source: LMDZ6/trunk/libf/phylmd/ecrad.v1.5.1/radiation_ecckd_gas.F90 @ 5451

Last change on this file since 5451 was 4489, checked in by lguez, 21 months ago

Merge LMDZ_ECRad branch back into trunk!

File size: 4.1 KB
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1! radiation_ecckd_gas.F90 - type representing a single ecCKD gas
2!
3! (C) Copyright 2020- ECMWF.
4!
5! This software is licensed under the terms of the Apache Licence Version 2.0
6! which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
7!
8! In applying this licence, ECMWF does not waive the privileges and immunities
9! granted to it by virtue of its status as an intergovernmental organisation
10! nor does it submit to any jurisdiction.
11!
12! Author:  Robin Hogan
13! Email:   r.j.hogan@ecmwf.int
14! License: see the COPYING file for details
15!
16
17module radiation_ecckd_gas
18
19  use parkind1, only : jprb
20  use radiation_gas_constants
21
22  implicit none
23
24  public
25
26  ! Concentration dependence of individual gases
27  enum, bind(c)
28    enumerator :: IConcDependenceNone = 0, &
29         &        IConcDependenceLinear, &
30         &        IConcDependenceLUT, &
31         &        IConcDependenceRelativeLinear
32  end enum
33
34  !---------------------------------------------------------------------
35  ! This derived type describes a correlated k-distribution
36  ! representation of an individual gas (including composite gases)
37  type ckd_gas_type
38
39    ! Code identifying the gas, from the codes in the
40    ! radiation_gas_constants module
41    integer :: i_gas_code = -1
42
43    ! One of the IConcDependence* enumerators
44    integer :: i_conc_dependence
45
46    ! Molar absorption coefficient in m2 mol-1. If
47    ! i_conc_dependence==IConcDependenceNone then it is the absorption
48    ! cross section per mole of dry air.  If
49    ! conc_dependence==IConcDependenceLinear|IConcDependenceRelativeLinear,
50    ! it is the absorption cross section per mole of the gas in
51    ! question. It is dimensioned (g_point,pressure,temperature).
52    real(jprb), allocatable :: molar_abs(:,:,:)
53   
54    ! If i_conc_dependence==IConcDependenceLUT then we have an
55    ! additional dimension for concentration. It is dimensioned
56    ! (g_point,pressure,temperature,conc)
57    real(jprb), allocatable :: molar_abs_conc(:,:,:,:)
58
59    ! If i_conc_dependence==IConcDependenceRelativeLinear then the
60    ! following reference concentration is subtracted from the actual
61    ! concentration before the result is multiplied by the mass
62    ! absorption coefficient
63    real(jprb) :: reference_mole_frac = 0.0_jprb
64
65    ! Mole fraction coordinate variable if
66    ! i_conc_dependence==IConcDependenceLUT
67    real(jprb) :: log_mole_frac1 = 0.0_jprb, d_log_mole_frac = 1.0_jprb
68    integer    :: n_mole_frac = 0
69
70  contains
71
72    procedure :: read => read_ckd_gas
73!    procedure :: deallocate => deallocate_ckd_gas
74
75  end type ckd_gas_type
76
77contains
78
79  !---------------------------------------------------------------------
80  ! Read information about the representation of a single gas from a
81  ! NetCDF file, identifying it with code i_gas_code
82  subroutine read_ckd_gas(this, file, gas_name, i_gas_code)
83
84    use easy_netcdf, only : netcdf_file
85
86    class(ckd_gas_type), intent(inout) :: this
87    type(netcdf_file),   intent(inout) :: file
88    character(len=*),    intent(in)    :: gas_name
89    integer,             intent(in)    :: i_gas_code
90   
91    ! Local storage for mole fraction coordinate variable
92    real(jprb), allocatable :: mole_fraction(:)
93
94    this%i_gas_code = i_gas_code
95
96    call file%get(gas_name // "_conc_dependence_code", this%i_conc_dependence)
97    if (this%i_conc_dependence == IConcDependenceLut) then
98      call file%get(gas_name // "_molar_absorption_coeff", &
99           &        this%molar_abs_conc)
100      call file%get(gas_name // "_mole_fraction", mole_fraction)
101      this%log_mole_frac1  = log(mole_fraction(1))
102      this%n_mole_frac     = size(mole_fraction)
103      this%d_log_mole_frac = (log(mole_fraction(size(mole_fraction))) &
104           &                  - this%log_mole_frac1) / (this%n_mole_frac-1)
105      deallocate(mole_fraction)
106    else
107      call file%get(gas_name // "_molar_absorption_coeff", &
108           &        this%molar_abs)
109    end if
110
111    if (this%i_conc_dependence == IConcDependenceRelativeLinear) then
112      call file%get(gas_name // "_reference_mole_fraction", &
113           &        this%reference_mole_frac)
114    end if
115
116  end subroutine read_ckd_gas
117
118end module radiation_ecckd_gas
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