source: trunk/LMDZ.VENUS/libf/phyvenus/setspv.F90 @ 3315

Last change on this file since 3315 was 2560, checked in by slebonnois, 3 years ago

SL: Implementation of SW computation based on generic model. Switch between this new SW module or old module that reads R. Haus tables implemented with a key (solarchoice)

File size: 4.4 KB
Line 
1      subroutine setspv
2
3!==================================================================
4!     
5!     Purpose
6!     -------
7!     Set up spectral intervals, stellar spectrum and Rayleigh
8!     opacity in the shortwave.
9!     
10!     Authors
11!     -------
12!     Adapted from setspv in the NASA Ames radiative code by
13!     Robin Wordsworth (2009).
14!
15!     Called by
16!     ---------
17!     callcorrk.F
18!     
19!     Calls
20!     -----
21!     ave_stelspec.F
22!     
23!==================================================================
24
25      use radinc_h,    only: L_NSPECTV
26      use radcommon_h, only: BWNV,BLAMV,WNOV,DWNV,WAVEV, &
27                             STELLARF,TAURAY
28      use datafile_mod, only: datadir,banddir,corrkdir
29
30      implicit none
31
32      logical file_ok
33
34      integer N, M, file_entries
35
36      character(len=30)  :: temp1
37      character(len=200) :: file_id
38      character(len=200) :: file_path
39
40      real :: Fat1AU
41
42      real*8 :: lastband(2)
43
44      real*8 STELLAR(L_NSPECTV)
45      real*8 sum, dummy
46
47      !! used to count lines
48      integer :: nb
49      integer :: ierr
50
51      character(len=100) :: message
52      character(len=10),parameter :: subname="setspv"
53
54!=======================================================================
55!     Set up spectral bands - wavenumber [cm^(-1)]. Go from smaller to
56!     larger wavenumbers, the same as in the IR.
57
58      write(temp1,'(i2.2)') L_NSPECTV
59      file_id='/corrk_data/'//trim(adjustl(banddir))//'/narrowbands_VI.in'
60      file_path=TRIM(datadir)//TRIM(file_id)
61
62      ! check that the file exists
63      inquire(FILE=file_path,EXIST=file_ok)
64      if(.not.file_ok) then
65         write(*,*)'The file ',TRIM(file_path)
66         write(*,*)'was not found by setspv.F90, exiting.'
67         write(*,*)'Check that your path to datagcm:',trim(datadir)
68         write(*,*)' is correct. You can change it in callphys.def with:'
69         write(*,*)' datadir = /absolute/path/to/datagcm'
70         message='Also check that the corrkdir you chose in callphys.def exists.'
71         call abort_physic(subname,message,1)
72      endif
73       
74!$OMP MASTER       
75      nb=0
76      ierr=0
77      ! check that the file contains the right number of bands
78      open(131,file=file_path,form='formatted')
79      read(131,*,iostat=ierr) file_entries
80      do while (ierr==0)
81        read(131,*,iostat=ierr) dummy
82        if (ierr==0) nb=nb+1
83      enddo
84      close(131)
85
86      write(*,*) 'setspv: L_NSPECTV = ',L_NSPECTV, 'in the model '
87      write(*,*) '        there are   ',nb, 'entries in ',TRIM(file_path)
88      if(nb.ne.L_NSPECTV) then
89         message='MISMATCH !! I stop here'
90         call abort_physic(subname,message,1)
91      endif
92
93      ! load and display the data
94      open(111,file=file_path,form='formatted')
95      read(111,*)
96       do M=1,L_NSPECTV-1
97         read(111,*) BWNV(M)
98      end do
99      read(111,*) lastband
100      close(111)
101      BWNV(L_NSPECTV)  =lastband(1)
102      BWNV(L_NSPECTV+1)=lastband(2)
103!$OMP END MASTER
104!$OMP BARRIER
105
106      print*,'setspv: VI band limits:'
107      do M=1,L_NSPECTV+1
108         print*,m,'-->',BWNV(M),' cm^-1'
109      end do
110      print*,' '
111
112!     Set up mean wavenumbers and wavenumber deltas.  Units of
113!     wavenumbers is cm^(-1); units of wavelengths is microns.
114
115      do M=1,L_NSPECTV
116         WNOV(M)  = 0.5*(BWNV(M+1)+BWNV(M))
117         DWNV(M)  = BWNV(M+1)-BWNV(M)
118         WAVEV(M) = 1.0E+4/WNOV(M)
119         BLAMV(M) = 0.01/BWNV(M)
120      end do
121      BLAMV(M) = 0.01/BWNV(M) ! wavelength in METERS for aerosol stuff
122!     note M=L_NSPECTV+1 after loop due to Fortran bizarreness
123
124!=======================================================================
125!     Set up stellar spectrum
126
127      write(*,*)'setspv: Interpolating stellar spectrum from the hires data...'
128      call ave_stelspec(STELLAR)
129
130!     Sum the stellar flux, and write out the result. 
131
132      Fat1AU=1356.0 ! default value = Sol today
133
134      sum = 0.0 
135      do N=1,L_NSPECTV
136         STELLARF(N) = STELLAR(N) * Fat1AU
137         sum         = sum+STELLARF(N)
138      end do
139      write(6,'("setspv: Stellar flux at 1 AU = ",f7.2," W m-2")') sum
140      print*,' '
141
142
143!=======================================================================
144!     Set up the wavelength independent part of the Rayleigh scattering.
145!     The pressure dependent part will be computed elsewhere (OPTCV).
146!     WAVEV is in microns.  There is no Rayleigh scattering in the IR.
147
148      call calc_rayleigh
149
150      RETURN
151    END subroutine setspv
Note: See TracBrowser for help on using the repository browser.