))
88      else
89        strlen = len_trim(config%cloud_type_name(jtype))
90        if (config%cloud_type_name(jtype)(strlen-2:strlen) == ".nc") then
91          file_name = trim(config%directory_name) &
92               &  // '/' // trim(config%cloud_type_name(jtype))
93        else
94          file_name = trim(config%directory_name) &
95               &  // '/' // trim(config%cloud_type_name(jtype)) &
96               &  // '_scattering.nc'
97        end if
98      end if
99
100      if (config%do_sw) then
101        if (config%iverbosesetup >= 2) then
102          write(nulout,'(a,i0,a)') 'Shortwave cloud type ', jtype, ':'
103        end if
104        call config%cloud_optics_sw(jtype)%setup(file_name, &
105             &  config%gas_optics_sw%spectral_def, &
106             &  use_bands=(.not. config%do_cloud_aerosol_per_sw_g_point), &
107             &  use_thick_averaging=config%use_thick_cloud_spectral_averaging(jtype), &
108             &  weighting_temperature=SolarReferenceTemperature, &
109             &  iverbose=config%iverbosesetup)
110        config%cloud_optics_sw(jtype)%type_name = trim(config%cloud_type_name(jtype))
111      end if
112
113      if (config%do_lw) then
114        if (config%iverbosesetup >= 2) then
115          write(nulout,'(a,i0,a)') 'Longwave cloud type ', jtype, ':'
116        end if
117        call config%cloud_optics_lw(jtype)%setup(file_name, &
118             &  config%gas_optics_lw%spectral_def, &
119             &  use_bands=(.not. config%do_cloud_aerosol_per_lw_g_point), &
120             &  use_thick_averaging=config%use_thick_cloud_spectral_averaging(jtype), &
121             &  weighting_temperature=TerrestrialReferenceTemperature, &
122             &  iverbose=config%iverbosesetup)
123        config%cloud_optics_lw(jtype)%type_name = trim(config%cloud_type_name(jtype))
124      end if
125
126    end do
127
128    if (lhook) call dr_hook('radiation_general_cloud_optics:setup_general_cloud_optics',1,hook_handle)
129
130  end subroutine setup_general_cloud_optics
131
132  !---------------------------------------------------------------------
133  ! Compute cloud optical properties
134  subroutine general_cloud_optics(nlev,istartcol,iendcol, &
135       &  config, thermodynamics, cloud, &
136       &  od_lw_cloud, ssa_lw_cloud, g_lw_cloud, &
137       &  od_sw_cloud, ssa_sw_cloud, g_sw_cloud)
138
139    use parkind1, only           : jprb
140    use yomhook,  only           : lhook, dr_hook, jphook
141
142    use radiation_io,     only : nulout
143    use radiation_config, only : config_type
144    use radiation_thermodynamics, only    : thermodynamics_type
145    use radiation_cloud, only             : cloud_type
146    use radiation_constants, only         : AccelDueToGravity
147    !use radiation_general_cloud_optics_data, only : general_cloud_optics_type
148
149    integer, intent(in) :: nlev               ! number of model levels
150    integer, intent(in) :: istartcol, iendcol ! range of columns to process
151    type(config_type), intent(in), target :: config
152    type(thermodynamics_type),intent(in)  :: thermodynamics
153    type(cloud_type),   intent(in)        :: cloud
154
155    ! Layer optical depth, single scattering albedo and g factor of
156    ! clouds in each longwave band, where the latter two
157    ! variables are only defined if cloud longwave scattering is
158    ! enabled (otherwise both are treated as zero).
