11 |
C-- o WSCALE - Compute turbulent velocity scales. |
C-- o WSCALE - Compute turbulent velocity scales. |
12 |
C-- o RI_IWMIX - Compute interior viscosity diffusivity coefficients. |
C-- o RI_IWMIX - Compute interior viscosity diffusivity coefficients. |
13 |
C-- o Z121 - Apply 121 vertical smoothing. |
C-- o Z121 - Apply 121 vertical smoothing. |
14 |
C-- o KPP_SMOOTH_HORIZ - Apply horizontal smoothing to KPP array. |
C-- o SMOOTH_HORIZ- Apply horizontal smoothing to global array. |
|
C-- o SMOOTH_HORIZ - Apply horizontal smoothing to global array. |
|
15 |
C-- o BLMIX - Boundary layer mixing coefficients. |
C-- o BLMIX - Boundary layer mixing coefficients. |
16 |
C-- o ENHANCE - Enhance diffusivity at boundary layer interface. |
C-- o ENHANCE - Enhance diffusivity at boundary layer interface. |
17 |
C-- o STATEKPP - Compute buoyancy-related input arrays. |
C-- o STATEKPP - Compute buoyancy-related input arrays. |
19 |
c*********************************************************************** |
c*********************************************************************** |
20 |
|
|
21 |
SUBROUTINE KPPMIX ( |
SUBROUTINE KPPMIX ( |
22 |
I mytime, mythid |
I kmtj, shsq, dvsq, ustar, msk |
23 |
I , kmtj, shsq, dvsq, ustar |
I , bo, bosol |
24 |
I , bo, bosol, dbloc, Ritop, coriol |
#ifdef ALLOW_SALT_PLUME |
25 |
|
I , boplume,SPDepth |
26 |
|
#endif /* ALLOW_SALT_PLUME */ |
27 |
|
I , dbloc, Ritop, coriol |
28 |
|
I , diffusKzS, diffusKzT |
29 |
I , ikppkey |
I , ikppkey |
30 |
O , diffus |
O , diffus |
31 |
U , ghat |
U , ghat |
32 |
O , hbl ) |
O , hbl |
33 |
|
I , myTime, myIter, myThid ) |
34 |
|
|
35 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
36 |
c |
c |
51 |
#include "SIZE.h" |
#include "SIZE.h" |
52 |
#include "EEPARAMS.h" |
#include "EEPARAMS.h" |
53 |
#include "PARAMS.h" |
#include "PARAMS.h" |
|
#include "DYNVARS.h" |
|
|
#include "FFIELDS.h" |
|
54 |
#include "KPP_PARAMS.h" |
#include "KPP_PARAMS.h" |
55 |
|
|
56 |
c input |
c input |
57 |
c myTime - current time in simulation |
c myTime :: Current time in simulation |
58 |
c myThid - thread number for this instance of the routine |
c myIter :: Current iteration number in simulation |
59 |
c kmtj (imt) - number of vertical layers on this row |
c myThid :: My Thread Id. number |
60 |
c shsq (imt,Nr) - (local velocity shear)^2 ((m/s)^2) |
c kmtj (imt) - number of vertical layers on this row |
61 |
c dvsq (imt,Nr) - (velocity shear re sfc)^2 ((m/s)^2) |
c msk (imt) - surface mask (=1 if water, =0 otherwise) |
62 |
c ustar (imt) - surface friction velocity (m/s) |
c shsq (imt,Nr) - (local velocity shear)^2 ((m/s)^2) |
63 |
c bo (imt) - surface turbulent buoy. forcing (m^2/s^3) |
c dvsq (imt,Nr) - (velocity shear re sfc)^2 ((m/s)^2) |
64 |
c bosol (imt) - radiative buoyancy forcing (m^2/s^3) |
c ustar (imt) - surface friction velocity (m/s) |
65 |
c dbloc (imt,Nr) - local delta buoyancy across interfaces (m/s^2) |
c bo (imt) - surface turbulent buoy. forcing (m^2/s^3) |
66 |
c dblocSm(imt,Nr) - horizontally smoothed dbloc (m/s^2) |
c bosol (imt) - radiative buoyancy forcing (m^2/s^3) |
67 |
c stored in ghat to save space |
c boplume(imt) - haline buoyancy forcing (m^2/s^3) |
68 |
c Ritop (imt,Nr) - numerator of bulk Richardson Number |
c dbloc (imt,Nr) - local delta buoyancy across interfaces (m/s^2) |
69 |
c (zref-z) * delta buoyancy w.r.t. surface ((m/s)^2) |
c dblocSm(imt,Nr) - horizontally smoothed dbloc (m/s^2) |
70 |
c coriol (imt) - Coriolis parameter (1/s) |
c stored in ghat to save space |
71 |
|
c Ritop (imt,Nr) - numerator of bulk Richardson Number |
72 |
|
c (zref-z) * delta buoyancy w.r.t. surface ((m/s)^2) |
73 |
|
c coriol (imt) - Coriolis parameter (1/s) |
74 |
|
c diffusKzS(imt,Nr)- background vertical diffusivity for scalars (m^2/s) |
75 |
|
c diffusKzT(imt,Nr)- background vertical diffusivity for theta (m^2/s) |
76 |
c note: there is a conversion from 2-D to 1-D for input output variables, |
c note: there is a conversion from 2-D to 1-D for input output variables, |
77 |
c e.g., hbl(sNx,sNy) -> hbl(imt), |
c e.g., hbl(sNx,sNy) -> hbl(imt), |
78 |
c where hbl(i,j) -> hbl((j-1)*sNx+i) |
c where hbl(i,j) -> hbl((j-1)*sNx+i) |
79 |
|
|
80 |
_RL mytime |
_RL myTime |
81 |
integer mythid |
integer myIter |
82 |
integer kmtj (imt ) |
integer myThid |
83 |
_KPP_RL shsq (imt,Nr) |
integer kmtj (imt ) |
84 |
_KPP_RL dvsq (imt,Nr) |
_RL shsq (imt,Nr) |
85 |
_KPP_RL ustar (imt ) |
_RL dvsq (imt,Nr) |
86 |
_KPP_RL bo (imt ) |
_RL ustar (imt ) |
87 |
_KPP_RL bosol (imt ) |
_RL bo (imt ) |
88 |
_KPP_RL dbloc (imt,Nr) |
_RL bosol (imt ) |
89 |
_KPP_RL Ritop (imt,Nr) |
#ifdef ALLOW_SALT_PLUME |
90 |
_KPP_RL coriol(imt ) |
_RL boplume (imt ) |
91 |
|
_RL SPDepth (imt ) |
92 |
|
#endif /* ALLOW_SALT_PLUME */ |
93 |
|
_RL dbloc (imt,Nr) |
94 |
|
_RL Ritop (imt,Nr) |
95 |
|
_RL coriol (imt ) |
96 |
|
_RS msk (imt ) |
97 |
|
_RL diffusKzS(imt,Nr) |
98 |
|
_RL diffusKzT(imt,Nr) |
99 |
|
|
100 |
integer ikppkey |
integer ikppkey |
101 |
|
|
106 |
c ghat (imt) - nonlocal transport coefficient (s/m^2) |
c ghat (imt) - nonlocal transport coefficient (s/m^2) |
107 |
c hbl (imt) - mixing layer depth (m) |
c hbl (imt) - mixing layer depth (m) |
108 |
|
|
109 |
_KPP_RL diffus(imt,0:Nrp1,mdiff) |
_RL diffus(imt,0:Nrp1,mdiff) |
110 |
_KPP_RL ghat (imt,Nr) |
_RL ghat (imt,Nr) |
111 |
_KPP_RL hbl (imt) |
_RL hbl (imt) |
112 |
|
|
113 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
114 |
|
|
122 |
c sigma (imt ) - normalized depth (d / hbl) |
c sigma (imt ) - normalized depth (d / hbl) |
123 |
c Rib (imt,Nr ) - bulk Richardson number |
c Rib (imt,Nr ) - bulk Richardson number |
124 |
|
|
125 |
integer kbl (imt ) |
integer kbl(imt ) |
126 |
_KPP_RL bfsfc (imt ) |
_RL bfsfc (imt ) |
127 |
_KPP_RL casea (imt ) |
_RL casea (imt ) |
128 |
_KPP_RL stable(imt ) |
_RL stable (imt ) |
129 |
_KPP_RL dkm1 (imt, mdiff) |
_RL dkm1 (imt, mdiff) |
130 |
_KPP_RL blmc (imt,Nr,mdiff) |
_RL blmc (imt,Nr,mdiff) |
131 |
_KPP_RL sigma (imt ) |
_RL sigma (imt ) |
132 |
_KPP_RL Rib (imt,Nr ) |
_RL Rib (imt,Nr ) |
133 |
|
|
134 |
integer i, k, md |
integer i, k, md |
135 |
|
|
147 |
cph) |
cph) |
148 |
call Ri_iwmix ( |
call Ri_iwmix ( |
149 |
I kmtj, shsq, dbloc, ghat |
I kmtj, shsq, dbloc, ghat |
150 |
|
I , diffusKzS, diffusKzT |
151 |
I , ikppkey |
I , ikppkey |
152 |
O , diffus ) |
O , diffus, myThid ) |
153 |
|
|
154 |
cph( |
cph( |
155 |
