1 |
C $Id: set_defaults.F,v 1.4 1998/06/15 05:13:54 cnh Exp $ |
2 |
#include "CPP_OPTIONS.h" |
3 |
#include "CPP_MACROS.h" |
4 |
C================================================================================ |
5 |
C Procedure name: SET_DEFAULTS | |
6 |
C Function: Assign default values to model parameters. | |
7 |
C Comments: | |
8 |
C================================================================================ |
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|
10 |
CStartofinterface |
11 |
SUBROUTINE SET_DEFAULTS ( |
12 |
O U, V, W, T, S, PH, PS ) |
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IMPLICIT NONE |
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C /-------------------------------------------------------------------------\ |
15 |
C | Global variable declarations | |
16 |
C \-------------------------------------------------------------------------/ |
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#include "SIZE.h" |
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#include "PARAMS.h" |
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#include "STRINGS.h" |
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#include "OPERATORS.h" |
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#include "GRID.h" |
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#include "OLDG.h" |
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#include "MASKS.h" |
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#include "CG2DA.h" |
25 |
#include "CG2DZ.h" |
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#include "AJAINF.h" |
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#include "EPARAM.h" |
28 |
#include "FORCING.h" |
29 |
C /-------------------------------------------------------------------------\ |
30 |
C | Routine argument declarations | |
31 |
C |=========================================================================| |
32 |
C | U, V, W - X,Y,Z Velocity ( m/s, m/s, Pa/s ). | |
33 |
C | T - Potential temperature (oC). | |
34 |
C | S - Salinity (ppt). | |
35 |
C | PH - Hydrostatic pressure perturbation (m). | |
36 |
C | PS - Surface pressure (m). | |
37 |
C \-------------------------------------------------------------------------/ |
38 |
REAL U (_I3(nz,nx,ny)) |
39 |
REAL V (_I3(nz,nx,ny)) |
40 |
REAL W (_I3(nz,nx,ny)) |
41 |
REAL T (_I3(nz,nx,ny)) |
42 |
REAL S (_I3(nz,nx,ny)) |
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REAL PH(_I3(nz,nx,ny)) |
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REAL PS(nx, ny ) |
45 |
|
46 |
CEndofinteface |
47 |
|
48 |
C /-------------------------------------------------------------------------\ |
49 |
C | Local variable declarations | |
50 |
C |=========================================================================| |
51 |
C | DELTAZ - Layer thickness (m). | |
52 |
C | torry - Reference wind stress (N). | |
53 |
C | y - Distance accumulator (m). | |
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C | ySize - Basin extent in y (m). | |
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C | pBeta - Planetary beta (s^-1.m^-1). | |
56 |
C | I,J,K - Loop counters. | |
