1 | module dimradmars_mod |
---|
2 | ! Declaration and settings for radiative transfer calculations |
---|
3 | ! Initializations and allocations are done in phys_state_var_init |
---|
4 | implicit none |
---|
5 | ! nflev: number of vertical layer |
---|
6 | ! ndlon,ndlo2: number of horizontal points |
---|
7 | ! Splitting of horizontal grid |
---|
8 | ! NDLO2 and ndomainsz for the splitting in the physics call |
---|
9 | ! WARNING: One must have 1 < ndomainsz =< ngrid |
---|
10 | integer,save :: NFLEV !=nlayermx ! with splitting |
---|
11 | integer,save :: ndomainsz !=(ngrid-1)/20 + 1 |
---|
12 | integer,save :: NDLON !=ndomainsz ! with splitting |
---|
13 | integer,save :: NDLO2 !=NDLON |
---|
14 | |
---|
15 | |
---|
16 | ! Number of kind of tracer radiative properties |
---|
17 | ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
18 | ! naerkind is set by reading callphys.def |
---|
19 | ! -- see conf_phys |
---|
20 | ! -- value of nsizemax below is comfortably high |
---|
21 | ! but beware in case you add a lot of scatterers |
---|
22 | INTEGER, SAVE :: naerkind |
---|
23 | |
---|
24 | ! AS: previously in aerkind.h |
---|
25 | character*20, SAVE, ALLOCATABLE :: name_iaer(:) ! name of the scatterers |
---|
26 | integer iaer_dust_conrath ! Typical dust profiles using a |
---|
27 | ! Conrath type analytical equation |
---|
28 | integer iaer_dust_doubleq ! Dust profile is given by the |
---|
29 | ! mass mixing ratio of the two- |
---|
30 | ! moment scheme method (doubleq) |
---|
31 | integer iaer_dust_submicron ! Dust profile is given by a |
---|
32 | ! submicron population of dust |
---|
33 | ! particles |
---|
34 | integer iaer_h2o_ice ! Water ice particles |
---|
35 | |
---|
36 | ! AS: was in aeropacity |
---|
37 | INTEGER,SAVE,ALLOCATABLE :: iaerdust(:) |
---|
38 | |
---|
39 | ! AS: was in suaer |
---|
40 | CHARACTER(LEN=30), SAVE, ALLOCATABLE :: file_id(:,:) |
---|
41 | |
---|
42 | ! Reference wavelengths used to compute reference optical depth (m) |
---|
43 | ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
44 | REAL,SAVE,ALLOCATABLE :: longrefir(:),longrefvis(:) |
---|
45 | |
---|
46 | ! Definition of spectral intervals at thermal infrared wavelengths (LW) |
---|
47 | ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
48 | integer,parameter :: nir=4 ! Total number of thermal IR bands |
---|
49 | integer,parameter :: nuco2=2 ! number of bands in CO2 bands |
---|
50 | real,parameter :: long1ir=5.E-6 , long2ir=200.E-6 |
---|
51 | real,parameter :: long1co2=1.E+0 / 865.E+2 , long2co2=1.E+0 / 500.E+2 |
---|
52 | |
---|
53 | ! Warning : the "nir" thermal IR bands are not ordered by wavelength: |
---|
54 | ! iir=1 : central 15um CO2 bands |
---|
55 | ! iir=2 : CO2 band wings [long1co2-long2co2] MINUS central band |
---|
56 | ! iir=3 : 9 um band [long1ir - long1co2] |
---|
57 | ! iir=4 : Far IR [long2co2 - long2ir] |
---|
58 | |
---|
59 | ! Definition of spectral interval at solar wavelengths (SW) |
---|
60 | ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
61 | integer,parameter :: NSUN=2 ! do not change that ! |
---|
62 | ! Boundaries of spectral intervals (m) : |
---|
63 | real,parameter :: long1vis=0.1E-6 , long2vis=0.5E-6 , long3vis=5.E-6 |
---|
64 | ! Fraction of solar energy in solar band #1 [long1vis-long2vis] : 0.274490 |
