source: trunk/LMDZ.COMMON/libf/evolution/NS_fast_subs_univ.F90 @ 3532

Last change on this file since 3532 was 3532, checked in by jbclement, 3 weeks ago

PEM:
Removing unecessary module/subroutine "interpol_TI_PEM2PCM.F90" + Few small corrections/cleanings.
JBC

File size: 8.2 KB
Line 
1MODULE fast_subs_univ
2
3implicit none
4
5CONTAINS
6
7!*****************************************************
8! Commonly used subroutines for fast method
9! written by Norbert Schorghofer 2007-2011
10!*****************************************************
11
12pure function zint(y1,y2,z1,z2)
13  ! interpolate between two values, y1*y2<0
14  implicit none
15  real(8), intent(IN) :: y1,y2,z1,z2
16  real(8) zint
17  zint = (y1*z2 - y2*z1)/(y1-y2)
18end function zint
19
20
21
22pure function equildepth(nz, z, rhosatav, rhosatav0, avrho1)
23!***********************************************************************
24!  returns equilibrium depth for given ice content
25!  this is not the true (final) equilibrium depth
26!***********************************************************************
27  implicit none
28  integer, intent(IN) :: nz
29  real(8), intent(IN) :: z(nz), rhosatav(nz)
30  real(8), intent(IN) :: rhosatav0, avrho1
31  integer i, typeE
32  real(8) equildepth  ! =zdepthE
33  !real(8), external :: zint  ! defined in allinterfaces.mod
34
35  typeE = -9; equildepth = -9999.
36  do i=1,nz
37     if (rhosatav(i) <= avrho1) then
38        typeE=i
39        exit
40     endif
41  enddo
42  if (typeE>1) then ! interpolate
43     equildepth=zint(avrho1-rhosatav(typeE-1),avrho1-rhosatav(typeE),z(typeE-1),z(typeE))
44  end if
45  if (typeE==1) equildepth=zint(avrho1-rhosatav0,avrho1-rhosatav(1),0.d0,z(1))
46  if (equildepth>z(nz)) equildepth=-9999.   ! happens very rarely
47end function equildepth
48
49
50
51subroutine depths_avmeth(typeT, nz, z, rhosatav, rhosatav0, rlow, avrho1,  &
52     & porefill, typeF, zdepthF, B, ypp, typeG, zdepthG)
53!***********************************************************************
54!  returns interface depth and ypp
55!  also returns lower geothermally limited boundary, if applicable
56!
57!  this is a crucial subroutine
58!
59!  B = Diff*bigstep/(porosity*icedensity)  [SI units]
60!***********************************************************************
61  use math_mod, only: deriv2_simple, deriv1_onesided, deriv1, colint
62  use ice_table_mod, only: constriction
63  implicit none
64  integer, intent(IN) :: nz, typeT
65  real(8), intent(IN), dimension(nz) :: z, rhosatav, porefill
66  real(8), intent(IN) :: rhosatav0, rlow, avrho1
67  integer, intent(OUT) :: typeF  ! index of depth below which filling occurs
68  real(8), intent(INOUT) :: zdepthF
69  real(8), intent(IN) :: B
70  real(8), intent(OUT) :: ypp(nz), zdepthG
71  integer, intent(INOUT) :: typeG  ! positive on input when Fgeotherm>0
72
73  integer i, typeP, nlb, newtypeG
74  real(8) eta(nz), Jpump1, help(nz), yp(nz), zdepthFold, ap_one, ap(nz)
75  real(8) leak, cumfill, cumfillabove
76
77  if (typeT<0) then
78     nlb = nz
79     do i=1,nz
80        eta(i) = constriction(porefill(i))
81     enddo
82  else
83     !nlb = typeT-1
84     nlb = typeT ! changed 2010-09-29
85     do i=1,typeT-1
86        eta(i) = constriction(porefill(i))
87     enddo
88     do i=typeT,nz
89        eta(i)=0.
