source: trunk/LMDZ.GENERIC/libf/phystd/interpolateH2He.F90 @ 1477

Last change on this file since 1477 was 1315, checked in by milmd, 10 years ago

LMDZ.GENERIC. OpenMP directives added in generic physic. When running in pure OpenMP or hybrid OpenMP/MPI, may have some bugs with condense_cloud and wstats routines.

File size: 4.3 KB
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1     subroutine interpolateH2He(wn,temp,presH2,presHe,abcoef,firstcall,ind)
2
3!==================================================================
4!     
5!     Purpose
6!     -------
7!     Calculates the H2-He CIA opacity, using a lookup table from
8!     HITRAN (2011)
9!
10!     Authors
11!     -------
12!     R. Wordsworth (2011)
13!     
14!==================================================================
15
16      use datafile_mod, only: datadir
17
18      implicit none
19
20      ! input
21      double precision wn                 ! wavenumber             (cm^-1)
22      double precision temp               ! temperature            (Kelvin)
23      double precision presH2             ! H2 partial pressure    (Pascals)
24      double precision presHe             ! He partial pressure    (Pascals)
25
26      ! output
27      double precision abcoef             ! absorption coefficient (m^-1)
28
29      integer nS,nT
30      parameter(nS=2428)
31      parameter(nT=10)
32
33      double precision, parameter :: losch = 2.6867774e19
34      ! Loschmit's number (molecule cm^-3 at STP)
35      ! converts cm^5 molecule^-2 --> cm^-1 amagat^-2
36      ! see Richard et al. 2011, JQSRT for details
37
38      double precision amagatH2
39      double precision amagatHe
40      double precision wn_arr(nS)
41      double precision temp_arr(nT)
42      double precision abs_arr(nS,nT)
43
44      integer k,iT
45      logical firstcall
46
47      save wn_arr, temp_arr, abs_arr !read by master
48
49      character*100 dt_file
50      integer strlen,ios
51
52      character(LEN=*), parameter :: fmat1 = "(A20,F10.3,F10.3,I7,F7.1,E10.3,F5.3)"
53
54      character*20 bleh
55      double precision blah, Ttemp
56      integer nres
57
58      integer ind
59 
60      if(temp.gt.400)then
61         print*,'Your temperatures are too high for this H2-He CIA dataset.'
62         print*,'Please run mixed H2-He atmospheres below T = 400 K.'     
63         stop
64      endif
65
66      amagatH2 = (273.15/temp)*(presH2/101325.0)
67      amagatHe = (273.15/temp)*(presHe/101325.0)
68
69      if(firstcall)then ! called by sugas_corrk only
70         print*,'----------------------------------------------------'
71         print*,'Initialising H2-He continuum from HITRAN database...'
72
73!     1.1 Open the ASCII files
74         dt_file=TRIM(datadir)//'/continuum_data/H2-He_norm_2011.cia'
75         
76!$OMP MASTER
77         open(33,file=dt_file,form='formatted',status='old',iostat=ios)
78         if (ios.ne.0) then        ! file not found
79           write(*,*) 'Error from interpolateH2He'
80           write(*,*) 'Data file ',trim(dt_file),' not found.'
81           write(*,*) 'Check that your path to datagcm:',trim(datadir)
82           write(*,*) 'is correct. You can change it in callphys.def with:'
83           write(*,*) 'datadir = /absolute/path/to/datagcm'
84           write(*,*) 'Also check that the continuum data continuum_data/H2-He_norm_2011.cia is there.'
85           call abort
86         else
87
88            do iT=1,nT
89
90               read(33,fmat1) bleh,blah,blah,nres,Ttemp
91               if(nS.ne.nres)then
92                  print*,'Resolution given in file: ',trim(dt_file)
93                  print*,'is ',nres,', which does not match nS.'
94                  print*,'Please adjust nS value in interpolateH2He.F90'
95                  stop
96               endif
97               temp_arr(iT)=Ttemp
98
99               do k=1,nS
100                  read(33,*) wn_arr(k),abs_arr(k,it)
101               end do
102
103            end do
104     
105         endif
106         close(33)
107!$OMP END MASTER
108!$OMP BARRIER
109
110         print*,'interpolateH2He: At wavenumber ',wn,' cm^-1'
111         print*,'   temperature                 ',temp,' K'
112         print*,'   H2 partial pressure         ',presH2,' Pa'
113         print*,'   and He partial pressure     ',presHe,' Pa'
114
115      endif
116
117         call bilinearbig(nS,nT,wn_arr,temp_arr,abs_arr,wn,temp,abcoef,ind)
118
119         !print*,'the absorption is ',abcoef,' cm^5 molecule^-2'
120         !print*,'or ',abcoef*losch**2,' cm^-1 amagat^-2'
121
122         abcoef=abcoef*losch**2*100.0*amagatH2*amagatHe ! convert to m^-1
123
124         !print*,'We have ',amagatH2,' amagats of H2'
125         !print*,'and     ',amagatHe,' amagats of He'
126         !print*,'So the absorption is ',abcoef,' m^-1'
127
128         ! unlike for Rayleigh scattering, we do not currently weight by the BB function
129         ! however our bands are normally thin, so this is no big deal.
130
131      return
132    end subroutine interpolateH2He
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