159    real(jprb), dimension(config%n_bands_lw,nlev,istartcol:iendcol), intent(out) :: &
160         &   od_lw_cloud
161    real(jprb), dimension(config%n_bands_lw_if_scattering,nlev,istartcol:iendcol), &
162         &   intent(out) :: ssa_lw_cloud, g_lw_cloud
163
164    ! Layer optical depth, single scattering albedo and g factor of
165    ! clouds in each shortwave band
166    real(jprb), dimension(config%n_bands_sw,nlev,istartcol:iendcol), intent(out) :: &
167         &   od_sw_cloud, ssa_sw_cloud, g_sw_cloud
168
169    ! In-cloud water path of one cloud type (kg m-2)
170    real(jprb), dimension(istartcol:iendcol,nlev) :: water_path
171
172    integer :: jtype, jcol, jlev, jg
173
174    real(jphook) :: hook_handle
175
176    if (lhook) call dr_hook('radiation_general_cloud_optics:general_cloud_optics',0,hook_handle)
177
178    if (config%iverbose >= 2) then
179      write(nulout,'(a)') 'Computing cloud absorption/scattering properties'
180    end if
181
182    ! Array-wise assignment
183    od_lw_cloud  = 0.0_jprb
184    od_sw_cloud  = 0.0_jprb
185    ssa_sw_cloud = 0.0_jprb
186    g_sw_cloud   = 0.0_jprb
187    if (config%do_lw_cloud_scattering) then
188      ssa_lw_cloud = 0.0_jprb
189      g_lw_cloud   = 0.0_jprb
190    end if
191
192    ! Loop over cloud types
193    do jtype = 1,config%n_cloud_types
194      ! Compute in-cloud water path
195      if (config%is_homogeneous) then
196        water_path = cloud%mixing_ratio(istartcol:iendcol,:,jtype) &
197             &  *  (thermodynamics%pressure_hl(istartcol:iendcol, 2:nlev+1) &
198             &     -thermodynamics%pressure_hl(istartcol:iendcol, 1:nlev)) &
199             &  * (1.0_jprb / AccelDueToGravity)
200      else
201        water_path = cloud%mixing_ratio(istartcol:iendcol,:,jtype) &
202             &  *  (thermodynamics%pressure_hl(istartcol:iendcol, 2:nlev+1) &
203             &     -thermodynamics%pressure_hl(istartcol:iendcol, 1:nlev)) &
204             &  * (1.0_jprb / (AccelDueToGravity &
205             &                 * max(config%cloud_fraction_threshold, &
206             &                       cloud%fraction(istartcol:iendcol,:))))
207      end if
208
209      ! Add optical properties to the cumulative total for the
210      ! longwave and shortwave
211      if (config%do_lw) then
212        ! For the moment, we use ssa_lw_cloud and g_lw_cloud as
213        ! containers for scattering optical depth and scattering
214        ! coefficient x asymmetry factor, then scale after
215        if (config%do_lw_cloud_scattering) then
216          call config%cloud_optics_lw(jtype)%add_optical_properties(config%n_bands_lw, nlev, &
217               &  iendcol+1-istartcol, cloud%fraction(istartcol:iendcol,:), &
218               &  water_path, cloud%effective_radius(istartcol:iendcol,:,jtype), &
219               &  od_lw_cloud, ssa_lw_cloud, g_lw_cloud)
220        else
221          call config%cloud_optics_lw(jtype)%add_optical_properties(config%n_bands_lw, nlev, &
222               &  iendcol+1-istartcol, cloud%fraction(istartcol:iendcol,:), &
223               &  water_path, cloud%effective_radius(istartcol:iendcol,:,jtype), od_lw_cloud)
224        end if
225      end if
226     
227      if (config%do_sw) then
228        ! For the moment, we use ssa_sw_cloud and g_sw_cloud as
229        ! containers for scattering optical depth and scattering
230        ! coefficient x asymmetry factor, then scale after
231        call config%cloud_optics_sw(jtype)%add_optical_properties(config%n_bands_sw, nlev, &
232             &  iendcol+1-istartcol, cloud%fraction(istartcol:iendcol,:), &
233             &  water_path, cloud%effective_radius(istartcol:iendcol,:,jtype), &
234             &  od_sw_cloud, ssa_sw_cloud, g_sw_cloud)
235      end if
236    end do