90     enddo
91  end if
92
93!-fill depth
94  zdepthFold = zdepthF
95  typeF = -9;  zdepthF = -9999.
96  call deriv1(z,nz,rhosatav,rhosatav0,rlow,yp)  ! yp also used below
97  do i=1,nlb
98     Jpump1 = (rhosatav(i)-avrho1)/z(i)  ! <0 when stable
99     ! yp is always <0
100     help(i) = Jpump1 - eta(i)*yp(i)
101     leak = porefill(i)/B*(z(i)-zdepthFold)/(18./8314.)
102     !help(i) = help(i)-leak   ! optional
103     if (help(i) <= 0.) then
104        typeF=i
105        !print *,'#',typeF,Jpump1,eta(typeF)*yp(typeF),leak
106        exit
107     endif
108  enddo
109  if (typeF>1) zdepthF = zint(help(typeF-1),help(typeF),z(typeF-1),z(typeF))
110  if (typeF==1) zdepthF=z(1)
111
112
113!-depth to shallowest perennial ice
114  typeP = -9
115  do i=1,nz
116     if (porefill(i)>0.) then
117        typeP = i  ! first point with ice
118        exit
119     endif
120  enddo
121
122!-calculate ypp
123  !call deriv1(z,nz,rhosatav,rhosatav0,rlow,yp)
124  call deriv1(z,nz,eta(:),1.d0,eta(nz-1),ap)
125  if (typeP>0 .and. typeP<nz-2) then
126     call deriv1_onesided(typeP,z,nz,eta(:),ap_one)
127     ! print *,typeP,ap(typeP),ap_one
128     ap(typeP)=ap_one
129  endif
130  call deriv2_simple(z,nz,rhosatav(1:nz),rhosatav0,rlow,ypp(:))
131  !call deriv2_full(z,nz,eta(:),rhosatav(:),1.d0,rhosatav0,rhosatav(nz-1),ypp(:))
132  !write(40,*) rhosatav
133  !write(41,*) yp
134  !write(42,*) ypp
135  ypp(:) = ap(:)*yp(1:)+eta(:)*ypp(:)
136  !write(43,*) ypp
137  !write(44,*) eta(1:nz)
138  !write(45,*) (rhosatav(:)-avrho1)/z(:)
139  ypp(:) = ypp(:)*18./8314.
140  ! ypp values beyond nlb should not be used
141
142!-geothermal stuff
143  if (typeT>0) typeG=-9
144  if (typeG<0) zdepthG=-9999.
145  if (typeG>0 .and. typeT<0) then
146     typeG=-9
147     do i=2,nz
148        if (yp(i)>0.) then  ! first point with reversed flux
149           typeG=i
150           zdepthG=zint(yp(i-1),yp(i),z(i-1),z(i))
151           !zdepthG=z(typeG)
152           exit
153        endif
154     enddo
155  else
156     typeG = -9
157  endif
158  if (typeG>0 .and. typeT<0) then
159     call colint(porefill(:)/eta(:),z,nz,typeG-1,nz,cumfillabove)
160     newtypeG = -9
161     do i=typeG,nz
162        if (minval(eta(i:nz))<=0.) cycle  ! eta=0 means completely full
163        call colint(porefill(:)/eta(:),z,nz,i,nz,cumfill)
164        if (cumfill<yp(i)*18./8314.*B) then  ! usually executes on i=typeG
165           if (i>typeG) then
166              write(34,*) '# adjustment to geotherm depth by',i-typeG
167              zdepthG = zint(yp(i-1)*18./8314.*B-cumfillabove, &  ! no good
168                   &        yp(i)*18./8314.*B-cumfill,z(i-1),z(i))
169              if (zdepthG>z(i) .or. zdepthG<z(i-1)) write(34,*) &
170                   & '# WARNING: zdepthG interpolation failed',i,z(i-1),zdepthG,z(i)
171              newtypeG=i
172           endif
173           ! otherwise leave zdepthG untouched
174           exit
175        endif
176        cumfillabove = cumfill
177     enddo
178     if (newtypeG>0) typeG=newtypeG
179  end if
180  ! if typeG>0, then all ice at and below typeG should be erased
181end subroutine depths_avmeth
182
183
184
185pure subroutine icechanges(nz,z,typeF,avdrho,avdrhoP,ypp, &
186     & Diff,porosity,icefrac,bigstep,zdepthT,porefill,typeG)
187!***********************************************************
188! advances ice table, advances interface, grows pore ice
189!
