source: LMDZ6/trunk/libf/phylmd/ecrad/ifsrrtm/yom_ygfl.F90 @ 5408

Last change on this file since 5408 was 4773, checked in by idelkadi, 12 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: 25.2 KB
Line 
1MODULE YOM_YGFL
2
3USE PARKIND1 , ONLY : JPIM, JPRB
4
5IMPLICIT NONE
6SAVE
7
8!-------------------------------------------------------------------------
9! Contains the descriptors of GFL arrays
10!-------------------------------------------------------------------------
11
12! JPGFL : Max number of GFL fields
13! JPNAMED_GFL : Number of currently pre-defined components of GFL
14! JPGHG : Number of greenhouse gas fields
15! JPGRG : Number of reactive gas fields
16! JPCHEM : Number of chemical species
17! JPAERO : Number of active aerosol fields
18! JPAEROUT: Number of output aerosol fields
19! JPUVP : Number of output from UV processor
20! JPTRAC : Number of tracers for diagnostics
21! JPERA40 : Number of ERA40 diagnostic fields
22! JPCH4S  : Number of added fields related to methane
23! JPNOGW  : Number of diagnostic fields for NORO GWD SCHEME
24! JPSLDIA : Number of SL dynamics diagnostic fields
25! JPCHEM_ASSIM : Maximum number of assimilated of chemical species
26!-------------------------------------------------------------------------
27
28INTEGER(KIND=JPIM), PARAMETER :: JPGFL=2163
29INTEGER(KIND=JPIM), PARAMETER :: JPNAMED_GFL=27
30INTEGER(KIND=JPIM), PARAMETER :: JPGHG=3
31INTEGER(KIND=JPIM), PARAMETER :: JPTRAC=10
32INTEGER(KIND=JPIM), PARAMETER :: JPCHEM=66
33INTEGER(KIND=JPIM), PARAMETER :: JPGRG=5       
34INTEGER(KIND=JPIM), PARAMETER :: JPCHEM_ASSIM=5
35INTEGER(KIND=JPIM), PARAMETER :: JPAERO=16
36INTEGER(KIND=JPIM), PARAMETER :: JPFORC=1800
37INTEGER(KIND=JPIM), PARAMETER :: JPERA40=14
38INTEGER(KIND=JPIM), PARAMETER :: JPSLDIA=7
39INTEGER(KIND=JPIM), PARAMETER :: JPEZDIAG=50
40INTEGER(KIND=JPIM), PARAMETER :: JPCH4S=2
41INTEGER(KIND=JPIM), PARAMETER :: JPNOGW=2
42INTEGER(KIND=JPIM), PARAMETER :: JPAEROUT=17
43INTEGER(KIND=JPIM), PARAMETER :: JPUVP=2
44INTEGER(KIND=JPIM), PARAMETER :: JPPHYS=8   
45INTEGER(KIND=JPIM), PARAMETER :: GRIB_CODE_GFL_PHYS=81  ! AJGDB hopefully harmless
46
47TYPE TYPE_GFL_COMP ! Individual field descriptor
48
49SEQUENCE ! daand: necessary to avoid memory corruption with gfortran 4.3.3
50
51CHARACTER(LEN=16)  :: CNAME     = ''        ! ARPEGE field name
52INTEGER(KIND=JPIM) :: IGRBCODE  = -999      ! GRIB code
53LOGICAL            :: LADV      = .FALSE.   ! Field advected or not
54LOGICAL            :: LADV5     = .FALSE.   ! Field advected without wind increments
55LOGICAL            :: LTDIABLIN = .FALSE.   ! Diabatic tendency is interpolated by lin. int.
