source: trunk/LMDZ.GENERIC/libf/phystd/radcommon_h.F90 @ 601

Last change on this file since 601 was 484, checked in by aslmd, 13 years ago

GENERIC: Allocatable gastype in sugas_corrk instead of hardcoded (it was a problem for more than 4 gases) JL + AS.

File size: 4.9 KB
RevLine 
[135]1      module radcommon_h
2
3      use radinc_h
4      implicit none
5
6!----------------------------------------------------------------------C
7!
8!                             radcommon.h
9!
10!----------------------------------------------------------------------C
11!
12!  "Include" grid.h and radinc.h before this file in code that uses
13!  some or all of this common data set
14!
15!     WNOI       - Array of wavenumbers at the spectral interval
16!                  centers for the infrared.  Array is NSPECTI
17!                  elements long.
18!     DWNI       - Array of "delta wavenumber", i.e., the width,
19!                  in wavenumbers (cm^-1) of each IR spectral
20!                  interval.  NSPECTI elements long.
21!     WAVEI      - Array (NSPECTI elements long) of the wavelenght
22!                  (in microns) at the center of each IR spectral
23!                  interval.
24!     WNOV       - Array of wavenumbers at the spectral interval
25!                  center for the VISUAL.  Array is NSPECTV
26!                  elements long.
27!     DWNV       - Array of "delta wavenumber", i.e., the width,
28!                  in wavenumbers (cm^-1) of each VISUAL spectral
29!                  interval.  NSPECTV elements long.
30!     WAVEV      - Array (NSPECTV elements long) of the wavelenght
31!                  (in microns) at the center of each VISUAL spectral
32!                  interval.
33!     STELLARF   - Array (NSPECTV elements) of stellar flux (W/M^2) in
34!                  each spectral interval.  Values are for 1 AU,
35!                  scaled to the planetary distance elsewhere.
36!     TAURAY     - Array (NSPECTV elements) of the pressure-independent
37!                  part of Rayleigh scattering optical depth.
38!     FZEROI     - Fraction of zeros in the IR CO2 k-coefficients, for
39!                  each temperature, pressure, and spectral interval
40!     FZEROV     - Fraction of zeros in the VISUAL CO2 k-coefficients, for
41!                  each temperature, pressure, and spectral interval
42!
43!     AEROSOL RADIATIVE OPTICAL CONSTANTS
44!
45!   Shortwave
46!   ~~~~~~~~~
47!
48! tauvis: dust optical depth at reference wavelength  ("longrefvis" set
49! in dimradmars.h : typically longrefvis = 0.67E-6 m, as measured by Viking )
50!
51! For the "naerkind" kind of aerosol radiative properties :
52! QVISsQREF  :  Qext / Qext("longrefvis")
53! omegavis   :  single scattering albedo
54! gvis       :  assymetry factor
55!
56!   Longwave
57!   ~~~~~~~~
58!
59! For the "naerkind" kind of aerosol radiative properties :
60! QIRsQREF :  Qext / Qext("longrefvis")
61! omegaIR  :  mean single scattering albedo
62! gIR      :  mean assymetry factor
63
64
65      REAL*8 BWNI(L_NSPECTI+1), WNOI(L_NSPECTI), DWNI(L_NSPECTI), WAVEI(L_NSPECTI)
66      REAL*8 BWNV(L_NSPECTV+1), WNOV(L_NSPECTV), DWNV(L_NSPECTV), WAVEV(L_NSPECTV)
67      REAL*8 STELLARF(L_NSPECTV), TAURAY(L_NSPECTV)
68
69      REAL*8 blami(L_NSPECTI+1)
70      REAL*8 blamv(L_NSPECTV+1) ! these are needed by suaer.F90
71
[470]72      !!! ALLOCATABLE STUFF SO THAT DIMENSIONS ARE READ in *.dat FILES -- AS 12/2011 
73      REAL*8, DIMENSION(:,:,:,:,:), ALLOCATABLE :: gasi, gasv
74      REAL*8, DIMENSION(:), ALLOCATABLE :: PGASREF, TGASREF, WREFVAR, PFGASREF
[135]75      real*8 FZEROI(L_NSPECTI)
76      real*8 FZEROV(L_NSPECTV)
77      real*8 pgasmin, pgasmax
78      real*8 tgasmin, tgasmax
79
80      real tauvis
81      real QVISsQREF(L_NSPECTV,naerkind,nsizemax)
82      real omegavis(L_NSPECTV,naerkind,nsizemax)
83      real gvis(L_NSPECTV,naerkind,nsizemax)
84      real QIRsQREF(L_NSPECTI,naerkind,nsizemax)
85      real omegair(L_NSPECTI,naerkind,nsizemax)
86      real gir(L_NSPECTI,naerkind,nsizemax)
87
88
89! Reference wavelengths used to compute reference optical depth (m)
90! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
91
92      REAL lamrefir(naerkind),lamrefvis(naerkind)
93
94! Actual number of grain size classes in each domain for a
95!   given aerosol:
96
97      INTEGER          :: nsize(naerkind,2)
98
99! Particle size axis (depend on the kind of aerosol and the
100!   radiation domain)
101
102      DOUBLE PRECISION :: radiustab(naerkind,2,nsizemax)
103
104! Extinction coefficient at reference wavelengths;
105!   These wavelengths are defined in aeroptproperties, and called
106!   longrefvis and longrefir.
107
108      REAL :: QREFvis(naerkind,nsizemax)
109      REAL :: QREFir(naerkind,nsizemax)
110      REAL :: omegaREFvis(naerkind,nsizemax)
111      REAL :: omegaREFir(naerkind,nsizemax)
112
113      REAL tstellar ! Stellar brightness temperature (SW)
114
115      real*8 planckir(L_NSPECTI,NTstop-NTstar+1)
116
117      real*8 PTOP, TAUREF(L_LEVELS+1)
118
119      real*8, parameter :: UBARI = 0.5D0
120
121      real*8 gweight(L_NGAUSS)
122
123!     If the gas optical depth (top to the surface) is less than
124!     this value, we place that Gauss-point into the "zeros"
125!     channel.
126      real*8, parameter :: TLIMIT =  1.0D-30
127
128!     Factor to convert pressures from millibars to Pascals
129      real*8, parameter :: SCALEP = 1.00D+2
130
131      real*8, parameter :: sigma = 5.67032e-8
132
133      real*8 Cmk
134      save Cmk
135
136
137      end module radcommon_h
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