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C \-------------------------------------------------------------------------/ |
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REAL DELTAZ(nz) |
59 |
REAL torry |
60 |
REAL y |
61 |
REAL ySize |
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REAL pBeta |
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REAL Q |
64 |
REAL DELTAF |
65 |
REAL Fref |
66 |
REAL fWall |
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REAL Beta |
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REAL r |
69 |
REAL Kz |
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REAL Dep |
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REAL Rho0 |
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REAL dist |
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REAL RMAX |
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REAL RSQ |
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REAL tau |
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REAL XCENTER |
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REAL YCENTER |
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REAL mx |
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REAL mn |
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REAL HEATFLAG |
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REAL HEATSUM |
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REAL RANDN |
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INTEGER I |
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INTEGER J |
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INTEGER K |
86 |
|
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REAL TAUMAX, DISTY, LY |
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Real*4 tmpXY(Nx,Ny) |
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Real*4 tmpXYZ( _I3(Nz,Nx,Ny) ) |
90 |
C |
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C /-------------------------------------------------------------------------\ |
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C | Parameter settings for small double gyre beta-plane experiment. | |
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C \=========================================================================| |
94 |
C |
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G = 9.81D0 |
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RONIL = 999.8D0 |
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CP = 3900.D0 |
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CENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNORE |
99 |
|
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delT = 2400.D0 |
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freeSurfFac = 1.D0 |
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startTime = 0. |
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endTime = startTime+10.*delT |
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dPUFreq = 300.*delT |
105 |
|
106 |
|
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CSTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORE |
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phiMin = -80. |