56LOGICAL            :: LHORTURB  = .FALSE.   ! Horizontal part affected by 3D turbulence
57INTEGER(KIND=JPIM) :: NREQIN    = 0         ! 1 if field requiered in input, 0 if not, -1 if initialised
58                                            ! with a reference value REFVALI
59LOGICAL            :: LREQOUT   = .FALSE.   ! T if field requiered in output
60LOGICAL            :: LGPINGP   = .TRUE.    ! GP field input as GP
61LOGICAL            :: LGP       = .FALSE.   ! Field exists and of grid-point type
62LOGICAL            :: LSP       = .FALSE.   ! Field exists and of spectral type
63LOGICAL            :: LCDERS    = .FALSE.   ! Derivatives required (spectral only)
64LOGICAL            :: LACTIVE   = .FALSE.   ! Field in use
65LOGICAL            :: LTHERMACT = .FALSE.   ! Field thermodynamically active
66REAL(KIND=JPRB)    :: R         = 0.0_JPRB
67REAL(KIND=JPRB)    :: RCP       = 0.0_JPRB
68LOGICAL            :: LT9       = .FALSE.   ! Field in t-dt GFL
69LOGICAL            :: LT1       = .FALSE.   ! Field in t+dt GFL
70LOGICAL            :: LT5       = .FALSE.   ! Field in trajectory GFL
71LOGICAL            :: LPHY      = .FALSE.   ! Field in physics GFL
72LOGICAL            :: LPT       = .FALSE.   ! Field in PC phy. tend. GFL (GFLPT)
73LOGICAL            :: LTRAJIO   = .FALSE.   ! Field written to and from trajectory structure
74LOGICAL            :: LDIAG     = .FALSE.   ! Field is "diagnostic" at t; e.g. cloud fraction
75LOGICAL            :: LPC       = .FALSE.   ! Field in predictor/corrector time stepping (GFLPC)
76REAL(KIND=JPRB)    :: REFVALI   = 0.0_JPRB  ! Reference value for init, used in case NREQIN==-1
77! LAM specific attributes (Arome/Aladin)
78LOGICAL            :: LADJUST0  = .FALSE.   ! True if field is thermodynamically adjusted at t
79                                            ! (immediatly after inverse spectral transforms)
80LOGICAL            :: LADJUST1  = .FALSE.   ! True if field is thermodynamically adjusted at t+dt
81                                            ! (after SL interpolations and NL residuals)
82INTEGER(KIND=JPIM) :: NCOUPLING = 0         ! 1 if field is coupled by Davies relaxation, 0 if not,
83                                            ! -1 if coupled with reference value for coupling REFVALC
84REAL(KIND=JPRB)    :: REFVALC   = 0.0_JPRB  ! Reference value for coupling, used in case NCOUPLING==-1
85LOGICAL            :: LBIPER    = .FALSE.   ! True if field must be biperiodised inside the transforms
86! End LAM specific attributes (Arome/Aladin)
87CHARACTER(LEN=12)  :: CSLINT    = ''        ! S.L interpolaion "type"
88INTEGER(KIND=JPIM) :: MP        = -99999999 ! Basic field "pointer"
89INTEGER(KIND=JPIM) :: MPL       = -99999999 ! zonal derivative "pointer"
90INTEGER(KIND=JPIM) :: MPM       = -99999999 ! Meridional derivative "pointer"
91INTEGER(KIND=JPIM) :: MP9       = -99999999 ! Basic field "pointer" t-dt
92INTEGER(KIND=JPIM) :: MP9_PH    = -99999999 ! Basic field "pointer" for Physics
93INTEGER(KIND=JPIM) :: MP1       = -99999999 ! Basic field "pointer" t+dt
94INTEGER(KIND=JPIM) :: MP5       = -99999999 ! Basic field "pointer" trajectory
95INTEGER(KIND=JPIM) :: MP5L      = -99999999 ! zonal derivative "pointer" trajectory
96INTEGER(KIND=JPIM) :: MP5M      = -99999999 ! Meridional derivative "pointer" trajectory
97INTEGER(KIND=JPIM) :: MPSLP     = -99999999 ! Basic field "pointer" physics
98INTEGER(KIND=JPIM) :: MPSP      = -99999999 ! Basic field "pointer" spectral space
99INTEGER(KIND=JPIM) :: MP_SPL    = -99999999 ! Basic field "pointer" spline interpolation
100INTEGER(KIND=JPIM) :: MP_SL1    = -99999999 ! Basic field "pointer" in SLBUF1
101INTEGER(KIND=JPIM) :: MP_SLX    = -99999999 ! Basic field "pointer" in SLBUF1 for CPG_PT
102INTEGER(KIND=JPIM) :: MPPT      = -99999999 ! Physics tendency "pointer"
103INTEGER(KIND=JPIM) :: MPPC      = -99999999 ! Predictor/corrector auxiliary array "pointer"
104
105! daand: INTFLEX attributes
106LOGICAL            :: LWATER                ! TRUE for water species
107LOGICAL            :: LPRECIP               ! TRUE for precipitating water species
108REAL(KIND=JPRB)    :: RLZER                 ! Latent heat change at 0K
109
110! gems nl ext
111INTEGER(KIND=JPIM) :: NCOUPLO4              ! Coupled to CTM by OASIS4 intefrace
112LOGICAL            :: LASSIM                ! use as Control Variable (either monitored or assimilated)
113INTEGER(KIND=JPIM) :: IGRIBDV               ! GRIB code of deposition velocity
114INTEGER(KIND=JPIM) :: IGRIBTC               ! GRIB code of Total Column
