source: LMDZ6/trunk/libf/phylmd/ecrad/ifs/yoerad.F90 @ 5065

Last change on this file since 5065 was 4773, checked in by idelkadi, 11 months ago
  • Update of Ecrad in LMDZ The same organization of the Ecrad offline version is retained in order to facilitate the updating of Ecrad in LMDZ and the comparison between online and offline results. version 1.6.1 of Ecrad (https://github.com/lguez/ecrad.git)
  • Implementation of the double call of Ecrad in LMDZ


File size: 18.1 KB
RevLine 
[4773]1MODULE YOERAD
2
3USE PARKIND1,            ONLY : JPIM, JPRB
4USE YOE_SPECTRAL_PLANCK, ONLY : TSPECTRALPLANCK
5
6IMPLICIT NONE
7
8SAVE
9
10!     ------------------------------------------------------------------
11!*    ** *YOERAD* - CONTROL OPTIONS FOR RADIATION CONFIGURATION
12!     ------------------------------------------------------------------
13
14! Here we have hard-coded the options that configure the radiation
15! scheme; in the IFS they are set in suecrad.F90 with the option to
16! override them using the NAERAD namelist
17TYPE :: TERAD
18  INTEGER(KIND=JPIM) :: NSW = 6
19  INTEGER(KIND=JPIM) :: NLWEMISS = 2
20  INTEGER(KIND=JPIM) :: NICEOPT = 3
21  INTEGER(KIND=JPIM) :: NLIQOPT = 4
22  INTEGER(KIND=JPIM) :: NRADIP = 3
23  INTEGER(KIND=JPIM) :: NRADLP = 2
24  INTEGER(KIND=JPIM) :: NLWOUT = 1
25  INTEGER(KIND=JPIM) :: NDECOLAT = 2
26  INTEGER(KIND=JPIM) :: NMINICE = 1
27  INTEGER(KIND=JPIM) :: NAERMACC = 1
28  INTEGER(KIND=JPIM) :: NMCVAR = 12
29  INTEGER(KIND=JPIM) :: NLWSCATTERING = 1
30  INTEGER(KIND=JPIM) :: NSWSOLVER = 3 ! Tripleclouds
31  INTEGER(KIND=JPIM) :: NLWSOLVER = 3 ! Tripleclouds
32  INTEGER(KIND=JPIM) :: NSOLARSPECTRUM = 0
33  INTEGER(KIND=JPIM) :: NDUMPBADINPUTS = 0
34  INTEGER(KIND=JPIM) :: NDUMPINPUTS = 0
35  INTEGER(KIND=JPIM) :: NCLOUDOVERLAP = 3
36  REAL(KIND=JPRB)    :: RCLOUD_FRAC_STD = 1.0_JPRB
37  REAL(KIND=JPRB)    :: RCLOUD_SEPARATION_SCALE_TOA = 14000.0_JPRB
38  REAL(KIND=JPRB)    :: RCLOUD_SEPARATION_SCALE_SURF = 2500.0_JPRB
39  LOGICAL :: LFU_LW_ICE_OPTICS_BUG = .FALSE.
40  LOGICAL :: LDIAGFORCING = .FALSE.
41  LOGICAL :: LAPPROXLWUPDATE = .TRUE.
42  LOGICAL :: LAPPROXSWUPDATE = .FALSE.
43  LOGICAL :: LCCNL = .TRUE.
44  LOGICAL :: LCCNO = .TRUE.
45  REAL(KIND=JPRB) :: RCCNLND = 900.0_JPRB
46  REAL(KIND=JPRB) :: RCCNSEA = 50.0_JPRB
47  REAL(KIND=JPRB) :: RRE2DE = 0.64952_JPRB
48  REAL(KIND=JPRB) :: RMINICE = 60.0_JPRB
49
50  ! Look-up table for Planck function in emissivity intervals
51  TYPE(TSPECTRALPLANCK) :: YSPECTPLANCK
52
53END TYPE TERAD
