source: trunk/LMDZ.MARS/libf/phymars/vdif_cd.F @ 706

Last change on this file since 706 was 648, checked in by emillour, 13 years ago

Mars GCM:

  • some syntax corrections in thermcall_main_mars, vdif_cd, pbl_parameters which cause problems when compiling with some strict compilers (g95, gfortran)
  • added an initialisation of 'varian' in initracer for cases when using conrath dust; because that value can be is used elsewhere (e.g. surfacearea)

JYC+EM

File size: 7.4 KB
Line 
1      SUBROUTINE vdif_cd(ngrid,nlay,pz0,
2     &           pg,pz,pu,pv,wstar,pts,ph,pcdv,pcdh)
3      IMPLICIT NONE
4c=======================================================================
5c
6c   Subject: computation of the surface drag coefficient using the
7c   -------  approch developed by Loui for ECMWF.
8c
9c   Author: Frederic Hourdin  15 /10 /93
10c   Modified by : Arnaud Colaitis 03/08/11
11c   -------
12c
13c   Arguments:
14c   ----------
15c
16c   inputs:
17c   ------
18c     ngrid            size of the horizontal grid
19c     pg               gravity (m s -2)
20c     pz(ngrid,nlay)   height of layers
21c     pu(ngrid,nlay)   u component of the wind
22c     pv(ngrid,nlay)   v component of the wind
23c     pts(ngrid)       surface temperature
24c     ph(ngrid)        potential temperature T*(p/ps)^kappa
25c
26c   outputs:
27c   --------
28c     pcdv(ngrid)      Cd for the wind
29c     pcdh(ngrid)      Cd for potential temperature
30c
31c=======================================================================
32c
33c-----------------------------------------------------------------------
34c   Declarations:
35c   -------------
36
37#include "comcstfi.h"
38#include "callkeys.h"
39
40c   Arguments:
41c   ----------
42
43      INTEGER, INTENT(IN) :: ngrid,nlay
44      REAL, INTENT(IN) :: pz0(ngrid)
45      REAL, INTENT(IN) :: pg,pz(ngrid,nlay)
46      REAL, INTENT(IN) :: pu(ngrid,nlay),pv(ngrid,nlay)
47      REAL, INTENT(IN) :: pts(ngrid),ph(ngrid,nlay)
48      REAL, INTENT(IN) :: wstar(ngrid)
49      REAL, INTENT(OUT) :: pcdv(ngrid),pcdh(ngrid) ! momentum and heat drag coefficient
50
51c   Local:
52c   ------
53
54      INTEGER ig
55
56      REAL karman,nu    ! Von Karman constant and fluid kinematic viscosity
57      LOGICAL firstcal
58      DATA karman,nu/.41,0.001/
59      DATA firstcal/.true./
60      SAVE karman,nu
61
62c    Local(2):
63c    ---------
64      REAL z1,zcd0
65
66      REAL rib(ngrid)  ! Bulk Richardson number
67      REAL rig(ngrid)  ! Gradient Richardson number
68      REAL fm(ngrid) ! stability function for momentum
69      REAL fh(ngrid) ! stability function for heat
70      REAL z1z0,z1z0t ! ratios z1/z0 and z1/z0T
71
72c phim = 1+betam*zeta   or   (1-bm*zeta)**am
73c phih = alphah + betah*zeta    or   alphah(1.-bh*zeta)**ah
74      REAL betam, betah, alphah, bm, bh, lambda
75c ah and am are assumed to be -0.25 and -0.5 respectively
76
77      REAL cdn(ngrid),chn(ngrid)  ! neutral momentum and heat drag coefficient
78      REAL pz0t        ! initial thermal roughness length. (local)
79      REAL ric         ! critical richardson number
80      REAL reynolds(ngrid)    ! reynolds number for UBL
81      REAL prandtl(ngrid)     ! prandtl number for UBL
82      REAL pz0tcomp(ngrid)     ! computed z0t
83      REAL ite
84      REAL residual
85      REAL zu2(ngrid)
86c-----------------------------------------------------------------------
87c   couche de surface:
88c   ------------------
89
90c Original formulation :
91
92      if(.not.callrichsl) then
93
94      DO ig=1,ngrid
95         z1=1.E+0 + pz(ig,1)/pz0(ig)
96         zcd0=karman/log(z1)
97         zcd0=zcd0*zcd0
98         pcdv(ig)=zcd0
99         pcdh(ig)=zcd0
100      ENDDO
101     
102!      print*,'old : cd,ch; ',pcdv,pcdh
103      else
104
105      reynolds(:)=0.
106
107c New formulation (AC) :
108
109c phim = 1+betam*zeta   or   (1-bm*zeta)**am
110c phih = alphah + betah*zeta    or   alphah(1.-bh*zeta)**ah
111c am=-0.25, ah=-0.5
112
113      pz0t = 0.     ! for the sake of simplicity
114      pz0tcomp(:) = 0.1*pz0(:)
115      rib(:)=0.
116
117      pcdv(:)=0.
118      pcdh(:)=0.
119
120c this formulation assumes alphah=1., implying betah=betam
121c We use Dyer et al. parameters, as they cover a broad range of Richardson numbers :
122      bm=16.            !UBL
123      bh=16.            !UBL
124      alphah=1.
125      betam=5.         !SBL