115INTEGER(KIND=JPIM) :: IGRIBSFC              ! GRIB code of Surface Flux
116LOGICAL            :: LDIFF                 ! Diffusion  on
117LOGICAL            :: LCONV                 ! Convection on
118REAL(KIND=JPRB)    :: RMOLMASS              ! Molar Mass
119REAL(KIND=JPRB)    :: REFOLD                ! Efolding decay time
120REAL(KIND=JPRB)    :: HENRYA                ! Henry constant a
121REAL(KIND=JPRB)    :: HENRYB                ! Henry constant b
122LOGICAL            :: LNEGFIX               ! Cut off negative values in sugridug an
123LOGICAL            :: LMASSFIX              ! Correct mass error of sl advection in gpmodel (if LTRCMFIX)
124TYPE(TYPE_GFL_COMP),POINTER :: PREVIOUS     ! Pointer to previously def. field
125
126END TYPE TYPE_GFL_COMP
127
128TYPE TYPE_GFL_NAML ! Individual field descriptor for namelist input
129
130SEQUENCE ! daand: necessary to avoid memory corruption with gfortran 4.3.3
131
132CHARACTER(LEN=16)  :: CNAME     ! ARPEGE field name
133INTEGER(KIND=JPIM) :: IGRBCODE  ! GRIB code
134INTEGER(KIND=JPIM) :: NREQIN    ! 1 if field required in input, 0 if not, -1 if initialised
135                                ! with a reference value REFVALI
136REAL(KIND=JPRB) :: REFVALI      ! Reference value for initialisation, used in case NREQIN==-1
137LOGICAL :: LREQOUT              ! T if field requiered in output
138LOGICAL :: LGPINGP              ! GP field input as GP
139LOGICAL :: LGP                  ! Field exists and of grid-point type
140LOGICAL :: LSP                  ! Field exists and of spectral type
141LOGICAL :: LCDERS               ! Derivatives required (spectral only)
142LOGICAL :: LT9                  ! Field in t-dt GFL
143LOGICAL :: LT1                  ! Field in t+dt GFL
144LOGICAL :: LT5                  ! Field in trajectory GFL
145LOGICAL :: LPHY                 ! Field with physics tendencies GFL
146LOGICAL :: LPT                  ! Field in PC physics tendency GFLPT
147LOGICAL :: LTRAJIO              ! Field written to and from trajectory structure
148LOGICAL :: LDIAG                ! Field is "diagnostic" at t; e.g. cloud fraction
149LOGICAL :: LPC                  ! Field in predictor/corrector time stepping GFLPC
150LOGICAL :: LADV                 ! Field advected or not
151LOGICAL :: LADV5                ! Field advected without wind increments
152LOGICAL :: LINTLIN              ! Linear interpolation for field
153LOGICAL :: LTDIABLIN            ! Diabatic tendency is interpolated by linear int.
154LOGICAL :: LHORTURB             ! Horizontal part affected by 3D turbulence
155LOGICAL :: LQM                  ! quasi-monotonous interpolation for field
156LOGICAL :: LQMH                 ! quasi-monotonous interpolation in horizontal for field
157LOGICAL :: LQM3D                ! quasi-monotone interpolation applied directly in 3 dimensions
158LOGICAL :: LSLHD                ! Semi-lagrangian horizontal diffusion used for field
159LOGICAL :: LCOMAD               ! COMAD weights used for SL interpolation of field
160LOGICAL :: LHV                  ! Hermite vertical interpolation used for field (only ozone sofar)
161LOGICAL :: LVSPLIP              ! vertical spline interpolation used for field (only ozone sofar)
162INTEGER(KIND=JPIM) :: NCOUPLING ! 1 if field is coupled by Davies relaxation, 0 if not,
163                                ! -1 if coupled with reference value for coupling REFVALC
164REAL(KIND=JPRB) :: REFVALC      ! Reference value for coupling, used in case
165                                ! NCOUPLING==-1
166! gems nl ext
167INTEGER(KIND=JPIM)  :: NCOUPLO4 ! Coupled to CTM by OASIS4 intefrace =1 input,=2 in&output,=-1 none
168LOGICAL             :: LASSIM   ! use as Control Variable (either monitored or assimilated)
169INTEGER(KIND=JPIM)  :: IGRIBDV  ! GRIB code of deposition velocity
170INTEGER(KIND=JPIM)  :: IGRIBTC  ! GRIB code of Total Column
171INTEGER(KIND=JPIM)  :: IGRIBSFC ! GRIB code of Surface Flux
172LOGICAL             :: LDIFF    ! Diffusion  on
173LOGICAL             :: LCONV    ! Convection on
174LOGICAL             :: LNEGFIX  ! Cut off negative values in sugridug and callpar
175LOGICAL             :: LMASSFIX ! Correct mass error of sl advection in gpmodel (if LTRCMFIX)
176REAL(KIND=JPRB)     :: RMOLMASS ! Molar Mass
177REAL(KIND=JPRB)     :: REFOLD   ! Efolding  decay time
178REAL(KIND=JPRB)     :: HENRYA   ! Henry constant a
179REAL(KIND=JPRB)     :: HENRYB   ! Henry constant b
180
181END TYPE TYPE_GFL_NAML
182
183!-------------------------------------------------------------------------
184! Derived types for describing the GFL structure.