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dPhi = 4.0 |
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dTheta = 4.0 |
111 |
CENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNORE |
112 |
|
113 |
|
114 |
a2MomXY = 5.0D5 |
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a2MomZ = 1.D-3*G*RONIL*G*RONIL |
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C a2MomXY = 0.0D5 |
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C a2MomZ = 0.D-3*G*RONIL*G*RONIL |
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a4MomXY = 0.D0 |
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a2TempXY = 1.D3 |
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a2TempZ = 3.D-5*G*RONIL*G*RONIL |
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a2SaltXY = 1.D3 |
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a2SaltZ = 3.D-5*G*RONIL*G*RONIL |
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C a2SaltXY = 0.D3 |
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C a2SaltZ = 0.D-5*G*RONIL*G*RONIL |
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C a2TempZ = 1.D-5*G*RONIL*G*RONIL |
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a4TempXy = 0.D0 |
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a4SaltXy = 0.D0 |
128 |
|
129 |
|
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CSTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORESTARTIGNORE |
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WRITE(20,*) ' delT',delT |
132 |
WRITE(20,*) ' startTime',startTime |
133 |
WRITE(20,*) ' endTime',endTime |
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WRITE(20,*) ' dPUFreq',dPUFreq |
135 |
WRITE(20,*) ' a2MomXY',a2MomXY |
136 |
WRITE(20,*) ' a2MomZ',a2MomZ |
137 |
WRITE(20,*) ' a2TempXY',a2TempXY |
138 |
WRITE(20,*) ' a2TempZ',a2TempZ |
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C********* GMGS ******************* |
140 |
C Ratio of time step |
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asyncfac = 30.0 |
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C Scale dependent mixing scheme parameters |
143 |
difref = a2tempXY |
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difmin = 0.1 * a2tempXY |
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difhmx = 2.5 * a2tempXY |
146 |
coef = 1.8E9 |
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dbotm = 1000. |
148 |
C NOTE: MOD( INT(dslpcalcfreq), INT(dkcalcfreq) ) must = 0 |
149 |
dslpcalcfreq = 2. * delT |
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dkcalcfreq = 12. * delT |
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C Threashold for mix layer base |
152 |
MixLayrDensGrad = 0.05 |
153 |
C Slope factors |
154 |
slpmax1=5.e-3 |
155 |
slpmax2=1.e-2 |
156 |
slpmax3=1.e-3 |
157 |
small=1.e-30 |
158 |
dthin=50. |
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C Minimum density stratification |
160 |
MinSigStrat= -1.e-8 |
161 |
c epsl = Av/Ah in Redis scheme |
162 |
epsl = 0. |
163 |
trDifScheme = gmconKh |
164 |
verticalProfKh = .FALSE. |
165 |
|
166 |
divHmax = 1.D+300 |
167 |
divHMin = 0. |
168 |
rDelt = 1./DELT |
169 |