cph these storings avoid recomp. of Ri_iwmix |
cph these storings avoid recomp. of Ri_iwmix |
166 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
167 |
|
|
168 |
do md = 1, mdiff |
do md = 1, mdiff |
169 |
|
do k=1,Nrp1 |
170 |
do i = 1,imt |
do i = 1,imt |
171 |
do k=kmtj(i),Nrp1 |
if(k.ge.kmtj(i)) diffus(i,k,md) = 0.0 |
|
diffus(i,k,md) = 0.0 |
|
172 |
end do |
end do |
173 |
end do |
end do |
174 |
end do |
end do |
180 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
181 |
|
|
182 |
call bldepth ( |
call bldepth ( |
183 |
I mytime, mythid |
I kmtj |
184 |
I , kmtj |
I , dvsq, dbloc, Ritop, ustar, bo, bosol |
185 |
I , dvsq, dbloc, Ritop, ustar, bo, bosol, coriol |
#ifdef ALLOW_SALT_PLUME |
186 |
|
I , boplume,SPDepth |
187 |
|
#endif /* ALLOW_SALT_PLUME */ |
188 |
|
I , coriol |
189 |
I , ikppkey |
I , ikppkey |
190 |
O , hbl, bfsfc, stable, casea, kbl, Rib, sigma |
O , hbl, bfsfc, stable, casea, kbl, Rib, sigma |
191 |
& ) |
I , myTime, myIter, myThid ) |
192 |
|
|
193 |
CADJ STORE hbl,bfsfc,stable,casea,kbl = comlev1_kpp, key = ikppkey |
CADJ STORE hbl,bfsfc,stable,casea,kbl = comlev1_kpp, key = ikppkey |
194 |
|
|
199 |
call blmix ( |
call blmix ( |
200 |
I ustar, bfsfc, hbl, stable, casea, diffus, kbl |
I ustar, bfsfc, hbl, stable, casea, diffus, kbl |
201 |
O , dkm1, blmc, ghat, sigma, ikppkey |
O , dkm1, blmc, ghat, sigma, ikppkey |
202 |
& ) |
I , myThid ) |
203 |
cph( |
cph( |
204 |
CADJ STORE dkm1,blmc,ghat = comlev1_kpp, key = ikppkey |
CADJ STORE dkm1,blmc,ghat = comlev1_kpp, key = ikppkey |
205 |
CADJ STORE hbl, kbl, diffus, casea = comlev1_kpp, key = ikppkey |
CADJ STORE hbl, kbl, diffus, casea = comlev1_kpp, key = ikppkey |
212 |
call enhance ( |
call enhance ( |
213 |
I dkm1, hbl, kbl, diffus, casea |
I dkm1, hbl, kbl, diffus, casea |
214 |
U , ghat |
U , ghat |
215 |
O , blmc ) |
O , blmc |
216 |
|
I , myThid ) |
217 |
|
|
218 |
cph( |
cph( |
219 |
cph avoids recomp. of enhance |
cph avoids recomp. of enhance |
229 |
do k = 1, Nr |
do k = 1, Nr |
230 |
do i = 1, imt |
do i = 1, imt |
231 |
if (k .lt. kbl(i)) then |
if (k .lt. kbl(i)) then |
232 |
|
#ifdef ALLOW_SHELFICE |
233 |
|
C when there is shelfice on top (msk(i)=0), reset the boundary layer |
234 |
|
C mixing coefficients blmc to pure Ri-number based mixing |
235 |
|
blmc(i,k,1) = max ( blmc(i,k,1)*msk(i), |
236 |
|
& diffus(i,k,1) ) |
237 |
|
blmc(i,k,2) = max ( blmc(i,k,2)*msk(i), |
238 |
|
& diffus(i,k,2) ) |
239 |
|
blmc(i,k,3) = max ( blmc(i,k,3)*msk(i), |
240 |
|
& diffus(i,k,3) ) |
241 |
|
#endif /* not ALLOW_SHELFICE */ |
242 |
diffus(i,k,1) = max ( blmc(i,k,1), viscAr ) |
diffus(i,k,1) = max ( blmc(i,k,1), viscAr ) |
243 |
diffus(i,k,2) = max ( blmc(i,k,2), diffKrS ) |
diffus(i,k,2) = max ( blmc(i,k,2), diffusKzS(i,Nr) ) |
244 |
diffus(i,k,3) = max ( blmc(i,k,3), diffKrT ) |
diffus(i,k,3) = max ( blmc(i,k,3), diffusKzT(i,Nr) ) |
245 |
else |
else |
246 |
ghat(i,k) = 0. |
ghat(i,k) = 0. |
247 |
endif |
endif |
256 |
c************************************************************************* |
c************************************************************************* |
257 |
|
|
258 |
subroutine bldepth ( |
subroutine bldepth ( |
259 |
I mytime, mythid |
I kmtj |
260 |
I , kmtj |
I , dvsq, dbloc, Ritop, ustar, bo, bosol |
261 |
I , dvsq, dbloc, Ritop, ustar, bo, bosol, coriol |
#ifdef ALLOW_SALT_PLUME |
262 |
|
I , boplume,SPDepth |
263 |
|
#endif /* ALLOW_SALT_PLUME */ |
264 |
|
I , coriol |
265 |
I , ikppkey |
I , ikppkey |
266 |
O , hbl, bfsfc, stable, casea, kbl, Rib, sigma |
O , hbl, bfsfc, stable, casea, kbl, Rib, sigma |
267 |
& ) |
I , myTime, myIter, myThid ) |
268 |
|
|
269 |
c the oceanic planetary boundary layer depth, hbl, is determined as |
c the oceanic planetary boundary layer depth, hbl, is determined as |
270 |
c the shallowest depth where the bulk Richardson number is |
c the shallowest depth where the bulk Richardson number is |
290 |
IMPLICIT NONE |
IMPLICIT NONE |
291 |
|
|
292 |
#include "SIZE.h" |
#include "SIZE.h" |
|
#include "EEPARAMS.h" |
|
|
#include "PARAMS.h" |
|
293 |
#include "KPP_PARAMS.h" |
#include "KPP_PARAMS.h" |
|
#include "FFIELDS.h" |
|
294 |
|
|
295 |
c input |
c input |
296 |
c------ |
c------ |
297 |
c myTime : current time in simulation |
c myTime :: Current time in simulation |
298 |
c myThid : thread number for this instance of the routine |
c myIter :: Current iteration number in simulation |
299 |
|
c myThid :: My Thread Id. number |
300 |
c kmtj : number of vertical layers |
c kmtj : number of vertical layers |
301 |
c dvsq : (velocity shear re sfc)^2 ((m/s)^2) |
c dvsq : (velocity shear re sfc)^2 ((m/s)^2) |
302 |
c dbloc : local delta buoyancy across interfaces (m/s^2) |
c dbloc : local delta buoyancy across interfaces (m/s^2) |
306 |
c ustar : surface friction velocity (m/s) |
c ustar : surface friction velocity (m/s) |
307 |
c bo : surface turbulent buoyancy forcing (m^2/s^3) |
c bo : surface turbulent buoyancy forcing (m^2/s^3) |
308 |
c bosol : radiative buoyancy forcing (m^2/s^3) |
c bosol : radiative buoyancy forcing (m^2/s^3) |
309 |
|
c boplume : haline buoyancy forcing (m^2/s^3) |
310 |
c coriol : Coriolis parameter (1/s) |
c coriol : Coriolis parameter (1/s) |
311 |
_RL mytime |
_RL myTime |
312 |
integer mythid |
integer myIter |
313 |
|
integer myThid |
314 |
integer kmtj(imt) |
integer kmtj(imt) |
315 |
_KPP_RL dvsq (imt,Nr) |
_RL dvsq (imt,Nr) |
316 |
_KPP_RL dbloc (imt,Nr) |
_RL dbloc (imt,Nr) |
317 |
_KPP_RL Ritop (imt,Nr) |
_RL Ritop (imt,Nr) |
318 |
_KPP_RL ustar (imt) |
_RL ustar (imt) |
319 |
_KPP_RL bo (imt) |
_RL bo (imt) |
320 |
_KPP_RL bosol (imt) |
_RL bosol (imt) |
321 |
_KPP_RL coriol(imt) |
_RL coriol (imt) |
322 |
integer ikppkey |
integer ikppkey, kkppkey |
323 |
|
#ifdef ALLOW_SALT_PLUME |
324 |
|
_RL boplume (imt) |
325 |
|
_RL SPDepth (imt) |
326 |
|
#endif /* ALLOW_SALT_PLUME */ |
327 |
|
|
328 |
c output |
c output |
329 |
c-------- |
c-------- |
334 |
c kbl : -1 of first grid level below hbl |
c kbl : -1 of first grid level below hbl |
335 |
c Rib : Bulk Richardson number |
c Rib : Bulk Richardson number |
336 |
c sigma : normalized depth (d/hbl) |
c sigma : normalized depth (d/hbl) |
337 |
_KPP_RL hbl (imt) |
_RL hbl (imt) |
338 |
_KPP_RL bfsfc (imt) |
_RL bfsfc (imt) |
339 |
_KPP_RL stable(imt) |
_RL stable (imt) |
340 |
_KPP_RL casea (imt) |
_RL casea (imt) |
341 |
integer kbl (imt) |
integer kbl(imt) |