185!-------------------------------------------------------------------------
186! Modifications:
187! 03/07/09 C. Fischer - add Arome/Aladin attributes
188! 03/10/01 C. Moussy  - add Arome/Aladin attributes coupling
189! 03/10/31 M. Tudor   - add physics tendencies for predictor-corrector
190! 05/10/10 J. Haseler - switch for I/O to trajectory structure
191! 2004-Nov F. Vana    - update of CSLINT attribute
192! 20-Feb-2005 Vivoda  - 3TL Eul PC scheme (GFLPC)
193! 07/06/27 E. Holm    - TL/AD advection without wind increments LADV5
194! 12/04/08 J. Flemming - GFL attribute extention for GEMS
195! 22-Feb-11 F. Vana   - LTDIABLIN and LHORTURB
196! spring 2011 ECMWF   - LINTLIN
197! Nov. 2013           - LCOMAD
198! 2013-11, D. Degrauwe - INTFLEX attributes
199
200TYPE TYPE_GFLD
201
202SEQUENCE ! daand: necessary to avoid memory corruption with gfortran 4.3.3
203
204! Overall descriptor,dimensioning etc.
205INTEGER(KIND=JPIM) :: NUMFLDS     = 0  ! Number of GFL fields
206INTEGER(KIND=JPIM) :: NDERS       = 0  ! Number of horizontal derivatives fields
207INTEGER(KIND=JPIM) :: NUMSPFLDS   = 0  ! Number of spectrally represented GFL fields
208INTEGER(KIND=JPIM) :: NUMGPFLDS   = 0  ! Number of grid-point GFL fields
209INTEGER(KIND=JPIM) :: NUMFLDS9    = 0  ! Number of GFL fields in (t-dt) part
210INTEGER(KIND=JPIM) :: NUMFLDS1    = 0  ! Number of GFL fields in (t+dt) array
211INTEGER(KIND=JPIM) :: NUMSPFLDS1  = 0  ! Number of spectrally represented GFL fields (t+dt)
212INTEGER(KIND=JPIM) :: NUMFLDS5    = 0  ! Number of GFL fields (trajectory)
213INTEGER(KIND=JPIM) :: NUMFLDSPHY  = 0  ! Number of GFL fields (phys.)
214INTEGER(KIND=JPIM) :: NUMFLDS_SPL = 0  ! Number of GFL fields (S.L. spline interpolation)
215INTEGER(KIND=JPIM) :: NUMFLDS_SL1 = 0  ! Number of GFL fields in S.L. buffer 1
216INTEGER(KIND=JPIM) :: NUMFLDSPC   = 0  ! Number of GFL fields (predictor/corrector)
217INTEGER(KIND=JPIM) :: NDIM        = 0  ! Dimension of main array holding GFL fields(GFL)
218INTEGER(KIND=JPIM) :: NUMFLDSPT   = 0  ! Number of GFL fields (phy. tend.)
219INTEGER(KIND=JPIM) :: NDIM0       = 0  ! Dimension of t0 part of GFL
220INTEGER(KIND=JPIM) :: NDIM9       = 0  ! Dimension of t-dt part of GFL
221INTEGER(KIND=JPIM) :: NDIM1       = 0  ! Dimension of t+dt array (GFLT1)
222INTEGER(KIND=JPIM) :: NDIM5       = 0  ! Dimension of traj. GFL array (GFL5)
223INTEGER(KIND=JPIM) :: NDIMSLP     = 0  ! Diminsion of S.L. phys. GFL array (GFLSLP)
224INTEGER(KIND=JPIM) :: NDIM_SPL    = 0  ! Dim. of arrays holding GFL fields (S.L.spline int.)