237
238    ! Scale the combined longwave optical properties
239    if (config%do_lw_cloud_scattering) then
240      do jcol = istartcol, iendcol
241        do jlev = 1,nlev
242          if (cloud%fraction(jcol,jlev) > 0.0_jprb) then
243            ! Note that original cloud optics does not do
244            ! delta-Eddington scaling for liquid clouds in longwave
245            call delta_eddington_extensive(od_lw_cloud(:,jlev,jcol), &
246                 &  ssa_lw_cloud(:,jlev,jcol), g_lw_cloud(:,jlev,jcol))
247           
248            ! Scale to get asymmetry factor and single scattering albedo
249            g_lw_cloud(:,jlev,jcol) = g_lw_cloud(:,jlev,jcol) &
250                 &  / max(ssa_lw_cloud(:,jlev,jcol), 1.0e-15_jprb)
251            ssa_lw_cloud(:,jlev,jcol) = ssa_lw_cloud(:,jlev,jcol) &
252                 &  / max(od_lw_cloud(:,jlev,jcol),  1.0e-15_jprb)
253          end if
254        end do
255      end do
256    end if
257   
258    ! Scale the combined shortwave optical properties
259    if (config%do_sw) then
260      if (.not. config%do_sw_delta_scaling_with_gases) then
261        do jcol = istartcol, iendcol
262          do jlev = 1,nlev
263            if (cloud%fraction(jcol,jlev) > 0.0_jprb) then
264              call delta_eddington_extensive(od_sw_cloud(:,jlev,jcol), &
265                   &  ssa_sw_cloud(:,jlev,jcol), g_sw_cloud(:,jlev,jcol))
266            end if
267          end do
268        end do
269      end if
270
271      do jcol = istartcol, iendcol
272        do jlev = 1,nlev
273          if (cloud%fraction(jcol,jlev) > 0.0_jprb) then
274            ! Scale to get asymmetry factor and single scattering albedo
275            do jg = 1, config%n_bands_sw
276              g_sw_cloud(jg,jlev,jcol) = g_sw_cloud(jg,jlev,jcol) &
277                 &  / max(ssa_sw_cloud(jg,jlev,jcol), 1.0e-15_jprb)
278              ssa_sw_cloud(jg,jlev,jcol) = ssa_sw_cloud(jg,jlev,jcol) &
279                 &  / max(od_sw_cloud(jg,jlev,jcol),  1.0e-15_jprb)
280            end do
281          end if
282        end do
283      end do
284    end if
285
286    if (lhook) call dr_hook('radiation_general_cloud_optics:general_cloud_optics',1,hook_handle)
287
288  end subroutine general_cloud_optics
289
290
291  !---------------------------------------------------------------------
292  ! Save all the cloud optics look-up tables for sw/lw and for each
293  ! hydrometeor type
294  subroutine save_general_cloud_optics(config, file_prefix, iverbose)
295
296    use yomhook,     only : lhook, dr_hook, jphook
297    use easy_netcdf, only : netcdf_file
298    use radiation_config, only : config_type
299   
300    type(config_type),  intent(in) :: config
301    character(len=*),   intent(in) :: file_prefix
302    integer,  optional, intent(in) :: iverbose
303
304    integer :: jtype
305
306    real(jphook) :: hook_handle
307
308    if (lhook) call dr_hook('radiation_general_cloud_optics:save',0,hook_handle)
309
310    do jtype = 1,config%n_cloud_types
311      if (config%do_sw) then
312        associate(co_sw => config%cloud_optics_sw(jtype))
313          call co_sw%save(file_prefix//"_sw_" &
314               &          //trim(co_sw%type_name)//".nc", iverbose)
315        end associate
316      end if
317
318      if (config%do_lw) then
319        associate(co_lw => config%cloud_optics_lw(jtype))
320          call co_lw%save(file_prefix//"_lw_" &
321               &          //trim(co_lw%type_name)//".nc", iverbose)
322        end associate
323      end if
324    end do
325   
326    if (lhook) call dr_hook('radiation_general_cloud_optics:save',1,hook_handle)
327
328  end subroutine save_general_cloud_optics
329
330end module radiation_general_cloud_optics
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