source: LMDZ6/trunk/libf/phylmd/ecrad.v1.5.1/radiation_setup.F90 @ 5423

Last change on this file since 5423 was 4677, checked in by idelkadi, 16 months ago

Implementation in the LMDZ code of the double call of the ECRAD radiative transfer code to estimate the 3D radiative effect of clouds.

  • This double call of Ecrad is controlled by the ok_3Deffect logic key.
  • If this key is enabled, 2 files of parameter configuration "namelists" for ECRAD are required at runtime: namelist_ecrad and namelist_ecrad_s2.
  • If this key is deactivated, the configuration and initialization part (reading namelist and netcdf files) is performed only once during simulation (1st call to ECRAD). Otherwise, configuration and initialization are performed each time Ecrad is called.
File size: 5.5 KB
Line 
1MODULE RADIATION_SETUP
2
3! RADIATION_SETUP - Setting up modular radiation scheme
4!
5! AUTHOR
6! ------
7!   Robin Hogan, ECMWF
8!   Original: 2015-09-16
9!
10! MODIFICATIONS
11! -------------
12!   Abderrahmane Idelkadi LMD, juillet 2023
13!
14!-----------------------------------------------------------------------
15
16  USE PARKIND1,         ONLY : JPRB
17  USE radiation_config, ONLY : config_type, &
18       &                       ISolverMcICA, ISolverSpartacus, &
19       &                       ILiquidModelSlingo, ILiquidModelSOCRATES, &
20       &                       IIceModelFu, IIceModelBaran, &
21       &                       IOverlapExponentialRandom
22
23  USE radiation_interface,      ONLY : setup_radiation
24  USE setup_config_from_lmdz,   ONLY : driver_config_type
25
26  IMPLICIT NONE
27
28
29  ! Ultraviolet weightings
30  INTEGER         :: NWEIGHT_UV
31  INTEGER         :: IBAND_UV(100)
32  REAL(KIND=JPRB) :: WEIGHT_UV(100)
33  ! Photosynthetically active radiation weightings
34  INTEGER         :: NWEIGHT_PAR
35  INTEGER         :: IBAND_PAR(100)
36  REAL(KIND=JPRB) :: WEIGHT_PAR(100)
37
38  ! Background aerosol is specified in an ugly way: using the old
39  ! Tegen fields that are in terms of optical depth, and converted to
40  ! mass mixing ratio via the relevant mass-extinction coefficient
41  INTEGER, PARAMETER :: ITYPE_TROP_BG_AER = 8 ! hydrophobic organic
42  INTEGER, PARAMETER :: ITYPE_STRAT_BG_AER=12 ! non-absorbing sulphate
43  REAL(KIND=JPRB)    :: TROP_BG_AER_MASS_EXT
44  REAL(KIND=JPRB)    :: STRAT_BG_AER_MASS_EXT
45
46CONTAINS
47
48  ! This routine copies information between the LMDZ radiation
49  ! configuration (stored in global variables) and the radiation
50  ! configuration of the modular radiation scheme (stored in
51  ! rad_config).  The optional input logical LOUTPUT controls whether
52  ! to print lots of information during the setup stage (default is
53  ! no).
54! AI At the end of the routine, the parameters are read in namelist
55!   
56  SUBROUTINE SETUP_RADIATION_SCHEME(LOUTPUT,file_name,rad_config,driver_config)
57
58!    USE radiation_config, ONLY : config_type, &
59!        &                       ISolverMcICA, ISolverSpartacus, &
60!        &                       ILiquidModelSlingo, ILiquidModelSOCRATES, &
61!        &                       IIceModelFu, IIceModelBaran, &
62!        &                       IOverlapExponentialRandom
63    USE mod_phys_lmdz_para
64     
65    USE YOMHOOK,  ONLY : LHOOK, DR_HOOK
66    USE YOMLUN,   ONLY : NULOUT, NULERR
67    USE YOESRTWN, ONLY : NMPSRTM
68