225INTEGER(KIND=JPIM) :: NDIMPT      = 0  ! Dimension of phy. tend. GFL array (GFLPT)
226INTEGER(KIND=JPIM) :: NDIMPC      = 0  ! Dimension of iterative scheme auxiliary array (GFLPC)
227
228INTEGER(KIND=JPIM) :: NGFL_EXT
229INTEGER(KIND=JPIM) :: NGFL_FORC
230INTEGER(KIND=JPIM) :: NGFL_EZDIAG
231INTEGER(KIND=JPIM) :: NGHG
232INTEGER(KIND=JPIM) :: NTRAC
233INTEGER(KIND=JPIM) :: NGRG
234INTEGER(KIND=JPIM) :: NGRG_CPLO4
235INTEGER(KIND=JPIM) :: NGRG_ASSIM
236INTEGER(KIND=JPIM) :: NAERO
237INTEGER(KIND=JPIM) :: NACTAERO
238INTEGER(KIND=JPIM) :: NDDHAERO
239INTEGER(KIND=JPIM) :: NERA40
240INTEGER(KIND=JPIM) :: NNOGW
241INTEGER(KIND=JPIM) :: NAEROUT
242INTEGER(KIND=JPIM) :: NUVP
243INTEGER(KIND=JPIM) :: NSLDIA
244INTEGER(KIND=JPIM) :: NSLDIAGP
245INTEGER(KIND=JPIM) :: NGFL_PHYS
246LOGICAL :: LCO2SFC
247LOGICAL :: LCH4SFC
248LOGICAL :: LAEROSFC
249LOGICAL :: LFIRE
250LOGICAL :: LAERODIU
251LOGICAL :: LTRCMFIX       ! Activates tracer mass fixer
252LOGICAL :: LTRCMFIX_PS    ! Adjust pressure to conserve dry mass in mass fixer calculations
253LOGICAL :: LAEROUT
254LOGICAL :: LUVPOUT
255LOGICAL :: LCHEM
256
257INTEGER(KIND=JPIM) :: NGEMS   ! The total number of "GEMS" fields.
258INTEGER(KIND=JPIM) :: NCHEM
259INTEGER(KIND=JPIM) :: NCHEM_ASSIM
260INTEGER(KIND=JPIM) :: NCHEM_FLX
261INTEGER(KIND=JPIM) :: NCHEM_DV
262INTEGER(KIND=JPIM) :: NCHEM_TC
263INTEGER(KIND=JPIM) :: NCHEM_SCV
264
265!     ------------------------------------------------------------------
266!      Mass fixers
267!     ------------------------------------------------------------------
268INTEGER(KIND=JPIM) :: NNEGAFIX     ! Num of fields to apply -ve fixer
269INTEGER(KIND=JPIM) :: NOPTNEGFIX   ! 1: simple negative fixer (reset to 0)
270                                   ! 2: reset to local minimum
271
272LOGICAL :: LQM3DCONS      ! Bermejo & Staniforth quasi-monotone limiter with improved
273                          ! conservation option. When true, applied to all GFL s.t. LQM3D=true
274LOGICAL :: LADVNEGFIX              ! Activates negative fixer for advection
275LOGICAL :: LTRCMFBC                ! Activate Bermejo & Conde if true
276LOGICAL :: LTRCMFPR                ! Activate Priestley algorithm if true
277LOGICAL :: LTRCMFMG                ! Activate Mac Gregor's algorithm if true
278LOGICAL :: LEXTRADF                ! Extra diagnostics
279
280
281INTEGER(KIND=JPIM) :: NFLDSFIX     ! Number of fields to be fixed
282INTEGER(KIND=JPIM) :: NOPTMFIX     ! Bermejo & Conde fixer option for calculating its weight
283INTEGER(KIND=JPIM) :: NOPTVFE      ! Use Vertical FE in calculation of column mass total
284INTEGER(KIND=JPIM) :: NPMFIX       ! Parameter used in weight calculation
285INTEGER(KIND=JPIM) :: NMFDIAGLEV   ! Determines global diagnostic output level for fixer:
286                                   ! 0 - nothing, 1 - norms printed, 2 - norms + monotonicity
287INTEGER(KIND=JPIM) :: NMFIXFLDS(JPNAMED_GFL+JPGHG+JPGRG+JPCHEM+JPAERO+JPTRAC)
288                                   ! Index of fields to be corrected by mass fixers
289INTEGER(KIND=JPIM) :: NNEGFLDS(JPNAMED_GFL+JPGHG+JPGRG+JPCHEM+JPAERO+JPTRAC) 
290                                   ! Index of fields to be corrected by SL -ve fixer
