source: LMDZ6/branches/Amaury_dev/libf/phylmd/cosp/calc_Re.F90 @ 5441

Last change on this file since 5441 was 5185, checked in by abarral, 3 months ago

Replace REPROBUS CPP KEY by logical using handmade wonky wrapper

File size: 7.1 KB
Line 
1  subroutine calc_Re(Q,Np,rho_a, &
2             dtype,dmin,dmax,apm,bpm,rho_c,p1,p2,p3, &
3             Re)
4  use math_lib
5  implicit none
6
7! Purpose:
8!   Calculates Effective Radius (1/2 distribution 3rd moment / 2nd moment).
9
10!   For some distribution types, the total number concentration (per kg), Np
11!   may be optionally specified.   Should be set to zero, otherwise.
12
13!   Roj Marchand July 2010
14
15
16! Inputs:
17
18!   [Q]        hydrometeor mixing ratio (g/kg)  ! not needed for some distribution types
19!   [Np]       Optional Total number concentration (per kg).  0 = use defaults (p1, p2, p3)
20
21!   [rho_a]    ambient air density (kg m^-3)   
22
23!   Distribution parameters as per quickbeam documentation.
24!   [dtype]    distribution type
25!   [dmin]     minimum size cutoff (um)
26!   [dmax]     maximum size cutoff (um)
27!   [apm]      a parameter for mass (kg m^[-bpm])
28!   [bmp]      b params for mass
29!   [p1],[p2],[p3]  distribution parameters
30
31
32! Outputs:
33!   [Re]       Effective radius, 1/2 the 3rd moment/2nd moment (um)
34
35! Created:
36!   July 2010  Roj Marchand
37
38! ----- INPUTS ----- 
39 
40  real*8, intent(in) :: Q,Np,rho_a
41 
42  integer, intent(in):: dtype
43  real*8, intent(in) :: dmin,dmax,rho_c,p1,p2,p3
44   
45  real*8, intent(inout) :: apm,bpm 
46   
47! ----- OUTPUTS -----
48
49  real*8, intent(out) :: Re
50 
51! ----- INTERNAL -----
52 
53  integer :: local_dtype
54  real*8  :: local_p3,local_Np
55
56  real*8 :: pi, &
57  N0,D0,vu,dm,ld, &         ! gamma, exponential variables
58  rg,log_sigma_g
59 
60  real*8 :: tmp1,tmp2
61
62  pi = acos(-1.0)
63
64  ! // if density is constant, set equivalent values for apm and bpm
65  if ((rho_c > 0) .AND. (apm < 0)) then
66    apm = (pi/6)*rho_c
67    bpm = 3.
68  endif
69
70  ! Exponential is same as modified gamma with vu =1
71  ! if Np is specified then we will just treat as modified gamma
72  if(dtype.eq.2 .AND. Np>0) then
73    local_dtype=1;
74    local_p3=1;
75  else
76    local_dtype=dtype;
77    local_p3=p3;
78  endif
79 
80  select case(local_dtype)
81 
82! ---------------------------------------------------------!
83! // modified gamma                                        !
84! ---------------------------------------------------------!
85! :: Np = total number concentration (1/kg) = Nt / rho_a
86! :: D0 = characteristic diameter (um)
87! :: dm = mean diameter (um) - first moment over zeroth moment
88! :: vu = distribution width parameter
89
90  case(1) 
91 
92    if( abs(local_p3+2) < 1E-8) then
93 
94    if(Np>1E-30) then
95        ! Morrison scheme with Martin 1994 shape parameter (NOTE: vu = pc +1)
96        ! fixed Roj. Dec. 2010 -- after comment by S. Mcfarlane
97        vu = (1/(0.2714 + 0.00057145*Np*rho_a*1E-6))**2 ! units of Nt = Np*rhoa = #/cm^3
98    else
99        PRINT *, 'Error: Must specify a value for Np in each volume', &
100             ' with Morrison/Martin Scheme.'
101            stop   
102    endif
103   
104    elseif (abs(local_p3+1) > 1E-8) then
105
106      ! vu is fixed in hp structure 
107      vu = local_p3
108
109    else
110
111      ! vu isn't specified
112     
113      PRINT *, 'Error: Must specify a value for vu for Modified Gamma distribution'
114      stop   
115     
116    endif
117   
118
119    if( Np.eq.0 .AND. p2+1 > 1E-8) then     ! use default value for MEAN diameter as first default
120     
121        dm = p2             ! by definition, should have units of microns
122    D0 = gamma(vu)/gamma(vu+1)*dm
123       
124    else   ! use value of Np
125       
126        if(Np.eq.0) then
127       
128            if( abs(p1+1) > 1E-8 ) then  !   use default number concentration
129           
130                local_Np = p1 ! total number concentration / pa --- units kg^-1
131            else