54!============================================================================
55
56TYPE(TERAD), POINTER :: YRERAD => NULL()
57
58
59!        * E.C.M.W.F. PHYSICS PACKAGE *
60
61!     J.-J. MORCRETTE       E.C.M.W.F.      89/07/14
62! Modifications
63!    R J Hogan 20 May  2014: Added LApproxLwUpdate
64!    R J Hogan 19 June 2014: Added LApproxSwUpdate
65!    R J Hogan 19 Nov  2014: Added LCentredTimeSZA
66!    R J Hogan 15 Apr  2015: Added LMannersSwUpdate
67!    R J Hogan 24 Apr  2015: Added LAverageSZA
68!    R J Hogan 18 Sept 2015: Added LUsePre2017Rad (was LUsePre2015Rad)
69!    R J Hogan 1  Mar  2016: Added NLwSolver, NSwSolver, NLwScattering
70!    A Bozzo      Feb  2017: Added logical to enable 3D aerosol climatology
71!    R J Hogan 9  Mar  2018: Added NDUMPBADINPUTS
72!    R J Hogan 22 Jan  2019: Added NLWEMISS, NCLOUDOVERLAP, NDUMPINPUTS
73!    R J Hogan 4  Feb  2019: Added NLWOUT
74!    R J Hogan 5  Feb  2019: Added YSPECTPLANCK
75!    R J Hogan 11 Mar  2019: Added CGHG*FILE, CSOLARIRRADIANCEFILE
76
77!  NAME     TYPE     PURPOSE
78!  ----  :  ----   : ---------------------------------------------------
79! LERAD1H: LOGICAL : .T. TO ALLOW MORE FREQUENT RADIATION CALCULATIONS
80!                  : DURING FIRST N HOURS OF FORECAST
81! NLNGR1H: INTEGER : NUMBER FORECAST HOURS DURING WHICH MORE FREQUENT
82!                    RADIATION CALCULATIONS ARE REQUIRED
83! LEPO3RA: LOGICAL : .T. IF PROGNOSTIC OZONE (EC) IS PASSED TO RADIATION
84! NAER   : INTEGER : CONFIGURATION INDEX FOR AEROSOLS
85! NMODE  : INTEGER : CONFIGURATION FOR RADIATION CODE: FLUX VS. RADIANCE
86! NOZOCL : INTEGER : CHOICE OF OZONE CLIMATOLOGY (0 old, 1 new)
87! NRADFR : INTEGER : FREQUENCY OF FULL RADIATION COMPUTATIONS
88!                    IF(NRADFR.GT.0): RAD EVERY 'NRADFR' TIME-STEPS
89!                    IF(NRADFR.LT.0): RAD EVERY '-NRADFR' HOURS
90! NRADPFR: INTEGER : PRINT FREQUENCY FOR RAD.STATISTICS (in RAD.T.STEPS)
91! NRADPLA: INTEGER : PRINT RAD.STATISTICS EVERY 'NRADPLA' ROWS
92! NRADINT: INTEGER : RADIATION INTERPOLATION METHOD
93!                  : 1 = SPECTRAL TRANSFORM INTERPOLATION
94!                  : 2 =  4 POINT HORIZONTAL INTERPOLATION
95!                  : 3 = 12 POINT HORIZONTAL INTERPOLATION
96! NRADRES: INTEGER : RADIATION GRID SPECTRAL RESOLUTION
97! NRADNFR: INTEGER : NORMAL   FREQUENCY OF RADIATION STEPS
98! NRADSFR: INTEGER : START-UP FREQUENCY OF RADIATION STEPS
99! NRADE1H: INTEGER : START-UP FREQUENCY OF RADIATION STEPS FOR EPS
