source: LMDZ6/branches/cirrus/libf/phylmd/ecrad.v1.5.1/radsurf_properties.F90 @ 5435

Last change on this file since 5435 was 3908, checked in by idelkadi, 4 years ago

Online implementation of the radiative transfer code ECRAD in the LMDZ model.

  • Inclusion of the ecrad directory containing the sources of the ECRAD code
    • interface routine : radiation_scheme.F90
  • Adaptation of compilation scripts :
    • compilation under CPP key CPP_ECRAD
    • compilation with option "-rad ecard" or "-ecard true"
    • The "-rad old/rtm/ecran" build option will need to replace the "-rrtm true" and "-ecrad true" options in the future.
  • Runing LMDZ simulations with ecrad, you need :
    • logical key iflag_rrtm = 2 in physiq.def
    • namelist_ecrad (DefLists?)
    • the directory "data" containing the configuration files is temporarily placed in ../libfphylmd/ecrad/
  • Compilation and execution are tested in the 1D case. The repository under svn would allow to continue the implementation work: tests, verification of the results, ...
File size: 15.0 KB
Line 
1! radsurf_properties.f90 - Derived type for surface properties
2!
3! (C) Copyright 2017- 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!
15
16module radsurf_properties
17
18  use parkind1, only : jpim, jprb
19
20  implicit none
21
22  public
23
24  ! Number of tile types
25  integer(kind=jpim), parameter :: NTileTypes = 3
26
27  ! Codes for the different type of tile
28  enum, bind(c)
29    enumerator :: ITileFlat = 1, &
30         &        ITileVegetation, &
31         &        ITileUrban3D
32  end enum
33
34  character(len=*), parameter :: TileRepresentationName(NTileTypes) &
35       &  = (/ 'Flat                 ', &
36       &       'HomogeneousVegetation', &
37       &       'Urban3D              ' /)
38
39  ! Number of surface facets and regions
40  integer(kind=jpim), parameter :: NTileFacets (NTileTypes) = (/ 1, 1, 3 /)
41  integer(kind=jpim), parameter :: NTileRegions(NTileTypes) = (/ 0, 1, 1 /)
42
43
44  !---------------------------------------------------------------------
45  ! Derived type storing a physical description of the properties of
46  ! the surface tiles needed to compute the boundary conditions for
47  ! the radiation scheme.
48  type surface_type
49    ! Skin temperature (ncol,nfacet)
50    real(kind=jprb), allocatable :: skin_temperature(:,:)
51
52    ! Air temperature in canopy (ncol,ntile)
53    real(kind=jprb), allocatable :: canopy_temperature(:,:)
54
55    ! Shortwave albedo: if sw_albedo_direct is not allocated then
56    ! sw_albedo will be used for both direct and diffuse solar
57    ! radiation; otherwise, sw_albedo will be used for diffuse
58    ! radiation and sw_albedo_direct for direct
59    ! radiation. Dimensioning is (ncol,nalbedobands,nfacet).
60    real(kind=jprb), allocatable, dimension(:,:,:) :: &
61         &  sw_albedo, sw_albedo_direct
62
63    ! Longwave emissivity: dimensioning is (ncol,nemissbands,nfacet)
64    real(kind=jprb), allocatable, dimension(:,:,:) :: &
65         &  lw_emissivity
66
67    ! Representation codes (ITileFlat etc) for each tile: dimensioning
68    ! is (ntile)
69    integer(kind=jpim), allocatable, dimension(:) :: &
70         &  i_representation
71
72    ! Indices to the facets: dimensioning is (ncol,ntile)
73    integer(kind=jpim), allocatable, dimension(:,:) :: &
74         &  i_ground_facet, &
75         &  i_roof_facet, &
76         &  i_wall_facet
77
78    ! Indices to the regions: dimensioning is (ncol,ntile)
79    integer(kind=jpim), allocatable, dimension(:,:) :: &
80         &  i_region_1 !, i_region_2
81
82    ! Physical properties dimensioned (ncol,ntile)
83    real(kind=jprb), allocatable, dimension(:,:) :: &
84         &  tile_fraction, & ! Fraction of column occupied by each tile
85         &  canopy_depth     ! Depth of canopy (m)
86
87    ! Building properties in urban tile dimensioned (ncol,ntile)
88    real(kind=jprb), allocatable, dimension(:,:) :: &
89         &  building_fraction, & ! Fraction of canopy containing buildings
90         &  building_normalized_perimeter ! Perimeter length of buildings per unit area (m)
91
92    ! Vegetation physical properties dimensioned (ncol,ntile)
93    real(kind=jprb), allocatable, dimension(:,:) :: &
94         &  vegetation_optical_depth, & ! Same as LAI?