342 |
_KPP_RL Rib (imt,Nr) |
_RL Rib (imt,Nr) |
343 |
_KPP_RL sigma (imt) |
_RL sigma (imt) |
344 |
|
|
345 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
346 |
|
|
347 |
c local |
c local |
348 |
c------- |
c------- |
349 |
c wm, ws : turbulent velocity scales (m/s) |
c wm, ws : turbulent velocity scales (m/s) |
350 |
_KPP_RL wm(imt), ws(imt) |
_RL wm(imt), ws(imt) |
351 |
_RL worka(imt) |
_RL worka(imt) |
352 |
|
_RL bvsq, vtsq, hekman, hmonob, hlimit, tempVar1, tempVar2 |
|
_KPP_RL bvsq, vtsq, hekman, hmonob, hlimit, tempVar1, tempVar2 |
|
353 |
integer i, kl |
integer i, kl |
354 |
|
|
355 |
_KPP_RL p5 , eins |
_RL p5 , eins |
356 |
parameter ( p5=0.5, eins=1.0 ) |
parameter ( p5=0.5, eins=1.0 ) |
357 |
_RL minusone |
_RL minusone |
358 |
parameter ( minusone=-1.0 ) |
parameter ( minusone=-1.0 ) |
376 |
|
|
377 |
do kl = 2, Nr |
do kl = 2, Nr |
378 |
|
|
379 |
|
#ifdef ALLOW_AUTODIFF_TAMC |
380 |
|
kkppkey = (ikppkey-1)*Nr + kl |
381 |
|
#endif |
382 |
|
|
383 |
c compute bfsfc = sw fraction at hbf * zgrid |
c compute bfsfc = sw fraction at hbf * zgrid |
384 |
|
|
385 |
do i = 1, imt |
do i = 1, imt |
386 |
worka(i) = zgrid(kl) |
worka(i) = zgrid(kl) |
387 |
end do |
end do |
388 |
|
CADJ store worka = comlev1_kpp_k, key = kkppkey |
389 |
call SWFRAC( |
call SWFRAC( |
390 |
I imt, hbf, |
I imt, hbf, |
391 |
I mytime, mythid, |
U worka, |
392 |
U worka ) |
I myTime, myIter, myThid ) |
393 |
|
CADJ store worka = comlev1_kpp_k, key = kkppkey |
394 |
|
|
395 |
do i = 1, imt |
do i = 1, imt |
396 |
|
|
401 |
c compute bfsfc= Bo + radiative contribution down to hbf * hbl |
c compute bfsfc= Bo + radiative contribution down to hbf * hbl |
402 |
|
|
403 |
bfsfc(i) = bo(i) + bosol(i)*(1. - worka(i)) |
bfsfc(i) = bo(i) + bosol(i)*(1. - worka(i)) |
|
stable(i) = p5 + sign(p5,bfsfc(i)) |
|
|
sigma(i) = stable(i) + (1. - stable(i)) * epsilon |
|
404 |
|
|
405 |
end do |
end do |
406 |
|
#ifdef ALLOW_SALT_PLUME |
407 |
|
c compute bfsfc = plume fraction at hbf * zgrid |
408 |
|
do i = 1, imt |
409 |
|
worka(i) = zgrid(kl) |
410 |
|
enddo |
411 |
|
call PLUMEFRAC( |
412 |
|
I imt, hbf,SPDepth, |
413 |
|
U worka, |
414 |
|
I myTime, myIter, myThid) |
415 |
|
do i = 1, imt |
416 |
|
bfsfc(i) = bfsfc(i) + boplume(i)*(1. - worka(i)) |
417 |
|
enddo |
418 |
|
#endif /* ALLOW_SALT_PLUME */ |
419 |
|
|
420 |
|
do i = 1, imt |
421 |
|
stable(i) = p5 + sign(p5,bfsfc(i)) |
422 |
|
sigma(i) = stable(i) + (1. - stable(i)) * epsilon |
423 |
|
enddo |
424 |
|
|
425 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
426 |
c compute velocity scales at sigma, for hbl= caseA = -zgrid(kl) |
c compute velocity scales at sigma, for hbl= caseA = -zgrid(kl) |
428 |
|
|
429 |
call wscale ( |
call wscale ( |
430 |
I sigma, casea, ustar, bfsfc, |
I sigma, casea, ustar, bfsfc, |
431 |
O wm, ws ) |
O wm, ws, myThid ) |
432 |
|
CADJ store ws = comlev1_kpp_k, key = kkppkey |
433 |
|
|
434 |
do i = 1, imt |
do i = 1, imt |
435 |
|
|
502 |
do i = 1, imt |
do i = 1, imt |
503 |
worka(i) = hbl(i) |
worka(i) = hbl(i) |
504 |
end do |
end do |
505 |
|
CADJ store worka = comlev1_kpp |
506 |
|
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
507 |
call SWFRAC( |
call SWFRAC( |
508 |
I imt, minusone, |
I imt, minusone, |
509 |
I mytime, mythid, |
U worka, |
510 |
U worka ) |
I myTime, myIter, myThid ) |
511 |
|
CADJ store worka = comlev1_kpp |
512 |
|
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
513 |
|
|
514 |
do i = 1, imt |
do i = 1, imt |
515 |
bfsfc(i) = bo(i) + bosol(i) * (1. - worka(i)) |
bfsfc(i) = bo(i) + bosol(i) * (1. - worka(i)) |
516 |
end do |
end do |
517 |
|
|
518 |
|
#ifdef ALLOW_SALT_PLUME |
519 |
|
do i = 1, imt |
520 |
|
worka(i) = hbl(i) |
521 |
|
enddo |
522 |
|
call PLUMEFRAC( |
523 |
|
I imt,minusone,SPDepth, |
524 |
|
U worka, |
525 |
|
I myTime, myIter, myThid ) |
526 |
|
do i = 1, imt |
527 |
|
bfsfc(i) = bfsfc(i) + boplume(i) * (1. - worka(i)) |
528 |
|
enddo |
529 |
|
#endif /* ALLOW_SALT_PLUME */ |
530 |
CADJ store bfsfc = comlev1_kpp |
CADJ store bfsfc = comlev1_kpp |
531 |
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
532 |
|
|
587 |
do i = 1, imt |
do i = 1, imt |
588 |
worka(i) = hbl(i) |
worka(i) = hbl(i) |
589 |
end do |
end do |
590 |
|
CADJ store worka = comlev1_kpp |
591 |
|
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
592 |
call SWFRAC( |
call SWFRAC( |
593 |
I imt, minusone, |
I imt, minusone, |
594 |
I mytime, mythid, |
U worka, |
595 |
U worka ) |
I myTime, myIter, myThid ) |
596 |
|
CADJ store worka = comlev1_kpp |
597 |
|
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
598 |
|
|
599 |
do i = 1, imt |
do i = 1, imt |
600 |
bfsfc(i) = bo(i) + bosol(i) * (1. - worka(i)) |
bfsfc(i) = bo(i) + bosol(i) * (1. - worka(i)) |
601 |
end do |
end do |
602 |
|
|
603 |
|
#ifdef ALLOW_SALT_PLUME |
604 |
|
do i = 1, imt |
605 |
|
worka(i) = hbl(i) |
606 |
|
enddo |
607 |
|
call PLUMEFRAC( |
608 |
|
I imt,minusone,SPDepth, |
609 |
|
U worka, |
610 |
|
I myTime, myIter, myThid ) |
611 |
|
do i = 1, imt |
612 |
|
bfsfc(i) = bfsfc(i) + boplume(i) * (1. - worka(i)) |
613 |
|
enddo |
614 |
|
#endif /* ALLOW_SALT_PLUME */ |
615 |
CADJ store bfsfc = comlev1_kpp |
CADJ store bfsfc = comlev1_kpp |
616 |
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
CADJ & , key = ikppkey, shape = (/ (sNx+2*OLx)*(sNy+2*OLy) /) |
617 |
|
|
639 |
|
|
640 |
subroutine wscale ( |
subroutine wscale ( |
641 |
I sigma, hbl, ustar, bfsfc, |
I sigma, hbl, ustar, bfsfc, |
642 |
O wm, ws ) |
O wm, ws, |
643 |
|
I myThid ) |
644 |
|
|
645 |
c compute turbulent velocity scales. |
c compute turbulent velocity scales. |
646 |
c use a 2D-lookup table for wm and ws as functions of ustar and |
c use a 2D-lookup table for wm and ws as functions of ustar and |
661 |
c hbl : boundary layer depth (m) |
c hbl : boundary layer depth (m) |
662 |
c ustar : surface friction velocity (m/s) |
c ustar : surface friction velocity (m/s) |
663 |
c bfsfc : total surface buoyancy flux (m^2/s^3) |
c bfsfc : total surface buoyancy flux (m^2/s^3) |
664 |
_KPP_RL sigma(imt) |
c myThid : thread number for this instance of the routine |
665 |
_KPP_RL hbl (imt) |
integer myThid |
666 |
_KPP_RL ustar(imt) |
_RL sigma(imt) |
667 |
_KPP_RL bfsfc(imt) |
_RL hbl (imt) |
668 |
|
_RL ustar(imt) |
669 |
|
_RL bfsfc(imt) |
670 |
|
|
671 |
c output |
c output |
672 |
c-------- |
c-------- |
673 |
c wm, ws : turbulent velocity scales at sigma |