291REAL(KIND=JPRB)    :: ZMFIXEPS     ! Threshold for mass fixing scheme
292
293TYPE(TYPE_GFL_COMP) :: YCOMP(JPGFL)    ! General descriptor of all components
294
295TYPE(TYPE_GFL_COMP),POINTER  :: YQ          => NULL() ! Specific humidity
296TYPE(TYPE_GFL_COMP),POINTER  :: YI          => NULL() ! Ice water
297TYPE(TYPE_GFL_COMP),POINTER  :: YL          => NULL() ! Liquid water
298TYPE(TYPE_GFL_COMP),POINTER  :: YLCONV      => NULL() ! Liquid water (CONV. PART)
299TYPE(TYPE_GFL_COMP),POINTER  :: YICONV      => NULL() ! Ice    water (CONV. PART)
300TYPE(TYPE_GFL_COMP),POINTER  :: YRCONV      => NULL() ! Rain         (CONV. PART)
301TYPE(TYPE_GFL_COMP),POINTER  :: YSCONV      => NULL() ! Snow         (CONV. PART)
302TYPE(TYPE_GFL_COMP),POINTER  :: YIRAD       => NULL() ! Radiative cloud Ice water
303TYPE(TYPE_GFL_COMP),POINTER  :: YLRAD       => NULL() ! Radiative cloud Liquid water
304TYPE(TYPE_GFL_COMP),POINTER  :: YS          => NULL() ! Snow
305TYPE(TYPE_GFL_COMP),POINTER  :: YR          => NULL() ! Rain
306TYPE(TYPE_GFL_COMP),POINTER  :: YG          => NULL() ! Graupel
307TYPE(TYPE_GFL_COMP),POINTER  :: YH          => NULL() ! Hail
308TYPE(TYPE_GFL_COMP),POINTER  :: YTKE        => NULL() ! Turbulent Kinetic Energy
309TYPE(TYPE_GFL_COMP),POINTER  :: YTTE        => NULL() ! Turbulent Total Energy
310TYPE(TYPE_GFL_COMP),POINTER  :: YEFB1       => NULL() ! First variable EFB scheme
311TYPE(TYPE_GFL_COMP),POINTER  :: YEFB2       => NULL() ! Second variable EFB scheme
312TYPE(TYPE_GFL_COMP),POINTER  :: YEFB3       => NULL() ! Third variable EFB scheme
313TYPE(TYPE_GFL_COMP),POINTER  :: YA          => NULL() ! Cloud fraction
314TYPE(TYPE_GFL_COMP),POINTER  :: YO3         => NULL() ! Ozone
315TYPE(TYPE_GFL_COMP),POINTER  :: YSRC        => NULL() ! Second-order flux for AROME s'rc'/2Sigma_s2 multiplied by Lambda_3
316TYPE(TYPE_GFL_COMP),POINTER  :: YMXL        => NULL() ! Prognostic mixing length
317TYPE(TYPE_GFL_COMP),POINTER  :: YSCC2       => NULL() ! Saturation deficit^2 for Tompkins
318TYPE(TYPE_GFL_COMP),POINTER  :: YGCCA       => NULL() ! Skewness for Tompkins
319TYPE(TYPE_GFL_COMP),POINTER  :: YCPF        => NULL() ! Convective precipitation flux
320TYPE(TYPE_GFL_COMP),POINTER  :: YSPF        => NULL() ! Stratiform precipitation flux
321TYPE(TYPE_GFL_COMP),POINTER  :: YCVGQ       => NULL() ! Moisture Convergence for french physics
322TYPE(TYPE_GFL_COMP),POINTER  :: YQVA        => NULL() ! total humidity variation
323TYPE(TYPE_GFL_COMP),POINTER  :: YGHG(:)     => NULL() ! Greenhouse Gases
324TYPE(TYPE_GFL_COMP),POINTER  :: YGRG(:)     => NULL() ! Reactive Gases
325TYPE(TYPE_GFL_COMP),POINTER  :: YCHEM(:)    => NULL() ! Chemistry
326TYPE(TYPE_GFL_COMP),POINTER  :: YGRGTEND(:) => NULL() ! Reactive Gases Tendecies
327TYPE(TYPE_GFL_COMP),POINTER  :: YAERO(:)    => NULL() ! Aerosols
328TYPE(TYPE_GFL_COMP),POINTER  :: YTRAC(:)    => NULL() ! tracers for diagnostics
329TYPE(TYPE_GFL_COMP),POINTER  :: YLRCH4      => NULL() ! CH4 loss rate (instantaneous field)
330TYPE(TYPE_GFL_COMP),POINTER  :: YCH4S       => NULL() ! CH4 atmospheric sink (accumulated field)
331TYPE(TYPE_GFL_COMP),POINTER  :: YFORC(:)    => NULL() ! large scale forcing