95         &  vegetation_fractional_std   ! Fractional standard deviation
96
97    ! Vegetation optical properties
98    real(kind=jprb), allocatable, dimension(:,:,:) :: &
99         &  vegetation_sw_albedo, & ! (ncol,nalbedobands,ntile)
100         &  vegetation_lw_emissivity! (ncol,nemissbands,ntile)
101
102! When 3D effects in vegetation canopies are represented, these will
103! be available
104!         &  vegetation_normalized_perimeter
105!         &  vegetation_fraction, &
106
107    ! Number of tiles, columns, facets, regions
108    integer(kind=jpim) :: ntile, ncol, nfacet, nregion
109
110    ! Number of albedo and emissivity bands
111    integer(kind=jpim) :: nalbedobands, nemissbands
112
113    ! Is this a simple surface containing one "flat" tile?
114    logical :: is_simple = .true.
115
116  contains
117    procedure :: allocate   => allocate_surface
118    procedure :: deallocate => deallocate_surface
119    procedure :: read => read_from_netcdf
120    procedure :: set_facet_indices
121
122  end type surface_type
123
124
125contains
126
127  !---------------------------------------------------------------------
128  subroutine allocate_surface(this, ncol, nalbedobands, nemissbands, &
129       &                      i_representation, &
130       &                      use_sw_albedo_direct)
131
132    use yomhook,        only : lhook, dr_hook
133
134    class(surface_type), intent(inout) :: this
135    integer(kind=jpim),  intent(in)    :: ncol, nalbedobands, nemissbands
136    integer(kind=jpim),  intent(in), optional :: i_representation(:)
137    logical(kind=jpim),  intent(in), optional :: use_sw_albedo_direct
138
139    ! Number of facets and regions
140    integer(kind=jpim) :: nfacet, nregion, ntile
141
142    real(jprb) :: hook_handle
143
144    if (lhook) call dr_hook('radiation_surface:allocate',0,hook_handle)
145
146    call this%deallocate()
147
148    this%ncol   = ncol
149    if (present(i_representation)) then
150      nfacet    = sum(NTileFacets (i_representation))
151      nregion   = sum(NTileRegions(i_representation))
152      ntile     = size(i_representation)
153      this%is_simple = .false.
154    else
155      nfacet    = 1
156      nregion   = 0
157      ntile     = 1
158      this%is_simple = .true.
159    end if
160    this%nfacet = nfacet
161    this%nregion= nregion
162    this%ntile  = ntile
163    this%nalbedobands = nalbedobands
164    this%nemissbands  = nemissbands
165
166    allocate(this%skin_temperature(ncol,nfacet))
167    allocate(this%sw_albedo(ncol, nalbedobands, nfacet))
168
169    if (present(use_sw_albedo_direct)) then
170      if (use_sw_albedo_direct) then
171        allocate(this%sw_albedo_direct(ncol, nalbedobands, nfacet))
172      end if
173    end if
174
175    allocate(this%lw_emissivity(ncol, nemissbands, nfacet))
176
177    if (this%ntile > 1) then
178      allocate(this%tile_fraction(ncol,ntile))
179    end if
180
181    if (nregion > 0) then
182      allocate(this%canopy_depth(ncol,ntile))
183      allocate(this%canopy_temperature(ncol,ntile))
184      this%canopy_depth = 0.0_jprb
185      this%canopy_temperature = -1.0_jprb
186    end if
187
188    if (.not. this%is_simple) then
189      allocate(this%i_representation(ntile))
190      this%i_representation = i_representation
191
192      if (any(i_representation == ITileUrban3D)) then
193        allocate(this%building_fraction(ncol,ntile))
194        allocate(this%building_normalized_perimeter(ncol,ntile))
195        ! Initialize to default values
196        this%building_fraction = 0.0_jprb
197        this%building_normalized_perimeter = 0.0_jprb
198      end if
199     
200      if (any(i_representation == ITileVegetation)) then
201        allocate(this%vegetation_optical_depth(ncol,ntile))
202        allocate(this%vegetation_fractional_std(ncol,ntile))
203        allocate(this%vegetation_sw_albedo(ncol,nalbedobands,ntile))
204        allocate(this%vegetation_lw_emissivity(ncol,nemissbands,ntile))
205        ! Initialize to default values
206        this%vegetation_optical_depth = 0.0_jprb
207        this%vegetation_fractional_std = 0.0_jprb
208        this%vegetation_sw_albedo = 0.0_jprb
209        this%vegetation_lw_emissivity = 1.0_jprb
210      end if
211     
212      call this%set_facet_indices
213
214    end if
215