c wm, ws : turbulent velocity scales at sigma |
674 |
_KPP_RL wm(imt), ws(imt) |
_RL wm(imt), ws(imt) |
675 |
|
|
676 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
677 |
|
|
678 |
c local |
c local |
679 |
c------ |
c------ |
680 |
c zehat : = zeta * ustar**3 |
c zehat : = zeta * ustar**3 |
681 |
_KPP_RL zehat |
_RL zehat |
682 |
|
|
683 |
integer iz, izp1, ju, i, jup1 |
integer iz, izp1, ju, i, jup1 |
684 |
_KPP_RL udiff, zdiff, zfrac, ufrac, fzfrac, wam |
_RL udiff, zdiff, zfrac, ufrac, fzfrac, wam |
685 |
_KPP_RL wbm, was, wbs, u3, tempVar |
_RL wbm, was, wbs, u3, tempVar |
686 |
|
|
687 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
688 |
c use lookup table for zehat < zmax only; otherwise use |
c use lookup table for zehat < zmax only; otherwise use |
737 |
c************************************************************************* |
c************************************************************************* |
738 |
|
|
739 |
subroutine Ri_iwmix ( |
subroutine Ri_iwmix ( |
740 |
I kmtj, shsq, dbloc, dblocSm |
I kmtj, shsq, dbloc, dblocSm, |
741 |
I , ikppkey |
I diffusKzS, diffusKzT, |
742 |
O , diffus ) |
I ikppkey, |
743 |
|
O diffus, |
744 |
|
I myThid ) |
745 |
|
|
746 |
c compute interior viscosity diffusivity coefficients due |
c compute interior viscosity diffusivity coefficients due |
747 |
c to shear instability (dependent on a local Richardson number), |
c to shear instability (dependent on a local Richardson number), |
760 |
c shsq (imt,Nr) (local velocity shear)^2 ((m/s)^2) |
c shsq (imt,Nr) (local velocity shear)^2 ((m/s)^2) |
761 |
c dbloc (imt,Nr) local delta buoyancy (m/s^2) |
c dbloc (imt,Nr) local delta buoyancy (m/s^2) |
762 |
c dblocSm(imt,Nr) horizontally smoothed dbloc (m/s^2) |
c dblocSm(imt,Nr) horizontally smoothed dbloc (m/s^2) |
763 |
integer kmtj (imt) |
c diffusKzS(imt,Nr)- background vertical diffusivity for scalars (m^2/s) |
764 |
_KPP_RL shsq (imt,Nr) |
c diffusKzT(imt,Nr)- background vertical diffusivity for theta (m^2/s) |
765 |
_KPP_RL dbloc (imt,Nr) |
c myThid :: My Thread Id. number |
766 |
_KPP_RL dblocSm(imt,Nr) |
integer kmtj (imt) |
767 |
|
_RL shsq (imt,Nr) |
768 |
|
_RL dbloc (imt,Nr) |
769 |
|
_RL dblocSm (imt,Nr) |
770 |
|
_RL diffusKzS(imt,Nr) |
771 |
|
_RL diffusKzT(imt,Nr) |
772 |
integer ikppkey |
integer ikppkey |
773 |
|
integer myThid |
774 |
|
|
775 |
c output |
c output |
776 |
c diffus(imt,0:Nrp1,1) vertical viscosivity coefficient (m^2/s) |
c diffus(imt,0:Nrp1,1) vertical viscosivity coefficient (m^2/s) |
777 |
c diffus(imt,0:Nrp1,2) vertical scalar diffusivity (m^2/s) |
c diffus(imt,0:Nrp1,2) vertical scalar diffusivity (m^2/s) |
778 |
c diffus(imt,0:Nrp1,3) vertical temperature diffusivity (m^2/s) |
c diffus(imt,0:Nrp1,3) vertical temperature diffusivity (m^2/s) |
779 |
_KPP_RL diffus(imt,0:Nrp1,3) |
_RL diffus(imt,0:Nrp1,3) |
780 |
|
|
781 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
782 |
|
|
783 |
c local variables |
c local variables |
784 |
c Rig local Richardson number |
c Rig local Richardson number |
785 |
c fRi, fcon function of Rig |
c fRi, fcon function of Rig |
786 |
_KPP_RL Rig |
_RL Rig |
787 |
_KPP_RL fRi, fcon |
_RL fRi, fcon |
788 |
_KPP_RL ratio |
_RL ratio |
789 |
integer i, ki |
integer i, ki |
790 |
_KPP_RL c1, c0 |
_RL c1, c0 |
791 |
|
|
792 |
#ifdef ALLOW_KPP_VERTICALLY_SMOOTH |
#ifdef ALLOW_KPP_VERTICALLY_SMOOTH |
793 |
integer mr |
integer mr |
806 |
#ifdef ALLOW_AUTODIFF_TAMC |
#ifdef ALLOW_AUTODIFF_TAMC |
807 |
C break data flow dependence on diffus |
C break data flow dependence on diffus |
808 |
diffus(1,1,1) = 0.0 |
diffus(1,1,1) = 0.0 |
809 |
|
|
810 |
|
do ki = 1, Nr |
811 |
|
do i = 1, imt |
812 |
|
diffus(i,ki,1) = 0. |
813 |
|
diffus(i,ki,2) = 0. |
814 |
|
diffus(i,ki,3) = 0. |
815 |
|
enddo |
816 |
|
enddo |
817 |
#endif |
#endif |
818 |
|
|
819 |
|
|
820 |
do ki = 1, Nr |
do ki = 1, Nr |
821 |
do i = 1, imt |
do i = 1, imt |
832 |
endif |
endif |
833 |
end do |
end do |
834 |
end do |
end do |
835 |
|
CADJ store diffus = comlev1_kpp, key = ikppkey |
836 |
|
|
837 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
838 |
c vertically smooth Ri |
c vertically smooth Ri |
843 |
CADJ & , key=mr, shape=(/ (sNx+2*OLx)*(sNy+2*OLy),Nr+2 /) |
CADJ & , key=mr, shape=(/ (sNx+2*OLx)*(sNy+2*OLy),Nr+2 /) |
844 |
|
|
845 |
call z121 ( |
call z121 ( |
846 |
U diffus(1,0,1)) |
U diffus(1,0,1) |
847 |
|
I myThid ) |
848 |
end do |
end do |
849 |
#endif |
#endif |
850 |
|
|
871 |
c ---------------------------------------------------------------------- |
c ---------------------------------------------------------------------- |
872 |
c evaluate diffusivities and viscosity |
c evaluate diffusivities and viscosity |
873 |
c mixing due to internal waves, and shear and static instability |
c mixing due to internal waves, and shear and static instability |
874 |
|
|
875 |
diffus(i,ki,1) = viscAr + fcon * difmcon + fRi * difm0 |
#ifndef EXCLUDE_KPP_SHEAR_MIX |
876 |
diffus(i,ki,2) = diffKrS + fcon * difscon + fRi * difs0 |
if ( .NOT. inAdMode ) then |
877 |
diffus(i,ki,3) = diffKrT + fcon * difscon + fRi * difs0 |
diffus(i,ki,1) = viscAr + fcon * difmcon + fRi * difm0 |
878 |
|
diffus(i,ki,2) = diffusKzS(i,ki)+fcon*difscon+fRi*difs0 |
879 |
|
diffus(i,ki,3) = diffusKzT(i,ki)+fcon*diftcon+fRi*dift0 |
880 |
|
else |
881 |
|
diffus(i,ki,1) = viscAr |
882 |
|
diffus(i,ki,2) = diffusKzS(i,ki) |
883 |
|
diffus(i,ki,3) = diffusKzT(i,ki) |
884 |
|
endif |
885 |
|
#else |
886 |
|
diffus(i,ki,1) = viscAr |
887 |
|
diffus(i,ki,2) = diffusKzS(i,ki) |
888 |
|
diffus(i,ki,3) = diffusKzT(i,ki) |
889 |
|
#endif |
890 |
|
|
891 |
end do |
end do |
892 |
end do |
end do |
908 |
c************************************************************************* |
c************************************************************************* |
909 |
|
|
910 |
subroutine z121 ( |
subroutine z121 ( |
911 |
U v ) |
U v, |
912 |
|
I myThid ) |
913 |
|
|
914 |
c Apply 121 smoothing in k to 2-d array V(i,k=1,Nr) |
c Apply 121 smoothing in k to 2-d array V(i,k=1,Nr) |
915 |
c top (0) value is used as a dummy |
c top (0) value is used as a dummy |
927 |
c input/output |
c input/output |
928 |
c------------- |
c------------- |
929 |
c v : 2-D array to be smoothed in Nrp1 direction |
c v : 2-D array to be smoothed in Nrp1 direction |
930 |
_KPP_RL v(imt,0:Nrp1) |
c myThid: thread number for this instance of the routine |