numberOfTimeSteps = NINT((endTime-startTime)/delT) |
170 |
WRITE(20,*) ' numberOfTimeSteps',numberOfTimeSteps |
171 |
currentTime = startTime |
172 |
nIter = NINT(startTime/delt) |
173 |
WRITE(20,*) ' nIter',nIter |
174 |
WRITE(puSuffix,'(I10.10)') nIter |
175 |
PickupRun = .FALSE. |
176 |
IF ( startTime .NE. 0. ) pickupRun = .TRUE. |
177 |
C State variables |
178 |
gsNM1 = 0. |
179 |
gtNM1 = 0. |
180 |
guNM1 = 0. |
181 |
gvNM1 = 0. |
182 |
U = 0. |
183 |
V = 0. |
184 |
W = 0. |
185 |
S = 0. |
186 |
PH = 0. |
187 |
PS = 0. |
188 |
PSNM1 = 0. |
189 |
PHNM1 = 0. |
190 |
uAja = 0. |
191 |
vAja = 0. |
192 |
CENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNORE |
193 |
|
194 |
|
195 |
THS = 0.D0 |
196 |
THS(1) = 20.D0 |
197 |
THS(2) = 10.D0 |
198 |
THS(3) = 8.D0 |
199 |
THS(4) = 6.D0 |
200 |
SSPPT = 10.D0 |
201 |
T(_I3(1,:,:)) = 20.0D0 |
202 |
T(_I3(2,:,:)) = 10.0D0 |
203 |
T(_I3(3,:,:)) = 8.0D0 |
204 |
T(_I3(4,:,:)) = 6.0D0 |
205 |
C T(_I3(1,:,:)) = 1.D-12 |
206 |
C T(_I3(2,:,:)) = 0. |
207 |
C T(_I3(3,:,:)) = 0. |
208 |
C T(_I3(4,:,:)) = 0. |
209 |
C T(_I3(1,:,:)) = 23.0D0 |
210 |
C T(_I3(2,:,:)) = 22.0D0 |
211 |
C T(_I3(3,:,:)) = 21.0D0 |
212 |
C T(_I3(4,:,:)) = 20.0D0 |
213 |
S = 10.0D0 |
214 |
THS( 1) = 16.0D0 |
215 |
THS( 2) = 15.2D0 |
216 |
THS( 3) = 14.5D0 |
217 |
THS( 4) = 13.9D0 |
218 |
THS( 5) = 13.3D0 |
219 |
THS( 6) = 12.4D0 |
220 |
THS( 7) = 11.3D0 |
221 |
THS( 8) = 9.9D0 |
222 |
THS( 9) = 8.4D0 |
223 |
THS(10) = 6.7D0 |
224 |
THS(11) = 5.2D0 |
225 |
THS(12) = 3.8D0 |
226 |
THS(13) = 2.9D0 |
227 |
THS(14) = 2.3D0 |
228 |
THS(15) = 1.8D0 |
229 |
THS(16) = 1.5D0 |
230 |
THS(17) = 1.1D0 |
231 |
THS(18) = 0.8D0 |
232 |
THS(19) = 0.66D0 |
233 |
THS(20) = 0.63D0 |
234 |
T(_I3( 1,:,:)) = THS( 1) |
235 |
T(_I3( 2,:,:)) = THS( 2) |
236 |
T(_I3( 3,:,:)) = THS( 3) |
237 |
T(_I3( 4,:,:)) = THS( 4) |
238 |
T(_I3( 5,:,:)) = THS( 5) |
239 |
T(_I3( 6,:,:)) = THS( 6) |
240 |
T(_I3( 7,:,:)) = THS( 7) |
241 |
T(_I3( 8,:,:)) = THS( 8) |
242 |
T(_I3( 9,:,:)) = THS( 9) |
243 |
T(_I3(10,:,:)) = THS(10) |
244 |
T(_I3(11,:,:)) = THS(11) |
245 |
T(_I3(12,:,:)) = THS(12) |
246 |
T(_I3(13,:,:)) = THS(13) |
247 |
T(_I3(14,:,:)) = THS(14) |
248 |
T(_I3(15,:,:)) = THS(15) |
249 |
T(_I3(16,:,:)) = THS(16) |
250 |
T(_I3(17,:,:)) = THS(17) |
251 |
T(_I3(18,:,:)) = THS(18) |
252 |
T(_I3(19,:,:)) = THS(19) |
253 |
T(_I3(20,:,:)) = THS(20) |
254 |
|
255 |
SSPPT( 1) = 34.65 |
256 |
SSPPT( 2) = 34.75 |
257 |
SSPPT( 3) = 34.82 |
258 |
SSPPT( 4) = 34.87 |
259 |
SSPPT( 5) = 34.90 |
260 |
SSPPT( 6) = 34.90 |
261 |
SSPPT( 7) = 34.86 |
262 |
SSPPT( 8) = 34.78 |
263 |
SSPPT( 9) = 34.69 |
264 |
SSPPT(10) = 34.60 |
265 |
SSPPT(11) = 34.58 |
266 |
SSPPT(12) = 34.62 |
267 |
SSPPT(13) = 34.68 |
268 |
SSPPT(14) = 34.72 |
269 |
SSPPT(15) = 34.73 |
270 |
SSPPT(16) = 34.74 |
271 |
SSPPT(17) = 34.73 |
272 |
SSPPT(18) = 34.73 |
273 |
SSPPT(19) = 34.72 |
274 |
SSPPT(20) = 34.72 |
275 |
S(_I3( 1,:,:)) = SSPPT( 1) |
276 |
S(_I3( 2,:,:)) = SSPPT( 2) |
277 |
S(_I3( 3,:,:)) = SSPPT( 3) |
278 |
S(_I3( 4,:,:)) = SSPPT( 4) |
279 |
S(_I3( 5,:,:)) = SSPPT( 5) |
280 |
S(_I3( 6,:,:)) = SSPPT( 6) |
281 |
S(_I3( 7,:,:)) = SSPPT( 7) |
282 |
S(_I3( 8,:,:)) = SSPPT( 8) |
283 |