332TYPE(TYPE_GFL_COMP),POINTER  :: YEZDIAG(:)  => NULL() ! easy diagnostics
333TYPE(TYPE_GFL_COMP),POINTER  :: YERA40(:)   => NULL() ! ERA40 diagnostic fields
334TYPE(TYPE_GFL_COMP),POINTER  :: YNOGW(:)    => NULL() ! NORO GWD SCHEME
335TYPE(TYPE_GFL_COMP),POINTER  :: YSLDIA(:)   => NULL() ! SL dynamics diagnostics
336TYPE(TYPE_GFL_COMP),POINTER  :: YAEROUT(:)  => NULL() ! Aerosol outputs
337TYPE(TYPE_GFL_COMP),POINTER  :: YUVP(:)     => NULL() ! UV-processor output
338TYPE(TYPE_GFL_COMP),POINTER  :: YPHYS(:)    => NULL() ! PHYS output
339
340
341TYPE(TYPE_GFL_COMP),POINTER  :: YSDSAT      => NULL() ! Standard Deviation of the
342                                                      ! SATuration Depression (Sigma_s)
343TYPE(TYPE_GFL_COMP),POINTER  :: YCVV        => NULL() ! Convective Vertical Velocity
344TYPE(TYPE_GFL_COMP),POINTER  :: YRKTH       => NULL() ! Rasch-Kristjansson H tendency
345TYPE(TYPE_GFL_COMP),POINTER  :: YRKTQV      => NULL() ! Rasch-Kristjansson Qv tendency
346TYPE(TYPE_GFL_COMP),POINTER  :: YRKTQC      => NULL() ! Rasch-Kristjansson Qc tendency
347
348! Prognostic convection variables: add 6 named components
349TYPE(TYPE_GFL_COMP),POINTER  :: YUOM        => NULL() ! Updraught vert velocity
350TYPE(TYPE_GFL_COMP),POINTER  :: YUAL        => NULL() ! Updraught mesh fraction
351TYPE(TYPE_GFL_COMP),POINTER  :: YDOM        => NULL() ! Downdraught vert velocity
352TYPE(TYPE_GFL_COMP),POINTER  :: YDAL        => NULL() ! Downdraught mesh fraction
353TYPE(TYPE_GFL_COMP),POINTER  :: YUEN        => NULL() ! Updraught entrainment
354TYPE(TYPE_GFL_COMP),POINTER  :: YUNEBH      => NULL() ! pseudo-historic convective
355
356! Extra fields
357
358TYPE(TYPE_GFL_COMP),POINTER  :: YEXT(:)     => NULL() ! Extra fields
359
360TYPE(TYPE_GFL_NAML)  :: YQ_NL                 ! Specific humidity
361TYPE(TYPE_GFL_NAML)  :: YI_NL                 ! Ice water
362TYPE(TYPE_GFL_NAML)  :: YL_NL                 ! Liquid water
363TYPE(TYPE_GFL_NAML)  :: YLCONV_NL             ! Liquid water (CONV. PART)
364TYPE(TYPE_GFL_NAML)  :: YICONV_NL             ! Ice    water (CONV. PART)
365TYPE(TYPE_GFL_NAML)  :: YRCONV_NL             ! Rain         (CONV. PART)
366TYPE(TYPE_GFL_NAML)  :: YSCONV_NL             ! Snow         (CONV. PART)
367TYPE(TYPE_GFL_NAML)  :: YIRAD_NL              ! Radiative cloud Ice water
368TYPE(TYPE_GFL_NAML)  :: YLRAD_NL              ! Radiative cloud Liquid water
369TYPE(TYPE_GFL_NAML)  :: YS_NL                 ! Snow
370TYPE(TYPE_GFL_NAML)  :: YR_NL                 ! Rain
371TYPE(TYPE_GFL_NAML)  :: YG_NL                 ! Graupels
372TYPE(TYPE_GFL_NAML)  :: YH_NL                 ! Hail
373TYPE(TYPE_GFL_NAML)  :: YTKE_NL               ! Turbulent Kinetic Energy
374TYPE(TYPE_GFL_NAML)  :: YTTE_NL               ! Turbulent Total Energy
375TYPE(TYPE_GFL_NAML)  :: YEFB1_NL              ! First variable EFB scheme
376TYPE(TYPE_GFL_NAML)  :: YEFB2_NL              ! Second variable EFB scheme
377TYPE(TYPE_GFL_NAML)  :: YEFB3_NL              ! Third variable EFB scheme
378TYPE(TYPE_GFL_NAML)  :: YA_NL                 ! Cloud fraction
379TYPE(TYPE_GFL_NAML)  :: YO3_NL                ! Ozone
380TYPE(TYPE_GFL_NAML)  :: YSRC_NL               ! Second-order flux for AROME