931 |
|
integer myThid |
932 |
|
_RL v(imt,0:Nrp1) |
933 |
|
|
934 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
935 |
|
|
936 |
c local |
c local |
937 |
_KPP_RL zwork, zflag |
_RL zwork, zflag |
938 |
_KPP_RL KRi_range(1:Nrp1) |
_RL KRi_range(1:Nrp1) |
939 |
integer i, k, km1, kp1 |
integer i, k, km1, kp1 |
940 |
|
|
941 |
_KPP_RL p0 , p25 , p5 , p2 |
_RL p0 , p25 , p5 , p2 |
942 |
parameter ( p0 = 0.0, p25 = 0.25, p5 = 0.5, p2 = 2.0 ) |
parameter ( p0 = 0.0, p25 = 0.25, p5 = 0.5, p2 = 2.0 ) |
943 |
|
|
944 |
KRi_range(Nrp1) = p0 |
KRi_range(Nrp1) = p0 |
992 |
|
|
993 |
c************************************************************************* |
c************************************************************************* |
994 |
|
|
|
subroutine kpp_smooth_horiz ( |
|
|
I k, bi, bj, |
|
|
U fld ) |
|
|
|
|
|
c Apply horizontal smoothing to KPP array |
|
|
|
|
|
IMPLICIT NONE |
|
|
#include "SIZE.h" |
|
|
#include "KPP_PARAMS.h" |
|
|
|
|
|
c input |
|
|
c bi, bj : array indices |
|
|
c k : vertical index used for masking |
|
|
integer k, bi, bj |
|
|
|
|
|
c input/output |
|
|
c fld : 2-D array to be smoothed |
|
|
_KPP_RL fld( ibot:itop, jbot:jtop ) |
|
|
|
|
|
#ifdef ALLOW_KPP |
|
|
|
|
|
c local |
|
|
integer i, j, im1, ip1, jm1, jp1 |
|
|
_KPP_RL tempVar |
|
|
_KPP_RL fld_tmp( ibot:itop, jbot:jtop ) |
|
|
|
|
|
integer imin , imax , jmin , jmax |
|
|
parameter( imin=ibot+1, imax=itop-1, jmin=jbot+1, jmax=jtop-1 ) |
|
|
|
|
|
_KPP_RL p0 , p5 , p25 , p125 , p0625 |
|
|
parameter( p0=0.0, p5=0.5, p25=0.25, p125=0.125, p0625=0.0625 ) |
|
|
|
|
|
DO j = jmin, jmax |
|
|
jm1 = j-1 |
|
|
jp1 = j+1 |
|
|
DO i = imin, imax |
|
|
im1 = i-1 |
|
|
ip1 = i+1 |
|
|
tempVar = |
|
|
& p25 * pMask(i ,j ,k,bi,bj) + |
|
|
& p125 * ( pMask(im1,j ,k,bi,bj) + |
|
|
& pMask(ip1,j ,k,bi,bj) + |
|
|
& pMask(i ,jm1,k,bi,bj) + |
|
|
& pMask(i ,jp1,k,bi,bj) ) + |
|
|
& p0625 * ( pMask(im1,jm1,k,bi,bj) + |
|
|
& pMask(im1,jp1,k,bi,bj) + |
|
|
& pMask(ip1,jm1,k,bi,bj) + |
|
|
& pMask(ip1,jp1,k,bi,bj) ) |
|
|
IF ( tempVar .GE. p25 ) THEN |
|
|
fld_tmp(i,j) = ( |
|
|
& p25 * fld(i ,j )*pMask(i ,j ,k,bi,bj) + |
|
|
& p125 *(fld(im1,j )*pMask(im1,j ,k,bi,bj) + |
|
|
& fld(ip1,j )*pMask(ip1,j ,k,bi,bj) + |
|
|
& fld(i ,jm1)*pMask(i ,jm1,k,bi,bj) + |
|
|
& fld(i ,jp1)*pMask(i ,jp1,k,bi,bj))+ |
|
|
& p0625*(fld(im1,jm1)*pMask(im1,jm1,k,bi,bj) + |
|
|
& fld(im1,jp1)*pMask(im1,jp1,k,bi,bj) + |
|
|
& fld(ip1,jm1)*pMask(ip1,jm1,k,bi,bj) + |
|
|
& fld(ip1,jp1)*pMask(ip1,jp1,k,bi,bj))) |
|
|
& / tempVar |
|
|
ELSE |
|
|
fld_tmp(i,j) = fld(i,j) |
|
|
ENDIF |
|
|
ENDDO |
|
|
ENDDO |
|
|
|
|
|
c transfer smoothed field to output array |
|
|
DO j = jmin, jmax |
|
|
DO i = imin, imax |
|
|
fld(i,j) = fld_tmp(i,j) |
|
|
ENDDO |
|
|
ENDDO |
|
|
|
|
|
#endif /* ALLOW_KPP */ |
|
|
|
|
|
return |
|
|
end |
|
|
|
|
|
c************************************************************************* |
|
|
|
|
995 |
subroutine smooth_horiz ( |
subroutine smooth_horiz ( |
996 |
I k, bi, bj, |
I k, bi, bj, |
997 |
U fld ) |
U fld, |
998 |
|
I myThid ) |
999 |
|
|
1000 |
c Apply horizontal smoothing to global _RL 2-D array |
c Apply horizontal smoothing to global _RL 2-D array |
1001 |
|
|
1002 |
IMPLICIT NONE |
IMPLICIT NONE |
1003 |
#include "SIZE.h" |
#include "SIZE.h" |
1004 |
|
#include "GRID.h" |
1005 |
#include "KPP_PARAMS.h" |
#include "KPP_PARAMS.h" |
1006 |
|
|
1007 |
c input |
c input |
1008 |
c bi, bj : array indices |
c bi, bj : array indices |
1009 |
c k : vertical index used for masking |
c k : vertical index used for masking |
1010 |
|
c myThid : thread number for this instance of the routine |
1011 |
|
INTEGER myThid |
1012 |
integer k, bi, bj |
integer k, bi, bj |
1013 |
|
|
1014 |
c input/output |
c input/output |
1035 |
im1 = i-1 |
im1 = i-1 |
1036 |
ip1 = i+1 |
ip1 = i+1 |
1037 |
tempVar = |
tempVar = |
1038 |
& p25 * pMask(i ,j ,k,bi,bj) + |
& p25 * maskC(i ,j ,k,bi,bj) + |
1039 |
& p125 * ( pMask(im1,j ,k,bi,bj) + |
& p125 * ( maskC(im1,j ,k,bi,bj) + |
1040 |
& pMask(ip1,j ,k,bi,bj) + |
& maskC(ip1,j ,k,bi,bj) + |
1041 |
& pMask(i ,jm1,k,bi,bj) + |
& maskC(i ,jm1,k,bi,bj) + |
1042 |
& pMask(i ,jp1,k,bi,bj) ) + |
& maskC(i ,jp1,k,bi,bj) ) + |
1043 |
& p0625 * ( pMask(im1,jm1,k,bi,bj) + |
& p0625 * ( maskC(im1,jm1,k,bi,bj) + |
1044 |
& pMask(im1,jp1,k,bi,bj) + |
& maskC(im1,jp1,k,bi,bj) + |
1045 |
& pMask(ip1,jm1,k,bi,bj) + |
& maskC(ip1,jm1,k,bi,bj) + |
1046 |
& pMask(ip1,jp1,k,bi,bj) ) |
& maskC(ip1,jp1,k,bi,bj) ) |
1047 |
IF ( tempVar .GE. p25 ) THEN |
IF ( tempVar .GE. p25 ) THEN |
1048 |
fld_tmp(i,j) = ( |
fld_tmp(i,j) = ( |
1049 |
& p25 * fld(i ,j )*pMask(i ,j ,k,bi,bj) + |
& p25 * fld(i ,j )*maskC(i ,j ,k,bi,bj) + |
1050 |
& p125 *(fld(im1,j )*pMask(im1,j ,k,bi,bj) + |
& p125 *(fld(im1,j )*maskC(im1,j ,k,bi,bj) + |
1051 |
& fld(ip1,j )*pMask(ip1,j ,k,bi,bj) + |
& fld(ip1,j )*maskC(ip1,j ,k,bi,bj) + |
1052 |
& fld(i ,jm1)*pMask(i ,jm1,k,bi,bj) + |
& fld(i ,jm1)*maskC(i ,jm1,k,bi,bj) + |
1053 |
& fld(i ,jp1)*pMask(i ,jp1,k,bi,bj))+ |
& fld(i ,jp1)*maskC(i ,jp1,k,bi,bj))+ |
1054 |
& p0625*(fld(im1,jm1)*pMask(im1,jm1,k,bi,bj) + |
& p0625*(fld(im1,jm1)*maskC(im1,jm1,k,bi,bj) + |
1055 |
& fld(im1,jp1)*pMask(im1,jp1,k,bi,bj) + |
& fld(im1,jp1)*maskC(im1,jp1,k,bi,bj) + |
1056 |
& fld(ip1,jm1)*pMask(ip1,jm1,k,bi,bj) + |
& fld(ip1,jm1)*maskC(ip1,jm1,k,bi,bj) + |
1057 |
& fld(ip1,jp1)*pMask(ip1,jp1,k,bi,bj))) |
& fld(ip1,jp1)*maskC(ip1,jp1,k,bi,bj))) |
1058 |
& / tempVar |
& / tempVar |
1059 |
ELSE |
ELSE |
1060 |
fld_tmp(i,j) = fld(i,j) |
fld_tmp(i,j) = fld(i,j) |
1079 |
subroutine blmix ( |
subroutine blmix ( |
1080 |
I ustar, bfsfc, hbl, stable, casea, diffus, kbl |
I ustar, bfsfc, hbl, stable, casea, diffus, kbl |
1081 |
O , dkm1, blmc, ghat, sigma, ikppkey |
O , dkm1, blmc, ghat, sigma, ikppkey |
1082 |
& ) |
I , myThid ) |
1083 |
|
|
1084 |
c mixing coefficients within boundary layer depend on surface |
c mixing coefficients within boundary layer depend on surface |
1085 |
c forcing and the magnitude and gradient of interior mixing below |
c forcing and the magnitude and gradient of interior mixing below |
1101 |
c stable(imt) = 1 in stable forcing |
c stable(imt) = 1 in stable forcing |
1102 |
c casea (imt) = 1 in case A |
c casea (imt) = 1 in case A |
1103 |
c diffus(imt,0:Nrp1,mdiff) vertical diffusivities (m^2/s) |
c diffus(imt,0:Nrp1,mdiff) vertical diffusivities (m^2/s) |
1104 |
