/[MITgcm]/MITgcm_contrib/jscott/igsm/src/sur4clm.F
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Revision 1.2 - (hide annotations) (download)
Mon Apr 23 21:20:18 2007 UTC (18 years, 3 months ago) by jscott
Branch: MAIN
CVS Tags: HEAD
Changes since 1.1: +28 -19 lines 
bring igsm atmos code up to date
1 jscott 1.1
2     #include "ctrparam.h"
3    
4     ! ==========================================================
5     !
6     ! SURFACE.F: THIS SUBROUTINE CALCULATES THE SURFACE FLUXES
7     ! WHICH INCLUDE SENSIBLE HEAT, EVAPORATION,
8     ! THERMAL RADIATION, AND MOMENTUM DRAG. IT ALSO
9     ! CALCULATES INSTANTANEOUSLY SURFACE TEMPERATURE,
10     ! SURFACE SPECIFIC HUMIDITY, AND SURFACE WIND
11     ! COMPONENTS.
12     !
13     ! ----------------------------------------------------------
14     !
15     ! Author of Chemistry Modules: Chien Wang
16     !
17     ! ----------------------------------------------------------
18     !
19     ! Revision History:
20     !
21     ! When Who What
22     ! ---- ---------- -------
23     ! 073100 Chien Wang repack based on CliChem3 and add cpp
24     ! 092301 Chien Wang add bc and oc
25     !
26     ! ==========================================================
27    
28     SUBROUTINE SUR4CLM
29    
30     C**** 5802.
31     C**** THIS SUBROUTINE CALCULATES THE SURFACE FLUXES WHICH INCLUDE 5803.
32     C**** SENSIBLE HEAT, EVAPORATION, THERMAL RADIATION, AND MOMENTUM 5804.
33     C**** DRAG. IT ALSO CALCULATES INSTANTANEOUSLY SURFACE TEMPERATURE, 5805.
34     C**** SURFACE SPECIFIC HUMIDITY, AND SURFACE WIND COMPONENTS. 5806.
35     C**** 5807.
36    
37     #if ( defined CLM )
38     #if ( defined CPL_CHEM )
39     !
40     #include "chem_para"
41     #include "chem_com"
42     !
43     #endif
44    
45     #include "BD2G04.COM"
46    
47 jscott 1.2 #include "CLM.h"
48 jscott 1.1
49     COMMON/SPEC2/KM,KINC,COEK,C3LAND(IO0,JM0),C3OICE(IO0,JM0) 5808.1
50     * ,C3LICE(IO0,JM0),WMGE(IO0,JM0),TSSFC(1,JM0,4) 5808.2
51     COMMON U,V,T,P,Q 5809.
52     COMMON/WORK1/CONV(IM0,JM0,LM0),PK(IM0,JM0,LM0),PREC(IM0,JM0),
53     & TPREC(IM0,JM0), 5810.
54     * COSZ1(IO0,JM0) 5811.
55     COMMON/WORK2/UT(IM0,JM0,LM0),VT(IM0,JM0,LM0),DU1(IO0,JM0),
56     & DV1(IO0,JM0), 5812.
57     * RA(8),ID(8),UMS(8) 5813.
58     COMMON/WORK3/E0(IO0,JM0,4),E1(IO0,JM0,4),EVAPOR(IO0,JM0,4), 5814.
59     * TGRND(IO0,JM0,4) 5814.1
60     COMMON/RDATA/ROUGHL(IO0,JM0) 5815.
61     LOGICAL POLE,PRNT,HPRNT
62     common/conprn/HPRNT
63 jscott 1.2 ! common/TSUR/TSURFC(JM0,0:13),TSURFT(JM0),TSURFD(JM0),DTEMSR(JM0)
64     #include "TSRF.COM"
65 jscott 1.1 common/SURRAD/TRSURF(JM0,4),SRSURF(JM0,4)
66     c REAL*8 B,TGV,TKV,TSV0,TSV1,TSV 5818.