---|
65 | ! Fraction of solar energy in solar band #2 [long2vis-long3vis] : 0.725509 |
---|
66 | real,save :: sunfr(2) = (/ 0.274490 , 0.725509 /) |
---|
67 | |
---|
68 | ! Maximum number of grain size classes |
---|
69 | ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
70 | ! This parameter has to be set to the maximum number of particle |
---|
71 | ! sizes contained in the optical parameter database; For example, |
---|
72 | ! if only one grain size is used to describe dust, and 30 are used |
---|
73 | ! to describe water-ice crystals in the visible and 15 in the IR, |
---|
74 | ! nsizemax has to be set to 30. |
---|
75 | ! If only one grain size is considered for all the aerosols, set |
---|
76 | ! this parameter to 1 and convolution will be turned off during |
---|
77 | ! the radiative calculations. |
---|
78 | |
---|
79 | integer, parameter :: nsizemax = 60 |
---|
80 | ! integer, parameter :: nsizemax = 1 |
---|
81 | |
---|
82 | ! Various initialisation for LW radiative code |
---|
83 | ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
84 | ! npademx : number of Pade coefficients |
---|
85 | ! nabsmx : ? |
---|
86 | ! nt_pademx : number of temperature intervals for Pade |
---|
87 | |
---|
88 | integer,parameter :: npademx=4 |
---|
89 | integer,parameter :: nabsmx=2 |
---|
90 | integer,parameter :: nt_pademx=19 |
---|
91 | |
---|
92 | !! |
---|
93 | !! variables |
---|
94 | !! |
---|
95 | REAL,SAVE,ALLOCATABLE :: dtrad(:,:) ! Net atm. radiative heating rate (K.s-1) |
---|
96 | REAL,SAVE,ALLOCATABLE :: fluxrad_sky(:) ! rad. flux from sky absorbed by surface (W.m-2) |
---|
97 | REAL,SAVE,ALLOCATABLE :: fluxrad(:) ! Net radiative surface flux (W.m-2) |
---|
98 | REAL,SAVE,ALLOCATABLE :: albedo(:,:) ! Surface albedo in each solar band |
---|
99 | REAL,SAVE,ALLOCATABLE :: tauscaling(:) ! Convertion factor for qdust and Ndust |
---|
100 | ! aerosol (dust or ice) extinction optical depth at reference wavelength |
---|
101 | ! "longrefvis" set in dimradmars_mod , for one of the "naerkind" kind of |
---|
102 | ! aerosol optical properties : |
---|
103 | REAL,SAVE,ALLOCATABLE :: aerosol(:,:,:) |
---|
104 | REAL,SAVE,ALLOCATABLE :: nueffdust(:,:) ! Dust effective variance |
---|
105 | |
---|
106 | !! ------------------------------------------------------ |
---|
107 | !! AS: what was previously in yomaer |
---|
108 | ! Shortwave |
---|
109 | ! ~~~~~~~~~ |
---|
110 | ! |
---|
111 | ! tauvis: dust optical depth at reference wavelength ("longrefvis" set |
---|
112 | ! in dimradmars_mod : typically longrefvis = 0.67E-6 m, as measured by Viking ) |
---|
113 | |
---|
114 | ! For the "naerkind" kind of aerosol radiative properties : |
---|
115 | ! QVISsQREF : Qext / Qext("longrefvis") <--- For both solar bands |
---|
116 | ! omegavis : sinle scattering albedo <--- For both solar bands |
---|
117 | ! gvis : assymetry factor <--- For both solar bands |
---|
118 | ! |
---|
119 | ! Longwave |
---|
120 | ! ~~~~~~~~ |
---|
121 | ! |
---|
122 | ! For the "naerkind" kind of aerosol radiative properties : |
---|
123 | ! QIRsQREF : Qext / Qext("longrefvis") <--- For the nir bandes IR |
---|
124 | ! omegaIR : mean single scattering albedo <--- For the nir bandes IR |
---|
125 | ! gIR : mean assymetry factor <--- For the nir bandes IR |