c kbl(imt) -1 of first grid level below hbl |
c kbl (imt) -1 of first grid level below hbl |
1105 |
_KPP_RL ustar (imt) |
c myThid thread number for this instance of the routine |
1106 |
_KPP_RL bfsfc (imt) |
integer myThid |
1107 |
_KPP_RL hbl (imt) |
_RL ustar (imt) |
1108 |
_KPP_RL stable(imt) |
_RL bfsfc (imt) |
1109 |
_KPP_RL casea (imt) |
_RL hbl (imt) |
1110 |
_KPP_RL diffus(imt,0:Nrp1,mdiff) |
_RL stable(imt) |
1111 |
|
_RL casea (imt) |
1112 |
|
_RL diffus(imt,0:Nrp1,mdiff) |
1113 |
integer kbl(imt) |
integer kbl(imt) |
1114 |
|
|
1115 |
c output |
c output |
1117 |
c blmc (imt,Nr,mdiff) boundary layer mixing coefficients (m^2/s) |
c blmc (imt,Nr,mdiff) boundary layer mixing coefficients (m^2/s) |
1118 |
c ghat (imt,Nr) nonlocal scalar transport |
c ghat (imt,Nr) nonlocal scalar transport |
1119 |
c sigma(imt) normalized depth (d / hbl) |
c sigma(imt) normalized depth (d / hbl) |
1120 |
_KPP_RL dkm1 (imt,mdiff) |
_RL dkm1 (imt,mdiff) |
1121 |
_KPP_RL blmc (imt,Nr,mdiff) |
_RL blmc (imt,Nr,mdiff) |
1122 |
_KPP_RL ghat (imt,Nr) |
_RL ghat (imt,Nr) |
1123 |
_KPP_RL sigma(imt) |
_RL sigma(imt) |
1124 |
integer ikppkey |
integer ikppkey, kkppkey |
1125 |
|
|
1126 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
1127 |
|
|
1129 |
c gat1*(imt) shape function at sigma = 1 |
c gat1*(imt) shape function at sigma = 1 |
1130 |
c dat1*(imt) derivative of shape function at sigma = 1 |
c dat1*(imt) derivative of shape function at sigma = 1 |
1131 |
c ws(imt), wm(imt) turbulent velocity scales (m/s) |
c ws(imt), wm(imt) turbulent velocity scales (m/s) |
1132 |
_KPP_RL gat1m(imt), gat1s(imt), gat1t(imt) |
_RL gat1m(imt), gat1s(imt), gat1t(imt) |
1133 |
_KPP_RL dat1m(imt), dat1s(imt), dat1t(imt) |
_RL dat1m(imt), dat1s(imt), dat1t(imt) |
1134 |
_KPP_RL ws(imt), wm(imt) |
_RL ws(imt), wm(imt) |
1135 |
integer i, kn, ki |
integer i, kn, ki |
1136 |
_KPP_RL R, dvdzup, dvdzdn, viscp |
_RL R, dvdzup, dvdzdn, viscp |
1137 |
_KPP_RL difsp, diftp, visch, difsh, difth |
_RL difsp, diftp, visch, difsh, difth |
1138 |
_KPP_RL f1, sig, a1, a2, a3, delhat |
_RL f1, sig, a1, a2, a3, delhat |
1139 |
_KPP_RL Gm, Gs, Gt |
_RL Gm, Gs, Gt |
1140 |
_KPP_RL tempVar |
_RL tempVar |
1141 |
|
|
1142 |
_KPP_RL p0 , eins |
_RL p0 , eins |
1143 |
parameter (p0=0.0, eins=1.0) |
parameter (p0=0.0, eins=1.0) |
1144 |
|
|
1145 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
1150 |
sigma(i) = stable(i) * 1.0 + (1. - stable(i)) * epsilon |
sigma(i) = stable(i) * 1.0 + (1. - stable(i)) * epsilon |
1151 |
end do |
end do |
1152 |
|
|
1153 |
|
CADJ STORE sigma = comlev1_kpp, key = ikppkey |
1154 |
call wscale ( |
call wscale ( |
1155 |
I sigma, hbl, ustar, bfsfc, |
I sigma, hbl, ustar, bfsfc, |
1156 |
O wm, ws ) |
O wm, ws, myThid ) |
1157 |
|
CADJ STORE wm = comlev1_kpp, key = ikppkey |
1158 |
|
CADJ STORE ws = comlev1_kpp, key = ikppkey |
1159 |
|
|
1160 |
do i = 1, imt |
do i = 1, imt |
1161 |
wm(i) = sign(eins,wm(i))*max(phepsi,abs(wm(i))) |
wm(i) = sign(eins,wm(i))*max(phepsi,abs(wm(i))) |
1198 |
& max(ustar(i)**4,phepsi) |
& max(ustar(i)**4,phepsi) |
1199 |
gat1m(i) = visch / hbl(i) / wm(i) |
gat1m(i) = visch / hbl(i) / wm(i) |
1200 |
dat1m(i) = -viscp / wm(i) + f1 * visch |
dat1m(i) = -viscp / wm(i) + f1 * visch |
|
dat1m(i) = min(dat1m(i),p0) |
|
1201 |
|
|
1202 |
gat1s(i) = difsh / hbl(i) / ws(i) |
gat1s(i) = difsh / hbl(i) / ws(i) |
1203 |
dat1s(i) = -difsp / ws(i) + f1 * difsh |
dat1s(i) = -difsp / ws(i) + f1 * difsh |
|
dat1s(i) = min(dat1s(i),p0) |
|
1204 |
|
|
1205 |
gat1t(i) = difth / hbl(i) / ws(i) |
gat1t(i) = difth / hbl(i) / ws(i) |
1206 |
dat1t(i) = -diftp / ws(i) + f1 * difth |
dat1t(i) = -diftp / ws(i) + f1 * difth |
|
dat1t(i) = min(dat1t(i),p0) |
|
1207 |
|
|
1208 |
end do |
end do |
1209 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1210 |
|
CADJ STORE gat1m = comlev1_kpp, key = ikppkey |
1211 |
|
CADJ STORE gat1s = comlev1_kpp, key = ikppkey |
1212 |
|
CADJ STORE gat1t = comlev1_kpp, key = ikppkey |
1213 |
|
CADJ STORE dat1m = comlev1_kpp, key = ikppkey |
1214 |
|
CADJ STORE dat1s = comlev1_kpp, key = ikppkey |
1215 |
|
CADJ STORE dat1t = comlev1_kpp, key = ikppkey |
1216 |
|
#endif |
1217 |
|
do i = 1, imt |
1218 |
|
dat1m(i) = min(dat1m(i),p0) |
1219 |
|
dat1s(i) = min(dat1s(i),p0) |
1220 |
|
dat1t(i) = min(dat1t(i),p0) |
1221 |
|
end do |
1222 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1223 |
|
CADJ STORE dat1m = comlev1_kpp, key = ikppkey |
1224 |
|
CADJ STORE dat1s = comlev1_kpp, key = ikppkey |
1225 |
|
CADJ STORE dat1t = comlev1_kpp, key = ikppkey |
1226 |
|
#endif |
1227 |
|
|
1228 |
do ki = 1, Nr |
do ki = 1, Nr |
1229 |
|
|
1230 |
|
#ifdef ALLOW_AUTODIFF_TAMC |
1231 |
|
kkppkey = (ikppkey-1)*Nr + ki |
1232 |
|
#endif |
1233 |
|
|
1234 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
1235 |
c compute turbulent velocity scales on the interfaces |
c compute turbulent velocity scales on the interfaces |
1236 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
1239 |
sig = (-zgrid(ki) + 0.5 * hwide(ki)) / hbl(i) |
sig = (-zgrid(ki) + 0.5 * hwide(ki)) / hbl(i) |
1240 |
sigma(i) = stable(i)*sig + (1.-stable(i))*min(sig,epsilon) |
sigma(i) = stable(i)*sig + (1.-stable(i))*min(sig,epsilon) |
1241 |
end do |
end do |
1242 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1243 |
|
CADJ STORE wm = comlev1_kpp_k, key = kkppkey |
1244 |
|
CADJ STORE ws = comlev1_kpp_k, key = kkppkey |
1245 |
|
#endif |
1246 |
|
CADJ STORE sigma = comlev1_kpp_k, key = kkppkey |
1247 |
call wscale ( |
call wscale ( |
1248 |
I sigma, hbl, ustar, bfsfc, |
I sigma, hbl, ustar, bfsfc, |
1249 |
O wm, ws ) |
O wm, ws, myThid ) |
1250 |
|
CADJ STORE wm = comlev1_kpp_k, key = kkppkey |
1251 |
|
CADJ STORE ws = comlev1_kpp_k, key = kkppkey |
1252 |
|
|
1253 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
1254 |
c compute the dimensionless shape functions at the interfaces |
c compute the dimensionless shape functions at the interfaces |
1292 |
& + (1. - stable(i)) * min(sig,epsilon) |
& + (1. - stable(i)) * min(sig,epsilon) |
1293 |
end do |
end do |
1294 |
|
|
1295 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1296 |
|
CADJ STORE wm = comlev1_kpp, key = ikppkey |
1297 |
|
CADJ STORE ws = comlev1_kpp, key = ikppkey |
1298 |
|
#endif |
1299 |
|
CADJ STORE sigma = comlev1_kpp, key = ikppkey |
1300 |
call wscale ( |
call wscale ( |
1301 |
I sigma, hbl, ustar, bfsfc, |
I sigma, hbl, ustar, bfsfc, |