67     integer IQ1,IQ2,IQ3
68     COMMON/CWMG/WMGEA(JM0),NWMGEA(JM0),CHAVER(JM0),DTAV(JM0),DQAV(JM0)
69     & ,Z0AV(JM0),WSAV(JM0),WS0AV(JM0),TAUAV(JM0)
70     C
71     COMMON/SURFLAND/ DUL1(JM0),DVL1(JM0),DT1L(JM0),DQ1L(JM0),
72     & WSSL(JM0),T2ML(JM0),
73     & TSSL(JM0),QSSL(JM0),USSL(JM0),VSSL(JM0),TAUSL(JM0),BLJ(JM0,50)
74     & ,ELHTG(JM0),SHTG(JM0),TAUXG(JM0),TAUYG(JM0)
75     c
76     DATA RVAP/461.5/ 5819.
77     DATA SHV/0./,SHW/4185./,SHI/2060./,RHOW/1000./,RHOI/916.6/, 5820.
78     * ALAMI/2.1762/,STBO/.5672573E-7/,TF/273.16/,TFO/-1.56/ 5821.
79     DATA Z1I/.1/,Z2LI/2.9/,Z1E/.1/,Z2E/4./,RHOS/91.66/,ALAMS/.35/ 5822.
80     QSAT(TM,PR,QLH)=3.797915*EXP(QLH*(7.93252E-6-2.166847E-3/TM))/PR 5836.
81     DLQSDT(TM,QLH)=QLH*2.166847E-3/(TM*TM)
82     DATA IFIRST/1/ 5838.
83     ROSNOW(X)=0.54*X/LOG(1.+0.54*X/275.)
84     ALSNOW(X)=2.8E-6*X**2
85     C**** 5839.
86     C**** FDATA 2 LAND COVERAGE (1) 5840.
87     C**** 3 RATIO OF LAND ICE COVERAGE TO LAND COVERAGE (1) 5841.
88     C**** 5842.
89     C**** ODATA 1 OCEAN TEMPERATURE (C) 5843.
90     C**** 2 RATIO OF OCEAN ICE COVERAGE TO WATER COVERAGE (1) 5844.
91     C**** 3 OCEAN ICE AMOUNT OF SECOND LAYER (KG/M**2) 5845.
92     C**** 5846.
93     C**** GDATA 1 OCEAN ICE SNOW AMOUNT (KG/M**2) 5847.
94     C**** 2 EARTH SNOW AMOUNT (KG/M**2) 5848.
95     C**** 3 OCEAN ICE TEMPERATURE OF FIRST LAYER (C) 5849.
96     C**** 4 EARTH TEMPERATURE OF FIRST LAYER (C) 5850.
97     C**** 5 EARTH WATER OF FIRST LAYER (KG/M**2) 5851.
98     C**** 6 EARTH ICE OF FIRST LAYER (KG/M**2) 5852.
99     C**** 7 OCEAN ICE TEMPERATURE OF SECOND LAYER (C) 5853.
100     C**** 8 EARTH TEMPERATURE OF SECOND LAYER (C) 5854.
101     C**** 9 EARTH WATER OF SECOND LAYER (KG/M**2) 5855.
102     C**** 10 EARTH ICE OF SECOND LAYER (KG/M**2) 5856.
103     C**** 12 LAND ICE SNOW AMOUNT (KG/M**2) 5857.
104     C**** 13 LAND ICE TEMPERATURE OF FIRST LAYER (C) 5858.
105     C**** 14 LAND ICE TEMPERATURE OF SECOND LAYER (C) 5859.
106     C**** 5860.
107     C**** BLDATA 1 COMPOSITE SURFACE WIND MAGNITUDE (M/S) 5861.
108     C**** 2 COMPOSITE SURFACE AIR TEMPERATURE (K) 5862.
109     C**** 3 COMPOSITE SURFACE AIR SPECIFIC HUMIDITY (1) 5863.
110     C**** 4 LAYER TO WHICH DRY CONVECTION MIXES (1) 5864.
111     C**** 5 FREE 5865.
112     C**** 6 COMPOSITE SURFACE U WIND 5866.
113     C**** 7 COMPOSITE SURFACE V WIND 5867.
114     C**** 8 COMPOSITE SURFACE MOMENTUM TRANSFER (TAU) 5868.
115     C**** 5869.
116     C**** VDATA 9 WATER FIELD CAPACITY OF FIRST LAYER (KG/M**2) 5870.
117     C**** 10 WATER FIELD CAPACITY OF SECOND LAYER (KG/M**2) 5871.
118     C**** 5872.
119     C**** 5874.
120     save
121     c print *,'sur4clm TAU=',TAU
122     NSTEPS=NSURF*NSTEP/NDYN 5875.
123     IF(IFIRST.NE.1) GO TO 50 5876.
124     print *,' SURFACE FOR CLM'
125     print *,' ZGS=30 m for LAND '