132            PRINT *, 'Error: Must specify Np or default value ', &
133                 '(p1=Dm [um] or p2=Np [1/kg]) for ', &
134                 'Modified Gamma distribution'
135                stop
136            endif
137        else
138            local_Np=Np;   
139    endif
140   
141    D0 = 1E6 * ( Q*1E-3*gamma(vu)/(apm*local_Np*gamma(vu+bpm)) )**(1/bpm)  ! units = microns
142
143    endif 
144     
145    Re = 0.5*D0*gamma(vu+3)/gamma(vu+2)
146   
147   
148! ---------------------------------------------------------!
149! // exponential                                           !
150! ---------------------------------------------------------!
151! :: N0 = intercept parameter (m^-4)
152! :: ld = slope parameter (um)
153
154  case(2)
155 
156    ! Np not specified (see if statement above)
157 
158    if((abs(p1+1) > 1E-8) ) then   ! N0 has been specified, determine ld
159   
160        N0 = p1
161    tmp1 = 1./(1.+bpm)
162    ld = ((apm*gamma(1.+bpm)*N0)/(rho_a*Q*1E-3))**tmp1
163    ld = ld/1E6                     ! set units to microns^-1
164       
165    elseif (abs(p2+1) > 1E-8) then  ! lambda=ld has been specified as default
166
167        ld = p2     ! should have units of microns^-1
168   
169    else
170   
171    PRINT *, 'Error: Must specify Np or default value ', &
172         '(p1=No or p2=lambda) for Exponential distribution'
173        stop
174       
175    endif
176
177    Re = 1.5/ld ;
178 
179! ---------------------------------------------------------!
180! // power law                                             !
181! ---------------------------------------------------------!
182! :: ahp = Ar parameter (m^-4 mm^-bhp)
183! :: bhp = br parameter
184! :: dmin_mm = lower bound (mm)
185! :: dmax_mm = upper bound (mm)
186
187  case(3)
188
189    Re=0;  ! Not supporting LUT approach for power-law ...
190
191    if(Np>0) then
192   
193        PRINT *, 'Variable Np not supported for ', &
194         'Power Law distribution'
195        stop
196    endif
197! ---------------------------------------------------------!
198! // monodisperse                                          !
199! ---------------------------------------------------------!
200! :: D0 = particle diameter (um) == Re
201
202  case(4)
203 
204        Re = p1
205   
206        if(Np>0) then
207        PRINT *, 'Variable Np not supported for ', &
208         'Monodispersed distribution'
209        stop
210    endif
211   
212! ---------------------------------------------------------!
213! // lognormal                                             !
214! ---------------------------------------------------------!
215! :: N0 = total number concentration (m^-3)
216! :: np = fixed number concentration (kg^-1)
217! :: rg = mean radius (um)
218! :: log_sigma_g = ln(geometric standard deviation)
219
220  case(5)
221 
222        if( abs(local_p3+1) > 1E-8 ) then
223
224            !set natural log width
225            log_sigma_g = local_p3
226        else
227            PRINT *, 'Error: Must specify a value for sigma_g ', &
228             'when using a Log-Normal distribution'
229            stop
230        endif
231     
232    ! get rg ...
233    if( Np.eq.0 .AND. (abs(p2+1) > 1E-8) ) then ! use default value of rg
234   
235            rg = p2
236             
237        else
238            if(Np>0) then
239           
240                local_Np=Np;
241               
242            elseif(abs(p2+1) < 1E-8) then
243           
244                local_Np=p1
245            else
246                PRINT *, 'Error: Must specify Np or default value ', &
247                 '(p2=Rg or p1=Np) for Log-Normal distribution'
248            endif
249           
250            log_sigma_g = p3
251            tmp1 = (Q*1E-3)/(2.**bpm*apm*local_Np)
252            tmp2 = exp(0.5*bpm**2.*(log_sigma_g))**2.     
253            rg = ((tmp1/tmp2)**(1/bpm))*1E6
254        endif
255               
256        Re = rg*exp(+2.5*(log_sigma_g**2))
257       
258  end select
259 
260  end subroutine calc_Re
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