---|
126 | ! |
---|
127 | real,save :: tauvis |
---|
128 | real,save,allocatable :: QVISsQREF(:,:,:) |
---|
129 | real,save,allocatable :: omegavis(:,:,:) |
---|
130 | real,save,allocatable :: gvis(:,:,:) |
---|
131 | real,save,allocatable :: QIRsQREF(:,:,:) |
---|
132 | real,save,allocatable :: omegaIR(:,:,:) |
---|
133 | real,save,allocatable :: gIR(:,:,:) |
---|
134 | ! Actual number of grain size classes in each domain for a |
---|
135 | ! given aerosol: |
---|
136 | integer,save,allocatable :: nsize(:,:) |
---|
137 | ! Particle size axis (depend on the kind of aerosol and the |
---|
138 | ! radiation domain) |
---|
139 | real,save,allocatable :: radiustab(:,:,:) |
---|
140 | ! Extinction coefficient at reference wavelengths; |
---|
141 | ! These wavelengths are defined in dimradmars_mod, and called |
---|
142 | ! longrefvis and longrefir. |
---|
143 | real,save,allocatable :: QREFvis(:,:) |
---|
144 | real,save,allocatable :: QREFir(:,:) |
---|
145 | real,save,allocatable :: omegaREFvis(:,:) |
---|
146 | real,save,allocatable :: omegaREFir(:,:) |
---|
147 | !! ------------------------------------------------------ |
---|
148 | |
---|
149 | contains |
---|
150 | |
---|
151 | subroutine ini_dimradmars_mod(ngrid,nlayer) |
---|
152 | |
---|
153 | implicit none |
---|
154 | |
---|
155 | integer,intent(in) :: ngrid ! number of atmospheric columns |
---|
156 | integer,intent(in) :: nlayer ! number of atmospheric layers |
---|
157 | |
---|
158 | nflev=nlayer |
---|
159 | ! ndomainsz=ngrid |
---|
160 | ndomainsz=(ngrid-1)/20 + 1 |
---|
161 | ! ndomainsz=(ngrid-1)/5 + 1 |
---|
162 | ndlon=ndomainsz |
---|
163 | ndlo2=ndlon |
---|
164 | |
---|
165 | allocate(albedo(ngrid,2)) |
---|
166 | allocate(dtrad(ngrid,nlayer)) |
---|
167 | allocate(fluxrad_sky(ngrid)) |
---|
168 | allocate(fluxrad(ngrid)) |
---|
169 | allocate(tauscaling(ngrid)) |
---|
170 | allocate(nueffdust(ngrid,nlayer)) |
---|
171 | |
---|
172 | end subroutine ini_dimradmars_mod |
---|
173 | |
---|
174 | subroutine ini_scatterers(ngrid,nlayer) |
---|
175 | |
---|
176 | implicit none |
---|
177 | |
---|
178 | integer,intent(in) :: ngrid ! number of atmospheric columns |
---|
179 | integer,intent(in) :: nlayer ! number of atmospheric layers |
---|
180 | |
---|
181 | allocate(name_iaer(naerkind)) |
---|
182 | allocate(aerosol(ngrid,nlayer,naerkind)) |
---|
183 | allocate(longrefir(naerkind)) |
---|
184 | allocate(longrefvis(naerkind)) |
---|
185 | allocate(iaerdust(naerkind)) |
---|
186 | allocate(file_id(naerkind,2)) |
---|
187 | |
---|
188 | allocate(QVISsQREF(nsun,naerkind,nsizemax)) |
---|
189 | allocate(omegavis(nsun,naerkind,nsizemax)) |
---|
190 | allocate(gvis(nsun,naerkind,nsizemax)) |
---|
191 | allocate(QIRsQREF(nir,naerkind,nsizemax)) |
---|
192 | allocate(omegaIR(nir,naerkind,nsizemax)) |
---|
193 | allocate(gIR(nir,naerkind,nsizemax)) |
---|
194 | allocate(nsize(naerkind,2)) |
---|
195 | allocate(radiustab(naerkind,2,nsizemax)) |
---|
196 | allocate(QREFvis(naerkind,nsizemax)) |
---|
197 | allocate(QREFir(naerkind,nsizemax)) |
---|
198 | allocate(omegaREFvis(naerkind,nsizemax)) |
---|
199 | allocate(omegaREFir(naerkind,nsizemax)) |
---|
200 | |
---|
201 | end subroutine ini_scatterers |
---|
202 | |
---|
203 | end module dimradmars_mod |
---|