100! NRADE3H: INTEGER : SUBSEQUENT FREQUENCY OF RADIATION STEPS FOR EPS
101! NRADELG: INTEGER : LENGTH IN HOURS DURING WHICH THE FREQUENCY OF RADIATION IS INCREASED FOR EPS
102! NOVLP  : INTEGER : CLOUD OVERLAP CONFIGURATION IN PRE-MCRAD/ECRAD SCHEME
103!                  : 1 = Max-rand (Geleyn & Hollingsworth)
104!                  : 2 = Maximum
105!                  : 3 = Random
106! NRPROMA: INTEGER : VECTOR LENGTH FOR RADIATION CALCULATIONS
107! NSW    : INTEGER : NUMBER OF SHORTWAVE SPECTRAL INTERVALS
108! NSWNL  : INTEGER : NUMBER OF SHORTWAVE SPECTRAL INTERVALS IN NL MODEL
109! NSWTL  : INTEGER : NUMBER OF SHORTWAVE SPECTRAL INTERVALS IN TL MODEL
110! NTSW   : INTEGER : MAXIMUM POSSIBLE NUMBER OF SW SPECTRAL INTERVALS
111! NUV    : INTEGER : NUMBER OF UV SPECTRAL INTERVALS FOR THE UV PROCESSOR   
112! LOPTRPROMA:LOGICAL: .T. NRPROMA will be optimised
113!                   : .F. NRPROMA will not be optimised (forced
114!                   :         by negative NRPROMA in namelist)
115
116! NRADIP : INTEGER : INDEX FOR DIAGNOSIS OF ICE CLOUD EFFECTIVE RADIUS
117!          0 = fixed at 40 microns
118!          1 = Liou & Ou (1994) capped between 40-130 microns
119!          2 = Liou & Ou but capped between 30 and 60 microns
120!          3 = Sun & Rikus (1999) revised by Sun (2001)
121! NRADLP : INTEGER : INDEX FOR DIAGNOSIS OF LIQ. CLOUD EFFECTIVE RADIUS
122!          0 = ERA-15 function of pressure
123!          1 = 10 microns over land, 13 microns over sea
124!          2 = Martin_et_al (1994) in terms of land-sea number conc
125!          3 = Linked to prognostic aerosols
126! NICEOPT: INTEGER : INDEX FOR ICE CLOUD OPTICAL PROPERTIES
127!          0 = SW Ebert-Curry, LW Smith & Shi (1992)
128!          1 = SW Ebert-Curry, LW Ebert-Curry (1992)
129!          2 = SW & LW Fu-Liou (1993)
130!          3 = SW Fu (1996) LW Fu et al. (1998) + Chou et al. (1999) LW scatt approx
131!   the following only available in newer modular radiation scheme:
132!          4 = SW/LW Baran data fitted versus ice mixing ratio
133! NLIQOPT: INTEGER : INDEX FOR LIQUID WATER CLOUD OPTICAL PROPERTIES
134!          0 = SW Fouquart (1991) LW Smith-Shi (1992) YF/SmSh
135!          1 = SW Slingo (1989) LW Savijarvi (1997)
136!          2 = SW Slingo (1989) LW Lindner-Li (2000)
137!   the following only available in RADLSW, not RADLSWR:
138!          3 = SW Nielsen       LW Smith-Shi
139!   the following only available in newer modular radiation scheme:
140!          4 = SW/LW SOCRATES scheme
141!