190! a crucial subroutine
191!***********************************************************
192  use math_mod, only: colint
193  use ice_table_mod, only: rho_ice
194  implicit none
195  integer, intent(IN) :: nz, typeF, typeG
196  real(8), intent(IN) :: z(nz), ypp(nz), avdrho, avdrhoP
197  real(8), intent(IN) :: Diff, porosity, icefrac, bigstep
198  real(8), intent(INOUT) :: zdepthT, porefill(nz)
199  integer j, erase, newtypeP, ub, typeP, typeT
200  real(8) B, beta, integ
201
202  B = Diff*bigstep*86400.*365.24/(porosity*927.)
203  !B = Diff*bigstep*86400.*365.24/(porosity*rho_ice(T,'h2o'))
204
205  ! advance ice table, avdrho>0 is retreat
206  if (zdepthT>=0. .and. avdrho>0.) then
207     typeP=-9999; typeT=-9999
208     do j=1,nz
209        if (z(j)>zdepthT) then
210           typeT=j
211           exit
212        endif
213     enddo
214     do j=1,nz
215        if (porefill(j)>0.) then
216           typeP=j
217           exit
218        endif
219     enddo
220     if (typeP==typeT) then   ! new 2011-09-01
221        beta = (1-icefrac)/(1-porosity)/icefrac
222        beta = Diff*bigstep*beta*86400*365.24/927.
223        !beta = Diff*bigstep*beta*86400*365.24/rho_ice(T,'h2o')
224        zdepthT = sqrt(2*beta*avdrho*18./8314. + zdepthT**2)
225     endif
226  endif
227  if (zdepthT>z(nz)) zdepthT=-9999.
228
229  ! advance interface, avdrhoP>0 is loss from zdepthP
230  if (avdrhoP>0.) then
231     erase=0
232     do j=1,nz
233        if (typeF>0 .and. j>=typeF) exit ! don't retreat beyond typeF
234        if (zdepthT>=0. .and. z(j)>zdepthT) exit
235        call colint(porefill(1:nz)*z(1:nz),z(1:nz),nz,1,j,integ)
236        erase = j
237        if (integ>B*avdrhoP*18./8314.) exit
238     end do
239     if (erase>0) porefill(1:erase)=0.
240  endif
241
242  ! new depth
243  newtypeP = -9
244  do j=1,nz
245     if (zdepthT>=0. .and. z(j)>zdepthT) exit
246     if (porefill(j)>0.) then
247        newtypeP = j  ! first point with pore ice
248        exit
249     endif
250  enddo
251
252  ! diffusive filling
253  ub = typeF
254  if (newtypeP>0 .and. typeF>0 .and. newtypeP<ub) ub=newtypeP
255  if (ub>0) then
256     do j=ub,nz
257        porefill(j) = porefill(j) + B*ypp(j)
258        if (porefill(j)<0.) porefill(j)=0.
259        if (porefill(j)>1.) porefill(j)=1.
260        if (zdepthT>=0. .and. z(j)>zdepthT) exit
261     enddo
262  end if
263
264  ! below icetable
265  if (zdepthT>=0.) then
266     do j=1,nz
267        if (z(j)>zdepthT) porefill(j) = icefrac/porosity
268     enddo
269  else
270     ! geothermal lower boundary
271     if (typeG>0) porefill(typeG:nz)=0.
272  end if
273end subroutine icechanges
274
275END MODULE fast_subs_univ
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