381                                              ! s'rc'/2Sigma_s2
382                                              ! multiplied by Lambda_3
383TYPE(TYPE_GFL_NAML)  :: YMXL_NL               ! Prognostic mixing length
384TYPE(TYPE_GFL_NAML)  :: YSCC2_NL              ! Saturation deficit^2 for Tompkins
385TYPE(TYPE_GFL_NAML)  :: YGCCA_NL              ! Skewness for Tompkins
386TYPE(TYPE_GFL_NAML)  :: YCPF_NL               ! Convective precipitation flux
387TYPE(TYPE_GFL_NAML)  :: YSPF_NL               ! Stratiform precipitation flux
388TYPE(TYPE_GFL_NAML)  :: YCVGQ_NL              ! Moisture Convergence for french physics
389TYPE(TYPE_GFL_NAML)  :: YQVA_NL               ! Total humidity variation
390
391TYPE(TYPE_GFL_NAML)  :: YGHG_NL(JPGHG)        ! Greenhouse Gases
392TYPE(TYPE_GFL_NAML)  :: YGRG_NL(JPGRG)        ! Reactive Gases
393TYPE(TYPE_GFL_NAML)  :: YCHEM_NL(JPCHEM)      ! Chemical species
394TYPE(TYPE_GFL_NAML)  :: YGRGTEND_NL(JPGRG)    ! Reactive Gases Tendecies
395TYPE(TYPE_GFL_NAML)  :: YAERO_NL(JPAERO)      ! Aerosol fields
396TYPE(TYPE_GFL_NAML)  :: YTRAC_NL(JPTRAC)      ! Tracers for diagnostics
397TYPE(TYPE_GFL_NAML)  :: YERA40_NL(JPERA40)    ! ERA40 diagnostic fields
398TYPE(TYPE_GFL_NAML)  :: YNOGW_NL(JPNOGW)      ! NORO GWD SCHEME
399TYPE(TYPE_GFL_NAML)  :: YSLDIA_NL(JPSLDIA)    ! SL dynamics diagnostics
400TYPE(TYPE_GFL_NAML)  :: YLRCH4_NL             ! CH4 loss rate
401TYPE(TYPE_GFL_NAML)  :: YCH4S_NL              ! CH4 atmospheric sink
402TYPE(TYPE_GFL_NAML)  :: YAEROUT_NL(JPAEROUT)  ! Aerosol outputs
403TYPE(TYPE_GFL_NAML)  :: YUVP_NL(JPUVP)        ! UV-processor outputs
404TYPE(TYPE_GFL_NAML)  :: YRKTH_NL              ! Rasch-Kristjansson H tendency
405TYPE(TYPE_GFL_NAML)  :: YRKTQV_NL             ! Rasch-Kristjansson Qv tendency
406TYPE(TYPE_GFL_NAML)  :: YRKTQC_NL             ! Rasch-Kristjansson Qc tendency
407TYPE(TYPE_GFL_NAML)  :: YPHYS_NL(JPPHYS)      ! PHYS outputs
408
409! Extra fields
410TYPE(TYPE_GFL_NAML)  :: YSDSAT_NL             ! Standard Deviation of the
411                                              ! SATuration Depression (Sigma_s)
412TYPE(TYPE_GFL_NAML)  :: YCVV_NL               ! Convective Vertical Velocity
413TYPE(TYPE_GFL_NAML)  :: YFORC_NL(JPFORC)      ! Forcing precursor
414TYPE(TYPE_GFL_NAML)  :: YEZDIAG_NL(JPEZDIAG)  ! Easy diagnostics
415TYPE(TYPE_GFL_NAML)  :: YEXT_NL(JPGFL-JPNAMED_GFL-JPGHG-JPGRG-JPFORC-JPEZDIAG-JPAERO-JPTRAC-JPERA40-&
416 &                              JPNOGW-JPSLDIA-JPCH4S-JPAEROUT-JPUVP-JPCHEM-JPPHYS) ! Extra fields
417
418! Prognostic convection variables: 6 more namelist components
419TYPE(TYPE_GFL_NAML)  :: YUOM_NL               ! Updraught vert velocity
420TYPE(TYPE_GFL_NAML)  :: YUAL_NL               ! Updraught mesh fraction
421TYPE(TYPE_GFL_NAML)  :: YDOM_NL               ! Downdraught vert velocity
422TYPE(TYPE_GFL_NAML)  :: YDAL_NL               ! Downdraught mesh fraction
423TYPE(TYPE_GFL_NAML)  :: YUEN_NL               ! Updraught entrainment
424TYPE(TYPE_GFL_NAML)  :: YUNEBH_NL             ! Pseudi Hist Conv cloud fraction
425
426END TYPE TYPE_GFLD
427
428! GFL general descriptor
429TYPE(TYPE_GFLD), POINTER :: YGFL => NULL()
430
431END MODULE YOM_YGFL
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