142! LONEWSW: LOGICAL : .T. IF NEW SW CODE IS ACTIVE
143! LECSRAD: LOGICAL : .T. IF CLEAR-SKY RADIATION IS ARCHIVED AS PEXTR2
144! NCSRADF: INTEGER : 1 IF ACCUMULATED, 2 IF INSTANTANEOUS
145! LRRTM  : LOGICAL : .T. IF RRTM140MR IS USED FOR LW RADIATION TRANSFER
146
147! LHVOLCA: LOGICAL : .T. IF USING HISTORICAL VOLCANIC AEROSOLS
148! LNEWAER: LOGICAL : .T. IF AEROSOL MONTHLY DISTRIBUTIONS ARE USED
149! LNOTROAER:LOGICAL: .T. IF NO TROPOSPHERIC AEROSOLS
150! CRTABLEDIR: CHAR : IF NRADINT > 0 SPECIFIES DIRECTORY PATH FOR RADIATION
151!                  : GRID RTABLE NAMELIST
152! CRTABLEFIL: CHAR : IF NRADINT > 0 SPECIFIES FILE NAME OF RADIATION
153!                  : GRID RTABLE NAMELIST
154! LRAYL  : LOGICAL : .T. NEW RAYLEIGH FOR SW-6 VERSION
155
156! RAOVLP : REAL    : COEFFICIENTS FOR ALPHA1 FACTOR IN HOGAN &
157! RBOVLP : REAL    : ILLINGWORTH's PARAMETRIZATION
158
159! LCCNL  : LOGICAL : .T. IF CCN CONCENTRATION OVER LAND IS DIAGNOSED
160! LCCNO  : LOGICAL : .T. IF CCN CONCENTRATION OVER OCEAN IS DIAGNOSED
161! RCCNLND: REAL    : NUMBER CONCENTRATION (CM-3) OF CCNs OVER LAND
162! RCCNSEA: REAL    : NUMBER CONCENTRATION (CM-3) OF CCNs OVER SEA
163
164! LDIFFC : LOGICAL : .T. IF SAVIJARVI'S DIFFUSIVITY CORRECTION IS ON
165
166! NINHOM : INTEGER : 0 IF NO INHOMOGENEITY SCALING EFFECT
167!                    1 IF SIMPLE 0.7 SCALING
168!                    2 IF BARKER, 3 IF CAIRNS ET AL.
169! RLWINHF: REAL    : INHOMOG. SCALING FACTOR FOR CLOUD LW OPTICAL THICKNESS
170! RSWINHF: REAL    : INHOMOG. SCALING FACTOR FOR CLOUD SW OPTICAL THICKNESS
171
172! NPERTAER : INTERGER : PERCENTAGE OF PERTURBATION FOR AEROSOL   
173! NPERTOZONE : INTEGER : PERCENTAGE OF PERTURBATION FOR OZONE
174! NHINCSOL : INTEGER :  0: Total Solar Irradiance (TSI) fixed at 1366.0 W m-2
175!                       1: Deprecated - use default
176!                       2: Deprecated - use default
177!                       3: Deprecated (was CMIP5) - use default
178!                       4: TSI from CMIP6 NetCDF (default), or override with CSOLARIRRADIANCEFILE
179! NSWWVCONTINUUM : INTEGER : 0 MT_CKD2.5 (SRTM default WV continuum)
180!                            1 CAVIAR continuum (Shine et al. 2016)
181! LECO2VAR: LOGICAL: .T. IF ERA-40/AMIP2 VARIABILITY OF GHG IS ON (ignored)
182! LHGHG  : LOGICAL : .T. IF VARIABILITY OF GREENHOUSE GASES (INCLUDING CO2) IS ON
183! N.B.: LHGHG supersedes LECO2VAR and allows using better specification of trace gases
184! NSCEN  : INTEGER : 21st CENTURY SCENARIO FOR GHG (1=A1B, 2=A2, 3=B1)
185! RRe2De : REAL    : CONVERSION FACTOR BETWWEN EFFECTIVE RADIUS AND PARTICLE SIZE
186! RMINICE: REAL    : MINIMUM SIZE FOR ICE PARTICLES (um)
187!                    FOR ICE
188! NMINICE: INTEGER : 1-6 MINIMUM ICE PARTICLE SIZE DEPENDS ON LATITUDE, 0=INDEPENDENT OF LATITUDE
189! NDECOLAT:INTEGER : DECORRELATION LENGTH FOR CF AND CW
190!                     0: SPECIFIED INDEPENDENT OF LATITUDE, 1: SHONK-HOGAN, 2: IMPROVED
191! NMCICA : INTEGER :  0: NO McICA
192!                     1: McICA w maximum-random in cloud generator
193!                     2: McICA w generalized overlap in cloud generator
194! LESO4HIS: LOGICAL:.T.: Use historical/projected SO4 data per decade and month
195! NGHGRAD: INTEGER : configuration of 3D GHG climatologies accounted for in radiation
196!                     0: global values
197!                     1: CO2       2: CH4    3: N2O    4: NO2    5:CFC11   6:CFC12
198!                    12: CO2+CH4  13: CO2+CH4+N2O     
199!                    16: CO2+CH4+N2O+CFC11+CFC12
200! LETRACGMS: LOGICAL : F=Cariolle climatol. T=GEMS-derived clim for CO2, CH4, O3
201! LAERCLIM : LOGICAL : .T. for output of the climatological aerosol optical depth at 550 nm
202! LAERVISI : LOGICAL : .T. for output of the visibility (from diagnsotic or prognostic aerosols)
203! NVOLCVERT: INTEGER : Vertical distribution of volcanic aerosol
204!                       0: original profile, diagnosed from T