126     WMGMIN=8.
127     print *,'WMGMIN 4 LAND=',WMGMIN
128     IFIRST=0 5877.
129     print *,' WMGE'
130     print 258,(WMGE(1,J)+WMGMIN,J=1,JM)
131     258 format(12f5.1)
132     C SRCORX=1. 5878.13
133     CIAX=0.3
134     print *,' surfacen CIAX=',CIAX
135     print *,' QS=Q1, TS=T1'
136     print *,' WS=sqrt(0.75*W1+WGEM) '
137     IQ1=IM/4+1 5881.
138     IQ2=IM/2+1 5882.
139     IQ3=3*IM/4+1 5883.
140 jscott 1.2 ! DTSURF=NDYN*DT/NSURF 5884.
141     ! print *,' From SRF4CLM DTSURF=',DTSURF
142     ! DTSRCE=DT*NDYN 5885.
143 jscott 1.1 SHA=RGAS/KAPA 5886.
144     RVX=0. 5887.
145     50 CONTINUE
146     C**** ZERO OUT ENERGY AND EVAPORATION FOR GROUND AND INITIALIZE TGRND 5906.
147     DO 70 J=1,JM 5907.
148     DO 70 I=1,IM 5908.
149     TGRND(I,J,3)=GDATA(I,J,13) 5910.
150     TGRND(I,J,4)=GDATA(I,J,4) 5911.
151     70 CONTINUE
152     c print *,'After 70'
153     IHOUR=1.5+TOFDAY 5914.
154     C**** 5915.
155     C**** OUTSIDE LOOP OVER TIME STEPS, EXECUTED NSURF TIMES EVERY HOUR 5916.
156     C**** 5917.
157     C**** 5927.
158     C**** OUTSIDE LOOP OVER J AND I, EXECUTED ONCE FOR EACH GRID POINT 5928.
159     C**** 5929.
160     JPR=-7
161     DO 7000 J=1,JM 5930.
162     c print *,'After 7000 J=',J
163     c print *,IQ3
164     PRNT=.FALSE.
165     HEMI=1. 5931.
166     IF(J.LE.JM/2) HEMI=-1. 5932.
167     IF(J.EQ.1) GO TO 80 5936.
168     IF(J.EQ.JM) GO TO 90 5937.
169     WMG0=.5*(WMGE(1,J)+WMGE(1,J+1))+.001 5937.5
170     POLE=.FALSE. 5938.
171     IMAX=IM 5939.
172     GO TO 100 5940.
173     C**** CONDITIONS AT THE SOUTH POLE 5941.
174     80 POLE=.TRUE. 5942.
175     c print *,'After 80'
176     c print *,IQ1,IQ2,IQ3
177     IMAX=1 5943.
178     JVPO=2 5944.
179     RAPO=2.*RAPVN(1) 5945.
180     c print *,' RAPO=', RAPO
181     c II1=IQ1
182     c II2=IQ2
183     c II3=IQ3
184     c print *,II1,II2,II3
185     c print *,' III=',III
186     c print *,' U(IQ3,2,1)=',U(IQ3,2,1)
187     U1=.25*(U(1,2,1)+V(IQ1,2,1)-U(IQ2,2,1)-V(IQ3,2,1)) 5946.
188     V1=.25*(V(1,2,1)-U(IQ1,2,1)-V(IQ2,2,1)+U(IQ3,2,1)) 5947.
189     WMG0=WMGE(1,2) 5947.5
190     GO TO 100 5948.
191     C**** CONDITIONS AT THE NORTH POLE 5949.
192     90 POLE=.TRUE. 5950.
193     IMAX=1 5951.
194     JVPO=JM 5952.
195     RAPO=2.*RAPVS(JM) 5953.
196     U1=.25*(U(1,JM,1)-V(IQ1,JM,1)-U(IQ2,JM,1)+V(IQ3,JM,1)) 5954.
197     V1=.25*(V(1,JM,1)+U(IQ1,JM,1)-V(IQ2,JM,1)-U(IQ3,JM,1)) 5955.
198     WMG0=WMGE(1,JM) 5955.5
199     C**** ZERO OUT SURFACE DIAGNOSTICS WHICH WILL BE SUMMED OVER LONGITUDE 5956.
200     100 CONTINUE
201     c print *,'After 100'
202     BTS=0.
203     BWS=0.
204     BWMG=0.
205     IM1=IM 5969.
206 jscott 1.2 i=1
207     tsl4clm(i,j)=0.0
208     qs4clm(i,j)=0.0
209     ps4clm(i,j)=0.0
210     ws4clm(i,j)=0.0
211     us4clm(i,j)=0.0
212     vs4clm(i,j)=0.0
213 jscott 1.1 DO 6000 I=1,IMAX 5970.