1302 |
O wm, ws ) |
O wm, ws, myThid ) |
1303 |
|
CADJ STORE wm = comlev1_kpp, key = ikppkey |
1304 |
|
CADJ STORE ws = comlev1_kpp, key = ikppkey |
1305 |
|
|
1306 |
do i = 1, imt |
do i = 1, imt |
1307 |
sig = -zgrid(kbl(i)-1) / hbl(i) |
sig = -zgrid(kbl(i)-1) / hbl(i) |
1327 |
I dkm1, hbl, kbl, diffus, casea |
I dkm1, hbl, kbl, diffus, casea |
1328 |
U , ghat |
U , ghat |
1329 |
O , blmc |
O , blmc |
1330 |
& ) |
& , myThid ) |
1331 |
|
|
1332 |
c enhance the diffusivity at the kbl-.5 interface |
c enhance the diffusivity at the kbl-.5 interface |
1333 |
|
|
1342 |
c kbl(imt) grid above hbl |
c kbl(imt) grid above hbl |
1343 |
c diffus(imt,0:Nrp1,mdiff) vertical diffusivities (m^2/s) |
c diffus(imt,0:Nrp1,mdiff) vertical diffusivities (m^2/s) |
1344 |
c casea(imt) = 1 in caseA, = 0 in case B |
c casea(imt) = 1 in caseA, = 0 in case B |
1345 |
_KPP_RL dkm1 (imt,mdiff) |
c myThid thread number for this instance of the routine |
1346 |
_KPP_RL hbl (imt) |
integer myThid |
1347 |
|
_RL dkm1 (imt,mdiff) |
1348 |
|
_RL hbl (imt) |
1349 |
integer kbl (imt) |
integer kbl (imt) |
1350 |
_KPP_RL diffus(imt,0:Nrp1,mdiff) |
_RL diffus(imt,0:Nrp1,mdiff) |
1351 |
_KPP_RL casea (imt) |
_RL casea (imt) |
1352 |
|
|
1353 |
c input/output |
c input/output |
1354 |
c nonlocal transport, modified ghat at kbl(i)-1 interface (s/m**2) |
c nonlocal transport, modified ghat at kbl(i)-1 interface (s/m**2) |
1355 |
_KPP_RL ghat (imt,Nr) |
_RL ghat (imt,Nr) |
1356 |
|
|
1357 |
c output |
c output |
1358 |
c enhanced bound. layer mixing coeff. |
c enhanced bound. layer mixing coeff. |
1359 |
_KPP_RL blmc (imt,Nr,mdiff) |
_RL blmc (imt,Nr,mdiff) |
1360 |
|
|
1361 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
1362 |
|
|
1363 |
c local |
c local |
1364 |
c fraction hbl lies beteen zgrid neighbors |
c fraction hbl lies beteen zgrid neighbors |
1365 |
_KPP_RL delta |
_RL delta |
1366 |
integer ki, i, md |
integer ki, i, md |
1367 |
_KPP_RL dkmp5, dstar |
_RL dkmp5, dstar |
1368 |
|
|
1369 |
do i = 1, imt |
do i = 1, imt |
1370 |
ki = kbl(i)-1 |
ki = kbl(i)-1 |
1390 |
c************************************************************************* |
c************************************************************************* |
1391 |
|
|
1392 |
SUBROUTINE STATEKPP ( |
SUBROUTINE STATEKPP ( |
1393 |
I bi, bj, myThid, |
O RHO1, DBLOC, DBSFC, TTALPHA, SSBETA, |
1394 |
O RHO1, DBLOC, DBSFC, TTALPHA, SSBETA) |
I ikppkey, bi, bj, myThid ) |
1395 |
c |
c |
1396 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
1397 |
c "statekpp" computes all necessary input arrays |
c "statekpp" computes all necessary input arrays |
1416 |
c written by: jan morzel, feb. 10, 1995 (converted from "sigma" version) |
c written by: jan morzel, feb. 10, 1995 (converted from "sigma" version) |
1417 |
c modified by: d. menemenlis, june 1998 : for use with MIT GCM UV |
c modified by: d. menemenlis, june 1998 : for use with MIT GCM UV |
1418 |
c |
c |
1419 |
|
c 28 april 05: added computation of mixed layer depth KPPmld |
1420 |
|
c for a deltaRho equivalent to a deltaTheta of 0.8 deg C |
1421 |
|
|
1422 |
c----------------------------------------------------------------------- |
c----------------------------------------------------------------------- |
1423 |
|
|
1424 |
IMPLICIT NONE |
IMPLICIT NONE |
1428 |
#include "PARAMS.h" |
#include "PARAMS.h" |
1429 |
#include "KPP_PARAMS.h" |
#include "KPP_PARAMS.h" |
1430 |
#include "DYNVARS.h" |
#include "DYNVARS.h" |
1431 |
|
#include "GRID.h" |
1432 |
|
|
1433 |
c-------------- Routine arguments ----------------------------------------- |
c-------------- Routine arguments ----------------------------------------- |
1434 |
INTEGER bi, bj, myThid |
INTEGER bi, bj, myThid |
1435 |
_KPP_RL RHO1 ( ibot:itop, jbot:jtop ) |
_RL RHO1 ( 1-OLx:sNx+OLx, 1-OLy:sNy+OLy ) |
1436 |
_KPP_RL DBLOC ( ibot:itop, jbot:jtop, Nr ) |
_RL DBLOC ( 1-OLx:sNx+OLx, 1-OLy:sNy+OLy, Nr ) |
1437 |
_KPP_RL DBSFC ( ibot:itop, jbot:jtop, Nr ) |
_RL DBSFC ( 1-OLx:sNx+OLx, 1-OLy:sNy+OLy, Nr ) |
1438 |
_KPP_RL TTALPHA( ibot:itop, jbot:jtop, Nrp1 ) |
_RL TTALPHA( 1-OLx:sNx+OLx, 1-OLy:sNy+OLy, Nrp1 ) |
1439 |
_KPP_RL SSBETA ( ibot:itop, jbot:jtop, Nrp1 ) |
_RL SSBETA ( 1-OLx:sNx+OLx, 1-OLy:sNy+OLy, Nrp1 ) |
1440 |
|
|
1441 |
#ifdef ALLOW_KPP |
#ifdef ALLOW_KPP |
1442 |
|
|
1447 |
c rhok - density of t(k ) & s(k ) at depth k |
c rhok - density of t(k ) & s(k ) at depth k |
1448 |
c rhokm1 - density of t(k-1) & s(k-1) at depth k |
c rhokm1 - density of t(k-1) & s(k-1) at depth k |
1449 |
c rho1k - density of t(1 ) & s(1 ) at depth k |
c rho1k - density of t(1 ) & s(1 ) at depth k |
1450 |
c work1, work2 - work arrays for holding horizontal slabs |
c work1,2,3 - work arrays for holding horizontal slabs |
1451 |
|
|
1452 |
_RL RHOK (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL RHOK (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
1453 |
_RL RHOKM1(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL RHOKM1(1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
1455 |
_RL WORK1 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL WORK1 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
1456 |
_RL WORK2 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL WORK2 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
1457 |
_RL WORK3 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
_RL WORK3 (1-OLx:sNx+OLx,1-OLy:sNy+OLy) |
1458 |
|
#ifdef ALLOW_DIAGNOSTICS |
1459 |
|
c KPPMLD - mixed layer depth based on density criterion |
1460 |
|
_RL KPPMLD(1 :sNx ,1 :sNy ) |
1461 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
1462 |
|
|
1463 |
INTEGER I, J, K |
INTEGER I, J, K |
1464 |
|
INTEGER ikppkey, kkppkey |
1465 |
|
|
1466 |
c calculate density, alpha, beta in surface layer, and set dbsfc to zero |
c calculate density, alpha, beta in surface layer, and set dbsfc to zero |
1467 |
|
|
1468 |
|
kkppkey = (ikppkey-1)*Nr + 1 |
1469 |
|
|
1470 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1471 |
|
CADJ STORE theta(:,:,1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1472 |
|
CADJ STORE salt (:,:,1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1473 |
|
#endif /* KPP_AUTODIFF_EXCESSIVE_STORE */ |
1474 |
call FIND_RHO( |
call FIND_RHO( |
1475 |
I bi, bj, ibot, itop, jbot, jtop, 1, 1, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, 1, 1, |
1476 |
I theta, salt, |
I theta, salt, |
1477 |