126      betah=5.         !SBL
127      lambda=(sqrt(bh/bm))/alphah
128      ric=betah/(betam**2)
129
130      DO ig=1,ngrid
131
132         ite=0.
133         residual=abs(pz0tcomp(ig)-pz0t)
134
135         do while((residual .gt. 0.01*pz0(ig)) .and.  (ite .lt. 10.))
136
137         pz0t=pz0tcomp(ig)
138
139         if ((pu(ig,1) .ne. 0.) .or. (pv(ig,1) .ne. 0.)) then
140
141c Classical Richardson number formulation
142
143c         rib(ig) = (pg/ph(ig,1))*pz(ig,1)*(ph(ig,1)-pts(ig))
144c     &           /(pu(ig,1)*pu(ig,1) + pv(ig,1)*pv(ig,1))
145
146c Richardson number formulation proposed by D.E. England et al. (1995)
147
148!         zu2=MAX(pu(ig,1)*pu(ig,1) + pv(ig,1)*pv(ig,1),0.25*wstar(ig)**2)
149!         zu2=pu(ig,1)*pu(ig,1) + pv(ig,1)*pv(ig,1)
150!         zu2(ig)=MAX(pu(ig,1)*pu(ig,1) + pv(ig,1)*pv(ig,1),             &
151!     &      (0.3*wstar(ig))**2)
152          zu2(ig)=pu(ig,1)*pu(ig,1) + pv(ig,1)*pv(ig,1)
153     &     + (log(1.+0.7*wstar(ig) + 2.3*wstar(ig)**2))**2
154
155!       zu2(ig)=pu(ig,1)*pu(ig,1) + pv(ig,1)*pv(ig,1) + (0.5*wstar(ig))**2
156
157               ! we add the wstar to simulate
158               ! bulk Ri changes due to subgrid wind feeding the thermals
159
160!          rig(ig) = (pg/ph(ig,1))*((pz(ig,1)-pz0(ig))**2
161!     &         /(pz(ig,1)-pz0t))*(ph(ig,1)-pts(ig))
162!     &         /zu2
163
164          rib(ig) = (pg/pts(ig))
165!     &      *pz(ig,1)*pz0(ig)/sqrt(pz(ig,1)*pz0t)
166     &      *sqrt(pz(ig,1)*pz0(ig))
167     &      *(((log(pz(ig,1)/pz0(ig)))**2)/(log(pz(ig,1)/pz0t)))
168     &      *(ph(ig,1)-pts(ig))
169     &  /zu2(ig)
170
171         else
172         print*,'warning, infinite Richardson at surface'
173         print*,pu(ig,1),pv(ig,1)
174         rib(ig) = ric          ! traiter ce cas !
175         endif
176
177         z1z0=pz(ig,1)/pz0(ig)
178         z1z0t=pz(ig,1)/pz0t
179
180         cdn(ig)=karman/log(z1z0)
181         cdn(ig)=cdn(ig)*cdn(ig)
182         chn(ig)=cdn(ig)*log(z1z0)/log(z1z0t)
183
184c Stable case :
185      if (rib(ig) .gt. 0.) then
186c From D.E. England et al. (95)
187      prandtl(ig)=1.
188         if(rib(ig) .lt. ric) then
189c Assuming alphah=1. and bh=bm for stable conditions :
190            fm(ig)=((ric-rib(ig))/ric)**2
191            fh(ig)=((ric-rib(ig))/ric)**2
192         else
193c For Ri>Ric, we consider Ri->Infinity => no turbulent mixing at surface
194            fm(ig)=0.
195            fh(ig)=0.
196         endif
197c Unstable case :
198      else
199c From D.E. England et al. (95)
200         fm(ig)=sqrt(1.-lambda*bm*rib(ig))
201         fh(ig)=(1./alphah)*((1.-lambda*bh*rib(ig))**0.5)*
202     &                     (1.-lambda*bm*rib(ig))**0.25
203         prandtl(ig)=alphah*((1.-lambda*bm*rib(ig))**0.25)/
204     &             ((1.-lambda*bh*rib(ig))**0.5)
205      endif
206
207       reynolds(ig)=karman*sqrt(fm(ig))
208     &      *sqrt(zu2(ig))
209c     &      *sqrt(pu(ig,1)**2 + pv(ig,1)**2)
210     &       *pz0(ig)/(log(z1z0)*nu)
211       pz0tcomp(ig)=pz0(ig)*exp(-karman*7.3*
212     &              (reynolds(ig)**0.25)*(prandtl(ig)**0.5))
213
214         
215      residual = abs(pz0t-pz0tcomp(ig))
216      ite = ite+1
217!      print*, "iteration nnumber, residual",ite,residual
218
219      enddo  ! of while
220
221          pz0t=0.
222
223c Drag computation :
224
225         pcdv(ig)=cdn(ig)*fm(ig)
226         pcdh(ig)=chn(ig)*fh(ig)
227       
228      ENDDO
229!
230!      print*,'new : cd,ch; ',pcdv,pcdh
231
232! Some useful diagnostics :
233
234!       call WRITEDIAGFI(ngrid,'RiB',
235!     &              'Bulk Richardson nb','no units',
236!     &                         2,rib)
237!                call WRITEDIAGFI(ngrid,'RiG',
238!     &              'Grad Richardson nb','no units',
239!     &                         2,rig)
240!        call WRITEDIAGFI(ngrid,'Pr',
241!     &              'Prandtl nb','no units',
242!     &                         0,prandtl)
243!       call WRITEDIAGFI(ngrid,'Re',
244!     &              'Reynolds nb','no units',
245!     &                         0,reynolds)
246!        call WRITEDIAGFI(ngrid,'z0tcomp',
247!     &              'computed z0t','m',
248!     &                         2,pz0tcomp)
249
250
251      endif !of if call richardson surface layer
252
253      RETURN
254      END
Note: See TracBrowser for help on using the repository browser.