214     C**** 5971.
215     C**** DETERMINE SURFACE CONDITIONS 5972.
216     C**** 5973.
217     PLAND=FDATA(I,J,2) 5974.
218     PWATER=1.-PLAND 5975.
219     PLICE=FDATA(I,J,3)*PLAND 5976.
220     PEARTH=PLAND-PLICE 5977.
221     POICE=ODATA(I,J,2)*PWATER 5978.
222     POCEAN=PWATER-POICE 5979.
223     if(POCEAN.LE.1.E-5)then
224     POCEAN=0.
225     POICE=PWATER
226     endif
227     TTOFR=PEARTH+PLICE+POICE+POCEAN
228     if(abs(TTOFR-1).gt.1.e-3)then
229     print *,' From surface TTOFR=',TTOFR
230     print *,' J=',J,' PLAND=',PLAND,' POCEAN=',POCEAN
231     print *,'POICE=',POICE,' ODATA(I,J,2)=',ODATA(I,J,2)
232     stop
233     end if
234     SP=P(I,J) 5980.
235     PS=SP+PTOP 5981.
236     PSK=EXPBYK(PS) 5982.
237     P1=SIG(1)*SP+PTOP 5983.
238     P1K=EXPBYK(P1) 5984.
239     IF(POLE) GO TO 1200 5993.
240     U1=.25*(U(IM1,J,1)+U(I,J,1)+U(IM1,J+1,1)+U(I,J+1,1)) 5994.
241     V1=.25*(V(IM1,J,1)+V(I,J,1)+V(IM1,J+1,1)+V(I,J+1,1)) 5995.
242     1200 TH1=T(I,J,1) 5996.
243     Q1=Q(I,J,1) 5997.
244     THV1=TH1*(1.+Q1*RVX) 5998.
245     C**** ZERO OUT QUANTITIES TO BE SUMMED OVER SURFACE TYPES 6002.
246     USS=0. 6003.
247     VSS=0. 6004.
248     WSS=0. 6005.
249     TSS=0. 6006.
250     QSS=0. 6007.
251     C**** 6032.
252     2400 IF(PLAND.LE.0.) GO TO 5000 6074.
253     ZGS=30. 6078.
254     IF(PLICE.LE.0.) GO TO 2600 6080.
255     C**** 6081.
256     C**** LAND ICE 6082.
257     C**** 6083.
258     ITYPE=3 6084.
259     PTYPE=PLICE 6085.
260     TG1=TGRND(I,J,3) 6087.
261     c ELHX=LHS 6094.
262     if (TG1.le.0.0)ELHX=LHS
263     if (TG1.gt.0.0)ELHX=LHE
264     GO TO 3000 6095.
265     C**** 6096.
266     2600 IF(PEARTH.LE.0.) GO TO 5000 6097.
267     C**** 6098.
268     C**** EARTH 6099.
269     C**** 6100.
270     ITYPE=4 6101.
271     PTYPE=PEARTH 6102.
272     TG1=TGRND(I,J,4) 6104.
273     if (TG1.le.0.0)ELHX=LHS
274     if (TG1.gt.0.0)ELHX=LHE
275     C**** 6134.
276     C**** BOUNDARY LAYER INTERACTION 6135.
277     C**** 6136.
278     3000 continue
279     if(J.eq.JPR)then
280     print *,' after 3000'