216    if (lhook) call dr_hook('radiation_surface:allocate',1,hook_handle)
217
218  end subroutine allocate_surface
219
220
221  !---------------------------------------------------------------------
222  ! Set the indices to facets
223  subroutine set_facet_indices(this)
224
225    use radiation_io,   only : nulerr, radiation_abort
226
227    class(surface_type), intent(inout) :: this
228
229    ! Indices to tiles and facets
230    integer(kind=jpim) :: ifacet, iregion, jtile
231    if (.not. this%is_simple) then
232
233      allocate(this%i_ground_facet(this%ncol,this%ntile))
234      this%i_ground_facet = 0
235
236      if (any(this%i_representation == ITileUrban3D)) then
237        allocate(this%i_roof_facet(this%ncol,this%ntile))
238        allocate(this%i_wall_facet(this%ncol,this%ntile))
239        ! Initialize to default values
240        this%i_roof_facet = 0
241        this%i_wall_facet = 0
242      end if
243     
244      if (this%nregion > 0) then
245        allocate(this%i_region_1(this%ncol,this%ntile))
246        this%i_region_1 = 0
247      end if
248
249      ! Set the indices to the various facets
250      ifacet = 1
251      iregion = 1
252      do jtile = 1,this%ntile
253        this%i_ground_facet(:,jtile) = ifacet
254        ifacet = ifacet + 1
255        if (this%i_representation(jtile) == ITileVegetation) then
256          this%i_region_1(:,jtile) = iregion
257          iregion = iregion+1
258        else if (this%i_representation(jtile) == ITileUrban3D) then
259          this%i_roof_facet(:,jtile) = ifacet
260          this%i_wall_facet(:,jtile) = ifacet+1
261          ifacet = ifacet+2
262          this%i_region_1(:,jtile) = iregion
263          iregion = iregion+1
264        else if (this%i_representation(jtile) /= ITileFlat) then
265          write(nulerr,'(a,i0,a)') '*** Error: tile representation ', &
266               &  this%i_representation(jtile), ' not understood'
267          call radiation_abort()
268        end if
269      end do
270    end if
271  end subroutine set_facet_indices
272
273  !---------------------------------------------------------------------
274  subroutine deallocate_surface(this)
275
276    use yomhook, only : lhook, dr_hook
277
278    class(surface_type), intent(inout) :: this
279
280    real(jprb) :: hook_handle
281
282    if (lhook) call dr_hook('radiation_surface:deallocate',0,hook_handle)
283
284    if (allocated(this%skin_temperature)) then
285      deallocate(this%skin_temperature)
286    end if
287    if (allocated(this%sw_albedo)) then
288      deallocate(this%sw_albedo)
289    end if
290    if (allocated(this%sw_albedo_direct)) then
291      deallocate(this%sw_albedo_direct)
292    end if
293    if (allocated(this%lw_emissivity)) then
294      deallocate(this%lw_emissivity)
295    end if
296    if (allocated(this%i_representation)) then
297      deallocate(this%i_representation)
298    end if
299    if (allocated(this%i_ground_facet)) then
300      deallocate(this%i_ground_facet)
301    end if
302    if (allocated(this%i_roof_facet)) then
303      deallocate(this%i_roof_facet)
304    end if
305    if (allocated(this%i_wall_facet)) then
306      deallocate(this%i_wall_facet)
307    end if
308    if (allocated(this%tile_fraction)) then
309      deallocate(this%tile_fraction)
310    end if
311    if (allocated(this%canopy_depth)) then
312      deallocate(this%canopy_depth)
313    end if
314    if (allocated(this%canopy_temperature)) then
315      deallocate(this%canopy_temperature)
316    end if
317    if (allocated(this%building_fraction)) then
318      deallocate(this%building_fraction)
319    end if
320    if (allocated(this%building_normalized_perimeter)) then
321      deallocate(this%building_normalized_perimeter)
322    end if
323    if (allocated(this%vegetation_optical_depth)) then
324      deallocate(this%vegetation_optical_depth)
325    end if
326    if (allocated(this%vegetation_fractional_std)) then
327      deallocate(this%vegetation_fractional_std)
328    end if
329    if (allocated(this%vegetation_sw_albedo)) then
330      deallocate(this%vegetation_sw_albedo)
331    end if
332    if (allocated(this%vegetation_lw_emissivity)) then
333      deallocate(this%vegetation_lw_emissivity)
334    end if
335
336    this%ntile  = 0
337    this%ncol   = 0
338    this%nfacet = 0
339
340    if (lhook) call dr_hook('radiation_surface:deallocate',1,hook_handle)