S(_I3( 9,:,:)) = SSPPT( 9) |
284 |
S(_I3(10,:,:)) = SSPPT(10) |
285 |
S(_I3(11,:,:)) = SSPPT(11) |
286 |
S(_I3(12,:,:)) = SSPPT(12) |
287 |
S(_I3(13,:,:)) = SSPPT(13) |
288 |
S(_I3(14,:,:)) = SSPPT(14) |
289 |
S(_I3(15,:,:)) = SSPPT(15) |
290 |
S(_I3(16,:,:)) = SSPPT(16) |
291 |
S(_I3(17,:,:)) = SSPPT(17) |
292 |
S(_I3(18,:,:)) = SSPPT(18) |
293 |
S(_I3(19,:,:)) = SSPPT(19) |
294 |
S(_I3(20,:,:)) = SSPPT(20) |
295 |
DELTAZ( 1) = 50.D0 |
296 |
DELTAZ( 2) = 50.D0 |
297 |
DELTAZ( 3) = 55.D0 |
298 |
DELTAZ( 4) = 60.D0 |
299 |
DELTAZ( 5) = 65.D0 |
300 |
DELTAZ( 6) = 70.D0 |
301 |
DELTAZ( 7) = 80.D0 |
302 |
DELTAZ( 8) = 95.D0 |
303 |
DELTAZ( 9) = 120.D0 |
304 |
DELTAZ(10) = 155.D0 |
305 |
DELTAZ(11) = 200.D0 |
306 |
DELTAZ(12) = 260.D0 |
307 |
DELTAZ(13) = 320.D0 |
308 |
DELTAZ(14) = 400.D0 |
309 |
DELTAZ(15) = 480.D0 |
310 |
DELTAZ(16) = 570.D0 |
311 |
DELTAZ(17) = 655.D0 |
312 |
DELTAZ(18) = 725.D0 |
313 |
DELTAZ(19) = 775.D0 |
314 |
DELTAZ(20) = 815.D0 |
315 |
|
316 |
C Geometry |
317 |
DM = 20. D3 |
318 |
DM = 4. |
319 |
WRITE(20,*) ' DM',DM |
320 |
|
321 |
|
322 |
CBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNORE |
323 |
rPvolHat = 0. |
324 |
DO K = 1, nz |
325 |
DELPS(K) = G*RONIL*DELTAZ(K) |
326 |
XA(_I3(K,:,:)) = DELPS(K)*DM |
327 |
YA(_I3(K,:,:)) = DELPS(K)*DM |
328 |
rUVol(_I3(K,:,:)) = 1.D0/DM/DM/DELPS(K) |
329 |
rVVol(_I3(K,:,:)) = 1.D0/DM/DM/DELPS(K) |
330 |
rPVol(_I3(K,:,:)) = 1.D0/DM/DM/DELPS(K) |
331 |
rPvolHat = rPvolHat+DM*DM*DELPS(K) |
332 |
IF ( K .EQ. 1 ) THEN |
333 |
uDdzOp(_I3(K,:,:)) = 1.D0/DELPS(K) |
334 |
vDdzOp(_I3(K,:,:)) = 1.D0/DELPS(K) |
335 |
pDdzOp(_I3(K,:,:)) = 1.D0/DELPS(K) |
336 |
ELSE |
337 |
uDdzOp(_I3(K,:,:)) = 2.D0/(DELPS(K)+DELPS(K-1)) |
338 |
vDdzOp(_I3(K,:,:)) = 2.D0/(DELPS(K)+DELPS(K-1)) |
339 |
pDdzOp(_I3(K,:,:)) = 2.D0/(DELPS(K)+DELPS(K-1)) |
340 |
ENDIF |
341 |
! begin *** Redi Operators |
342 |
rDZatP(K)=1.D0/DELPS(K) |
343 |
if (K.eq.1) then |
344 |
rDZatW(K)=1.D0/(DELPS(K)) |
345 |
else |
346 |
rDZatW(K)=2.D0/(DELPS(K)+DELPS(K-1)) |
347 |
endif |
348 |
! end ***** Redi Operators |
349 |
ENDDO |
350 |
! begin *** Redi Operators |
351 |
rDXatU=1.d0/DM |
352 |
rDYatV=1.d0/DM |
353 |
! end ***** Redi Operators |
354 |
|
355 |
ZA = DM*DM |
356 |
rPVolHat = 1.D0/rPvolHat |
357 |
uDdxOp = 1.D0/DM |
358 |
uDdyOp = 1.D0/DM |
359 |
vDdxOp = uDdxOp |
360 |
vDdyOp = uDdyOp |
361 |
pDdxOp = uDdxOp |
362 |
pDdyOp = uDdyOp |
363 |
C Physical parameters |
364 |
uTphiOp = 0. |
365 |
vTphiOp = 0. |
366 |
fCorW = 0. |
367 |
pBeta = 1.D-11 |
368 |
CENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNOREENDIGNORE |
369 |
|
370 |
|
371 |
C radial BETA code begins - to use comment out 'NOBETA CODE' following |
372 |
XCENTER = (Nx + 1)/2 |
373 |
WRITE(0,*) ' XCENTER: ', XCENTER |
374 |
YCENTER = (Ny + 1)/2 |
375 |
WRITE(0,*) ' YCENTER: ', YCENTER |
376 |
RMAX = 54.0 |
377 |
WRITE(20,*) ' RMAX: ',RMAX |
378 |
WRITE(20,*) ' actual radius (m): ',(RMAX*DM) |
379 |
fRef = 4.0 |
380 |
WRITE(20,*) ' fRef: ',fRef |
381 |
fWall = 4.0 |
382 |
WRITE(20,*) ' fWall: ',fWall |
383 |
Beta = (fWall - fRef)/(RMAX) |
384 |
WRITE(20,*) ' Beta(s-1/gridpoint): ',Beta |
385 |