205!                       1: original profile, but upper boundary at 10hPa
206!                       2: lower boundary diagnosed from ozone, upper boundary at 10hPa
207! LVOLCSPEC: LOGICAL : T for specified volcanic aerosol
208! LVOLCDAMP: LOGICAL : T for damping of specified volcanic aerosol from initial value
209! RVOLCSPEC: REAL    : Specified volcanic aerosol (total optical depth) in NH/Tropics/SH
210! RNs                : derived from Avogadro
211! RSIGAIR: invariant terms in expression of Rayleigh scattering cross-section
212! NREDGSW  : INTEGER : 0 full resolution for RRTM_SW (224)
213!                      1 ECMWF High resolution model configuration (_SW: 112)
214!                      2 ECMWF EPS configuration (_SW: 56)
215! NREDGLW  : INTEGER : 0 full resolution for RRTM_LW (256)
216!                      1 ECMWF High resolution model configuration (_LW: 140)
217!                      2 ECMWF EPS configuration (_LW: 70)
218! LDIAGFORCING : LOGICAL : T Write input ozone, ghg and aerosol forcing to 3D fields
219!                            To be used for diagnostics only; do not use in production runs
220! NAERMACC : INTEGER : MACC-derived aerosol climatology on a NMCLAT x NMCLON grid
221! RAESHxx  : REAL    : parameters related to scale height of MACC-derived aerosol climatology
222! CVDAExx  : REAL    : scale heights of MACC-derived aerosol climatology
223! LAERADJDU: LOGICAL : T adjust MACC-derived DU climatology
224! LAERADCLI: LOGICAL : T if radiation uses the MACC-derived aerosol climatology
225! LApproxLwUpdate : LOGICAL : Update the longwave upwelling flux every
226!                             timestep/gridpoint using the stored rate
227!                             of change of the fluxes with respect to
228!                             the surface upwelling longwave flux
229! LApproxSwUpdate : LOGICAL : Update the shortwave upwelling flux
230!                             every gridpoint to account for the local
231!                             value of surface albedo
232! LMannersSwUpdate: LOGICAL : Update the shortwave flux every timestep
233!                             using Manners et al. (2009) correction
234!                             for solar zenith angle change
235! LCentredTimeSZA : LOGICAL : Compute solar zenith angle in radiation
236!                             scheme half way between calls to
237!                             radiation scheme (rather than previous
238!                             behaviour, which is half way between
239!                             calls plus half a model timestep)
240! LAverageSZA     : LOGICAL : Compute an averaged solar zenith angle
241!                             across the time interval required
242!                             (either a model timestep or a radiation
243!                             timestep). Should be used with
244!                             LCentredTimeSZA=TRUE.
245! LUsePre2017Rad  : LOGICAL : Use the pre-2017 radiation scheme, rather
246!                             than the modular scheme contained in the
247!                             separate "radiation" library.  Note that
248!                             the radiation library may make use of the
249!                             pre-2017 RRTM-G gas optics.
250! RCloud_Frac_Std : REAL    : Cloud water content horizontal fractional
251!                             standard deviation in a gridbox
252! LInterpInCloudMean : LOGICAL : When interpolating model fields to
253!                             radiation grid, interpolate in-cloud
254!                             mean water contents?  Better
255!                             conservation achieved by interpolating
256!                             gridbox-means.
257! CGHGCLIMFILE : STRING :     Location of greenhouse gas climatology file,
258!                             or empty if the default is to be used. If it
259!                             starts with "." or "/" then a relative path
260!                             is assumed, otherwise the default directory.