69 !   USE radiation_interface,      ONLY : setup_radiation
70 !   USE setup_config_from_lmdz,   ONLY : driver_config_type
71
72    ! Whether or not to provide information on the radiation scheme
73    ! configuration
74    LOGICAL, INTENT(IN), OPTIONAL :: LOUTPUT
75
76    REAL(KIND=JPRB) :: ZHOOK_HANDLE
77
78    character(len=512) :: file_name
79
80    logical :: lprint_setp=.TRUE.
81
82    ! Store configuration information for the radiation scheme in a
83    ! global variable
84    type(config_type) :: rad_config
85    type(driver_config_type) :: driver_config
86
87    IF (LHOOK) CALL DR_HOOK('RADIATION_SETUP:SETUP_RADIATION_SCHEME',0,ZHOOK_HANDLE)
88
89    ! *** GENERAL SETUP ***
90
91    ! Configure verbosity of setup of radiation scheme
92 
93    print*,'********** Dans radiation_setup *****************'
94
95! AI ATTENTION (parameters read in namelist file)
96!    file_name="namelist_ecrad"
97    call rad_config%read(file_name=file_name)
98    call driver_config%read(file_name)
99
100    ! Use configuration data to set-up radiation scheme, including
101    ! reading scattering datafiles
102    CALL setup_radiation(rad_config)
103
104    ! Populate the mapping between the 14 RRTM shortwave bands and the
105    ! 6 albedo inputs. The mapping according to the stated wavelength
106    ! ranges of the 6-band model does not match the hard-wired mapping
107    ! in NMPSRTM, but only the hard-wired values produce sensible
108    ! results...
109    ! Note that NMPSRTM(:)=(/  6, 6, 5, 5, 5, 5, 5, 4, 4, 3, 2, 2, 1, 6 /)
110! AI (6 albedo SW bands)
111    call rad_config%define_sw_albedo_intervals(6, &
112       &  [0.25e-6_jprb, 0.44e-6_jprb, 0.69e-6_jprb, &
113       &   1.19e-6_jprb, 2.38e-6_jprb], [1,2,3,4,5,6])
114    ! Likewise between the 16 RRTM longwave bands and the 2 emissivity
115    ! inputs (info taken from rrtm_ecrt_140gp_mcica.F90) representing
116    ! outside and inside the window region of the spectrum
117!     rad_config%i_emiss_from_band_lw = (/ 1,1,1,1,1,2,2,2,1,1,1,1,1,1,1,1 /)
118! AI ATTENTION ?????
119!!    call rad_config%define_lw_emiss_intervals(3, &
120!!         &  (/ 8.0e-6_jprb,13.0e-6_jprb /),  (/ 1,2,1 /))
121
122!    ! Get spectral weightings for UV and PAR
123    call rad_config%get_sw_weights(0.2e-6_jprb, 0.4415e-6_jprb, &
124         &  NWEIGHT_UV, IBAND_UV, WEIGHT_UV, 'ultraviolet')
125    call rad_config%get_sw_weights(0.4e-6_jprb, 0.7e-6_jprb, &
126         &  NWEIGHT_PAR, IBAND_PAR, WEIGHT_PAR, &
127         &  'photosynthetically active radiation, PAR')
128
129     rad_config%i_aerosol_type_map(1:13) = (/ &
130           &  -1, &  ! Sea salt, size bin 1 (OPAC)
131           &  -2, &  ! Sea salt, size bin 2 (OPAC)
132           &  -3, &  ! Sea salt, size bin 3 (OPAC)
133           &  -4, &  ! Hydrophilic organic matter (OPAC)
134           &  -5, &  ! Ammonium sulphate (OPAC)
135           &  -6, &
136           &  -7, &
137           &   1, &
138           &   2, &
139           &   3, &
140           &  -8, &
141           &  -9, &
142           &   4 /)  ! Stratospheric sulphate (hand edited from OPAC)
143   rad_config%aerosol_optics_override_file_name = 'aerosol_optics_lmdz.nc'
144
145
146    IF (LHOOK) CALL DR_HOOK('RADIATION_SETUP:SETUP_RADIATION_SCHEME',1,ZHOOK_HANDLE)
147
148  END SUBROUTINE SETUP_RADIATION_SCHEME
149
150END MODULE RADIATION_SETUP
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