341
342  end subroutine deallocate_surface
343
344
345  !---------------------------------------------------------------------
346  ! Print a description of the surface tile types
347  subroutine print_surface_representation(i_representation)
348
349    use radiation_io, only : nulout
350
351    integer(kind=jpim), dimension(:), allocatable, intent(in) :: i_representation
352
353    integer :: ntile, jtile, ifacet, iregion
354
355    write(nulout,'(a)') 'Surface tile representation:'
356    if (.not. allocated(i_representation)) then
357      write(nulout,'(a)') '  Simple (one flat tile)'
358    else
359      ntile = size(i_representation,1)
360      ifacet  = 1
361      iregion = 1;
362      do jtile = 1,ntile
363        write(nulout,'(a,i0,a,a)') '  Tile ', jtile, ': ', trim(TileRepresentationName(i_representation(jtile)))
364        write(nulout,'(a,i0,a)') '    Facet ', ifacet, ': ground'
365        ifacet = ifacet+1
366
367        select case (i_representation(jtile))
368
369        case (ITileVegetation)
370          write(nulout,'(a,i0,a)') '    Region ', iregion, ': vegetation canopy'
371          iregion = iregion+1
372
373        case (ITileUrban3D)
374          write(nulout,'(a,i0,a)') '    Facet ', ifacet, ': roof'
375          write(nulout,'(a,i0,a)') '    Facet ', ifacet+1, ': wall'
376          ifacet = ifacet+1
377          write(nulout,'(a,i0,a)') '    Region ', iregion, ': street canyon'
378          iregion = iregion+1
379
380        end select
381
382      end do
383    end if
384   
385  end subroutine print_surface_representation
386
387
388  !---------------------------------------------------------------------
389  subroutine read_from_netcdf(this, file)
390
391    use parkind1,           only : jprb, jpim
392    use easy_netcdf,        only : netcdf_file
393   
394    implicit none
395
396    type(netcdf_file),  intent(in)     :: file
397    class(surface_type), intent(inout) :: this
398
399    real(kind=jprb), allocatable       :: data_1d(:)
400
401    integer(kind=jpim), parameter :: ipermute(3) = [2,3,1]
402
403    call this%deallocate
404
405    this%is_simple = .false.
406
407    call file%get('skin_temperature', this%skin_temperature, do_transp=.true.)
408    call file%get('canopy_temperature', this%canopy_temperature, do_transp=.true.)
409    call file%get('sw_albedo', this%sw_albedo, ipermute=ipermute)
410    if (file%exists('sw_albedo_direct')) then
411      call file%get('sw_albedo', this%sw_albedo_direct, ipermute=ipermute)
412    end if
413    call file%get('lw_emissivity', this%lw_emissivity, ipermute=ipermute)
414    call file%get('tile_representation', data_1d)
415    this%ntile = size(data_1d)
416    allocate(this%i_representation(this%ntile))
417    this%i_representation = int(data_1d)
418    call file%get('tile_fraction', this%tile_fraction, do_transp=.true.)
419    call file%get('canopy_depth', this%canopy_depth, do_transp=.true.)
420    call file%get('building_fraction', this%building_fraction, do_transp=.true.)
421    if (file%exists('building_normalized_perimeter')) then
422      call file%get('building_normalized_perimeter', &
423           &  this%building_normalized_perimeter, do_transp=.true.)
424    else
425      ! Convert building scale to normalized perimeter
426      call file%get('building_scale', this%building_normalized_perimeter, do_transp=.true.)
427      this%building_normalized_perimeter = 4.0_jprb * this%building_fraction &
428           &  * (1.0_jprb-this%building_fraction) / max(1.0e-8_jprb,this%building_normalized_perimeter)
429    end if
430    call file%get('vegetation_optical_depth', this%vegetation_optical_depth, do_transp=.true.)
431    call file%get('vegetation_sw_albedo', this%vegetation_sw_albedo, ipermute=ipermute)
432    call file%get('vegetation_lw_emissivity', this%vegetation_lw_emissivity, ipermute=ipermute)
433
434    this%nregion = sum(NTileRegions(this%i_representation))
435    this%ncol    = size(this%skin_temperature,1)
436    this%nfacet  = size(this%skin_temperature,2)
437
438    this%nalbedobands = size(this%sw_albedo,2)
439    this%nemissbands = size(this%lw_emissivity,2)
440
441    call this%set_facet_indices
442
443  end subroutine read_from_netcdf
444
445
446end module radsurf_properties
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