O WORK1, |
O WORK1, |
1478 |
I myThid ) |
I myThid ) |
1479 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1480 |
|
CADJ STORE theta(:,:,1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1481 |
|
CADJ STORE salt (:,:,1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1482 |
|
#endif /* KPP_AUTODIFF_EXCESSIVE_STORE */ |
1483 |
|
|
1484 |
call FIND_ALPHA( |
call FIND_ALPHA( |
1485 |
I bi, bj, ibot, itop, jbot, jtop, 1, 1, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, 1, 1, |
1486 |
O WORK2 ) |
O WORK2, myThid ) |
1487 |
|
|
1488 |
call FIND_BETA( |
call FIND_BETA( |
1489 |
I bi, bj, ibot, itop, jbot, jtop, 1, 1, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, 1, 1, |
1490 |
O WORK3 ) |
O WORK3, myThid ) |
1491 |
|
|
1492 |
DO J = jbot, jtop |
DO J = 1-OLy, sNy+OLy |
1493 |
DO I = ibot, itop |
DO I = 1-OLx, sNx+OLx |
1494 |
RHO1(I,J) = WORK1(I,J) + rhoConst |
RHO1(I,J) = WORK1(I,J) + rhoConst |
1495 |
TTALPHA(I,J,1) = WORK2(I,J) |
TTALPHA(I,J,1) = WORK2(I,J) |
1496 |
SSBETA(I,J,1) = WORK3(I,J) |
SSBETA(I,J,1) = WORK3(I,J) |
1498 |
END DO |
END DO |
1499 |
END DO |
END DO |
1500 |
|
|
1501 |
|
#ifdef ALLOW_DIAGNOSTICS |
1502 |
|
c work3 - density of t(1)-.8 & s(1 ) at depth 1 |
1503 |
|
IF ( useDiagnostics ) THEN |
1504 |
|
DO J = 1, sNy |
1505 |
|
DO I = 1, sNx |
1506 |
|
KPPMLD(I,J) = ABS(R_low(I,J,bi,bj)) |
1507 |
|
WORK3 (I,J) = WORK1(I,J) - 0.8 * WORK2(I,J) |
1508 |
|
END DO |
1509 |
|
END DO |
1510 |
|
ENDIF |
1511 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
1512 |
|
|
1513 |
c calculate alpha, beta, and gradients in interior layers |
c calculate alpha, beta, and gradients in interior layers |
1514 |
|
|
1515 |
CHPF$ INDEPENDENT, NEW (RHOK,RHOKM1,RHO1K,WORK1,WORK2) |
CHPF$ INDEPENDENT, NEW (RHOK,RHOKM1,RHO1K,WORK1,WORK2) |
1516 |
DO K = 2, Nr |
DO K = 2, Nr |
1517 |
|
|
1518 |
|
kkppkey = (ikppkey-1)*Nr + k |
1519 |
|
|
1520 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1521 |
|
CADJ STORE theta(:,:,k,bi,bj) = comlev1_kpp_k, key=kkppkey |
1522 |
|
CADJ STORE salt (:,:,k,bi,bj) = comlev1_kpp_k, key=kkppkey |
1523 |
|
#endif /* KPP_AUTODIFF_EXCESSIVE_STORE */ |
1524 |
call FIND_RHO( |
call FIND_RHO( |
1525 |
I bi, bj, ibot, itop, jbot, jtop, K, K, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, K, K, |
1526 |
I theta, salt, |
I theta, salt, |
1527 |
O RHOK, |
O RHOK, |
1528 |
I myThid ) |
I myThid ) |
1529 |
|
|
1530 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1531 |
|
CADJ STORE theta(:,:,k-1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1532 |
|
CADJ STORE salt (:,:,k-1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1533 |
|
#endif /* KPP_AUTODIFF_EXCESSIVE_STORE */ |
1534 |
call FIND_RHO( |
call FIND_RHO( |
1535 |
I bi, bj, ibot, itop, jbot, jtop, K-1, K, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, K-1, K, |
1536 |
I theta, salt, |
I theta, salt, |
1537 |
O RHOKM1, |
O RHOKM1, |
1538 |
I myThid ) |
I myThid ) |
1539 |
|
|
1540 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1541 |
|
CADJ STORE theta(:,:,1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1542 |
|
CADJ STORE salt (:,:,1,bi,bj) = comlev1_kpp_k, key=kkppkey |
1543 |
|
#endif /* KPP_AUTODIFF_EXCESSIVE_STORE */ |
1544 |
call FIND_RHO( |
call FIND_RHO( |
1545 |
I bi, bj, ibot, itop, jbot, jtop, 1, K, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, 1, K, |
1546 |
I theta, salt, |
I theta, salt, |
1547 |
O RHO1K, |
O RHO1K, |
1548 |
I myThid ) |
I myThid ) |
1549 |
|
|
1550 |
|
#ifdef KPP_AUTODIFF_EXCESSIVE_STORE |
1551 |
|
CADJ STORE rhok (:,:) = comlev1_kpp_k, key=kkppkey |
1552 |
|
CADJ STORE rhokm1(:,:) = comlev1_kpp_k, key=kkppkey |
1553 |
|
CADJ STORE rho1k (:,:) = comlev1_kpp_k, key=kkppkey |
1554 |
|
#endif /* KPP_AUTODIFF_EXCESSIVE_STORE */ |
1555 |
|
|
1556 |
call FIND_ALPHA( |
call FIND_ALPHA( |
1557 |
I bi, bj, ibot, itop, jbot, jtop, K, K, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, K, K, |
1558 |
O WORK1 ) |
O WORK1, myThid ) |
1559 |
|
|
1560 |
call FIND_BETA( |
call FIND_BETA( |
1561 |
I bi, bj, ibot, itop, jbot, jtop, K, K, |
I bi, bj, 1-OLx, sNx+OLx, 1-OLy, sNy+OLy, K, K, |
1562 |
O WORK2 ) |
O WORK2, myThid ) |
1563 |
|
|
1564 |
DO J = jbot, jtop |
DO J = 1-OLy, sNy+OLy |
1565 |
DO I = ibot, itop |
DO I = 1-OLx, sNx+OLx |
1566 |
TTALPHA(I,J,K) = WORK1 (I,J) |
TTALPHA(I,J,K) = WORK1 (I,J) |
1567 |
SSBETA(I,J,K) = WORK2 (I,J) |
SSBETA(I,J,K) = WORK2 (I,J) |
1568 |
DBLOC(I,J,K-1) = gravity * (RHOK(I,J) - RHOKM1(I,J)) / |
DBLOC(I,J,K-1) = gravity * (RHOK(I,J) - RHOKM1(I,J)) / |
1572 |
END DO |
END DO |
1573 |
END DO |
END DO |
1574 |
|
|
1575 |
|
#ifdef ALLOW_DIAGNOSTICS |
1576 |
|
IF ( useDiagnostics ) THEN |
1577 |
|
c work1 - density of t(k-1) & s(k-1) at depth 1 |
1578 |
|
c work2 - density of t(k ) & s(k ) at depth 1 |
1579 |
|
c work3 - density of t(1)-.8 & s(1 ) at depth 1 |
1580 |
|
call FIND_RHO( |
1581 |
|
I bi, bj, 1, sNx, 1, sNy, K-1, 1, theta, salt, |
1582 |
|
O WORK1, |
1583 |
|
I myThid ) |
1584 |
|
call FIND_RHO( |
1585 |
|
I bi, bj, 1, sNx, 1, sNy, K , 1, theta, salt, |
1586 |
|
O WORK2, |
1587 |
|
I myThid ) |
1588 |
|
DO J = 1, sNy |
1589 |
|
DO I = 1, sNx |
1590 |
|
IF ( k .LE. klowC(I,J,bi,bj) .AND. |
1591 |
|
& WORK1(I,J) .LT. WORK3(I,J) .AND. |
1592 |
|
& WORK2(I,J) .GE. WORK3(I,J) ) THEN |
1593 |
|
KPPMLD(I,J) = MIN ( KPPMLD(I,J), |
1594 |
|
& ABS(((WORK3(I,J)-WORK1(I,J))*rC(k)+ |
1595 |
|
& (WORK2(I,J)-WORK3(I,J))*rC(k-1))/ |
1596 |
|
& (WORK2(I,J)-WORK1(I,J)))) |
1597 |
|
ENDIF |
1598 |
|
END DO |
1599 |
|
END DO |
1600 |
|
ENDIF |
1601 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
1602 |
|
|
1603 |
END DO |
END DO |
1604 |
|
|
1605 |
c compute arrays for K = Nrp1 |
c compute arrays for K = Nrp1 |
1606 |
DO J = jbot, jtop |
DO J = 1-OLy, sNy+OLy |
1607 |
DO I = ibot, itop |
DO I = 1-OLx, sNx+OLx |
1608 |
TTALPHA(I,J,Nrp1) = TTALPHA(I,J,Nr) |
TTALPHA(I,J,Nrp1) = TTALPHA(I,J,Nr) |
1609 |
SSBETA(I,J,Nrp1) = SSBETA(I,J,Nr) |
SSBETA(I,J,Nrp1) = SSBETA(I,J,Nr) |
1610 |
DBLOC(I,J,Nr) = 0. |
DBLOC(I,J,Nr) = 0. |
1611 |
END DO |
END DO |
1612 |
END DO |
END DO |
1613 |
|
|
1614 |
|
#ifdef ALLOW_DIAGNOSTICS |
1615 |
|
IF ( useDiagnostics ) THEN |
1616 |
|
CALL DIAGNOSTICS_FILL(KPPmld,'KPPmld ',0,1,3,bi,bj,myThid) |
1617 |
|
ENDIF |
1618 |
|
#endif /* ALLOW_DIAGNOSTICS */ |
1619 |
|
|
1620 |
#endif /* ALLOW_KPP */ |
#endif /* ALLOW_KPP */ |
1621 |
|
|
1622 |
RETURN |
RETURN |