261! CGHGTIMESERIESFILE:STRING : Location of greenhouse gas timeseries
262!                             file, or empty if it is to be worked out
263!                             from the NSCEN, YOECMIP%NGHGCMIP and
264!                             YOECMIP%NRCP variables. If it starts
265!                             with "." or "/" then a relative path is
266!                             assumed, otherwise the default
267!                             directory.
268! CSOLARIRRADIANCEFILE:STRING:Location of Total Solar Irradiance file,
269!                             or empty if the default is to be
270!                             used. If it starts with "." or "/" then
271!                             a relative path is assumed, otherwise
272!                             the default directory.
273! NLWEMISS      : INTEGER :   Number of emissivity spectral intervals, set
274!                             according to the value of NEMISSSCHEME; traditionally
275!                             this has always been 2: outside the IR window and within
276! NLWOUT        : INTEGER :   Number of spectral intervals to pass LW downwelling flux
277!                             to RADHEATN; traditionally this was 1, but this led
278!                             to errors with LAPPROXLWUPDATE=TRUE, which updated
279!                             fluxes using a single broadband emissivity. Now we can
280!                             do approximate updates using full spectral emissivity.
281! ------------------------------------------------------------------
282! THE FOLLOWING ARE ONLY USED FOR THE ECRAD SCHEME (LUsePre2017Rad = .FALSE.)
283! NLwScattering   : INTEGER : 0: No longwave scattering
284!                             1: Longwave scattering by clouds only
285!                             2: Longwave scattering by clouds and aerosols
286! NSwSolver       : INTEGER :
287! NLwSolver       : INTEGER : 0: McICA
288!                             1: SPARTACUS 1D
289!                             2: SPARTACUS 3D
290!                             3: TripleClouds
291! LFU_LW_ICE_OPTICS_BUG : LOGICAL : Continue to use bug in Fu LW ice
292!                             optics whereby single scattering albedo is
293!                             one minus what it should be
294! NSOLARSPECTRUM : INTEGER :  0: Kurucz
295!                             1: Coddington et al. (BAMS 2016)
296! NDUMPBADINPUTS : INTEGER :  0: Warn only if fluxes out of physical bounds
297!                             n: Write netcdf file of bad inputs up to n times per task
298!                            -n: Abort if fluxes ever out of physical bounds
299! NDUMPINPUTS    : INTEGER :  0: Do nothing
300!                             n: Write netcdf file of all inputs up to n times per task
301! NCLOUDOVERLAP  : INTEGER :  Cloud overlap scheme
302!                             1: Maximum-random
303!                             2: Exponential-exponential (the actual behaviour of McRad)
304!                             3: Exponential-random (only option for Tripleclouds and SPARTACUS)
305! RCLOUD_SEPARATION_SCALE_TOA, RCLOUD_SEPARATION_SCALE_SURF : REAL
306!                 Cloud horizontal length scale, in metres, used to
307!                 compute rate of horizontal exchange of radiation
308!                 between clouds and clear skies in SPARTACUS solver
309! ------------------------------------------------------------------
310! KMODTS : INTEGER   : (A Bozzo) switch for different radiative transfer schemes for UV
311!                       = 0 Fouquart&Bonnel adapted by Morcrette and Arola
312!                       = 1 eddington (joseph et al., 1976)
313!                       = 2 pifm (zdunkowski et al., 1980)
314!                       = 3 discrete ordinates (liou, 1973)
315!     ------------------------------------------------------------------
316! TRBKG : REAL tropospheric background OD@550nm for aerosol climatology.
317!                  default for Tegen climatology was 0.03
318! STBKG : REAL stratospheric background OD@550nm for aerosol climatology.
319!     ------------------------------------------------------------------
320! LDUSEASON : LOGICAL enables a monthly-varying scale height for the
321!                     dust aerosol climatology
322! LAER3D : LOGICAL : to enable aerosol climatology in 3D
323
324
325END MODULE YOERAD
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