WRITE(20,*) ' Beta(s-1/m): ',Beta/DM |
386 |
|
387 |
|
388 |
|
389 |
C start NOBETACODE |
390 |
|
391 |
fCorV(_I3(:,:,1)) = 1.D-4 |
392 |
Cd2 |
393 |
C pBeta = 0. |
394 |
Cd2 |
395 |
write(20,*) 'NO RADIAL BETA' |
396 |
|
397 |
fCorU(_I3(:,:,1)) = fCorV(_I3(:,:,1))+0.5*DM*pBeta |
398 |
DO J = 2, ny |
399 |
fCorV(_I3(:,:,J)) = fCorV(_I3(:,:,J-1))+DM*pBeta |
400 |
fCorU(_I3(:,:,J)) = fCorU(_I3(:,:,J-1))+DM*pBeta |
401 |
ENDDO |
402 |
|
403 |
C end NOBETACODE |
404 |
|
405 |
|
406 |
CBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNOREBEGINIGNORE |
407 |
sBeta = 0. |
408 |
sBeta = 7.4E-4 |
409 |
WRITE(20,*) ' sBeta',sBeta |
410 |
tAlpha = 2.D-4 |
411 |
C tAlpha = 0.D-4 |
412 |
WRITE(20,*) ' tAlpha',tAlpha |
413 |
|
414 |
|
415 |
C Numerics parameters |
416 |
abEps = 0.1 |
417 |
rAja = 9.925333200592357E-01 |
418 |
C rAja = 0. |
419 |
dUnit = 10 |
420 |
scrUnit1 = 11 |
421 |
scrUnit2 = 12 |
422 |
scrUnitError = 13 |
423 |
InitialisationError = .FALSE. |
424 |
IntegrationError = .FALSE. |
425 |
|
426 |
C Topography |
427 |
PMASK = WATER |
428 |
C Enclose in a box |
429 |
C Wall at X = Lx |
430 |
PMASK(_I3(:,nx,:)) = LAND ! Land in east most cell |
431 |
C Wall at Y = Ly |
432 |
PMASK(_I3(:,:,ny)) = LAND ! Land in northern most cell |
433 |
bathySource = binaryBathymetry |
434 |
C Island |
435 |
PMASK(_I3(Nz,1,24)) = LAND |
436 |
|
437 |
C |
438 |
|
439 |
MAX2DIT = 1000 |
440 |
TOLER2D = 1.D-13 |
441 |
freqCheckToler2d = 1 |
442 |
|
443 |
C-- Momentum equation forcing terms |
444 |
tauMax = 0.1D0 |
445 |
lY = 0. |
446 |
DO j=1,nY-1 |
447 |
lY = lY + DM |
448 |
ENDDO |
449 |
distY = 0. |
450 |
DO j=1,nY |
451 |
distY = distY+DM*0.5D0 |
452 |
DO i=1,nX |
453 |
fv(i,j) = 0.D0 |
454 |
fu(i,j) = -tauMax*cos(2.D0*PI*distY/lY) |
455 |
C fu(i,j) = -tauMax |
456 |
fu(i,j) = tauMax*sin(PI*distY/lY) |
457 |
fu(i,j) = fu(i,j)/(deltaZ(1)*ronil) |
458 |
ENDDO |
459 |
distY = distY+DM*0.5D0 |
460 |
ENDDO |
461 |
fu(4,4) = fu(4,4)*0.917D0 |
462 |
|
463 |
OPEN ( 11, FILE='windx', STATUS='old' , FORM='unformatted') |
464 |
READ (11) tmpXY |
465 |
C Fu = tmpXY/DELPS(1)*G*0.1*uMask(_I3(1,:,:)) ! Dynes/cm**2 -> m/s**2 |
466 |
Fu = tmpXY/DELPS(1)*G |
467 |
C Fu = 0.1/DELPS(1)*G |
468 |
CLOSE(11) |
469 |
|
470 |
OPEN ( 11, FILE='windy', STATUS='old' , FORM='unformatted') |
471 |
READ (11) tmpXY |
472 |
C Fu = tmpXY/DELPS(1)*G*0.1*uMask(_I3(1,:,:)) ! Dynes/cm**2 -> m/s**2 |
473 |
Fv = tmpXY/DELPS(1)*G |
474 |
CLOSE(11) |
475 |
|
476 |
C |
477 |
CcnhDebugStarts |
478 |
Cdbg WRITE(0,*) ' lY = ', lY |
479 |
Cdbg WRITE(0,*) ' distY = ', distY |
480 |
Cdbg WRITE(0,*) ' tauMax = ', tauMax |
481 |
WRITE(0,*) ' fu ' |
482 |
CALL PLOT_FIELD(fu,Nx,Ny) |
483 |
WRITE(0,*) ' fv ' |
484 |
CALL PLOT_FIELD(fv,Nx,Ny) |
485 |
C STOP |
486 |
CcnhDebugEnds |
487 |
|
488 |
C T and S profiles |
489 |
OPEN ( 11, FILE='LevCli.ptmp.sun.b', STATUS='old' , FORM='unformatted') |
490 |
READ (11) tmpXYZ |
491 |
Heat = tmpXYZ(_I3(1,:,:)) |
492 |
CLOSE(11) |
493 |
C T and S profiles |
494 |
OPEN ( 11, FILE='LevCli.salt.sun.b', STATUS='old' , FORM='unformatted') |
495 |
READ (11) tmpXYZ |
496 |
SSurf = tmpXYZ(_I3(1,:,:)) |
497 |
CLOSE(11) |
498 |
C |
499 |
END |