281     print *,'TAU=',TAU,' NS=',NS,' ITYPE=',ITYPE
282     print *,'CDH=',CDH,' RGAS=',RGAS
283     print *,'U1=',U1,' V1=',V1
284     print *,'WMGO=',WMGO
285     endif
286     TKV=THV1*PSK 6137.
287     C**** LOOP OVER GROUND TIME STEPS 6148.
288     TG=TG1+TF 6150.
289     QG=QSAT(TG,PS,ELHX) 6151.
290     TGV=TG*(1.+QG*RVX) 6152.
291     UG=0.75*U1
292     VG=0.75*V1
293     W1=SQRT(UG*UG+VG*VG)
294     WMG=WMG0+WMGMIN
295     WS=SQRT(W1**2+WMG)
296     RW=1.0
297     if(W1.ne.0.0)RW=WS/W1
298     THS=TH1
299     QS=Q1
300     TSV=THS*PSK
301     RIGS=ZGS*GRAV*(TSV-TGV)/(TGV*WS*WS)
302     IF(RIGS.LE.0) THEN
303     C surface layer has unstable stratification
304     CIA=TWOPI*0.0625/(1.+WS*CIAX)
305     ELSE
306     C surface layer has stable stratification
307     CIA=TWOPI*(0.09375-0.03125/(1.+4*RIGS**2))/(1.+WS*CIAX)
308     END IF
309     if(J.eq.JPR)then
310     print *,'TAU=',TAU,' NS=',NS,' ITYPE=',ITYPE
311     print *,'WS=',WS,' ZGS=',ZGS
312     print *,'RIGS=',RIGS,' TGV=',TGV
313     endif
314     USR=COS(CIA)
315     VSR=SIN(CIA)*HEMI
316     US=(USR*UG-VSR*VG)
317     VS=(VSR*UG+USR*VG)
318     if(J.eq.JPR)then
319     c print *,' '
320     print *,'TAU=',TAU,' NS=',NS,' ITYPE=',ITYPE
321     print *,'CDH=',CDH,' RGAS=',RGAS
322     print *,'PS=',PS,' TSV=',TSV
323     print *,'WS=',WS
324     endif
325     TS=TSV/(1.+QS*RVX) 6467.
326     c QSATS=QSAT(TS,PS,ELHX) 6468.
327     c IF(QS.LE.QSATS) GO TO 3500 6469.
328     c DQSSDT=QSATS*ELHX/(RVAP*TS*TS) 6470.
329     c X=(QS-QSATS)/(DQSSDT+(SHA/ELHX)) 6471.
330     c TS=TS+X 6472.
331     c QS=QS+X*(SHA/ELHX) 6473.
332     c3500 CONTINUE
333    
334     if(ITYPE.EQ.4.or.ITYPE.EQ.3)then
335 jscott 1.2 tsl4clm(i,j)=tsl4clm(i,j)+TS*PTYPE/PLAND
336     qs4clm(i,j)=qs4clm(i,j)+QS*PTYPE/PLAND
337     ps4clm(i,j)=ps4clm(i,j)+PS*PTYPE/PLAND
338     ws4clm(i,j)=ws4clm(i,j)+WS*PTYPE/PLAND
339     ! us4clm(i,j)=us4clm(i,j)+US*PTYPE/PLAND
340     ! vs4clm(i,j)=vs4clm(i,j)+VS*PTYPE/PLAND
341     us4clm(i,j)=us4clm(i,j)+RW*US*PTYPE/PLAND
342     vs4clm(i,j)=vs4clm(i,j)+RW*VS*PTYPE/PLAND
343 jscott 1.1 endif
344    
345     TSSFC(I,J,ITYPE)=TS 6521.5
346     USS=USS+US*PTYPE 6524.
347     VSS=VSS+VS*PTYPE 6525.
348     WSS=WSS+WS*PTYPE 6526.
349     TSS=TSS+TS*PTYPE 6527.
350     QSS=QSS+QS*PTYPE 6528.
351     GO TO (5000,5000,4400,4600),ITYPE 6551.
352     C**** 6552.
353     C**** LAND ICE 6569.
354     C**** 6570.
355     4400 CONTINUE
356     BTS=BTS+(TS-TF)*PLICE 6574.
357     BWS=BWS+WS*PLICE
358     BWMG=BWMG+SQRT(WMG)*PLICE
359     GO TO 2600 6575.
360     C**** 6576.
361     C**** EARTH 6577.
362     C**** 6578.
363     4600 CONTINUE
364     BTS=BTS+(TS-TF)*PEARTH 6582.
365     BWS=BWS+WS*PEARTH
366     BWMG=BWMG+SQRT(WMG)*PEARTH
367    
368     C**** NON-OCEAN POINTS WHICH ARE NOT MELTING OR FREEZING WATER USE 6583.
369     C**** IMPLICIT TIME STEPS 6584.
370     C**** 6585.
371     C**** UPDATE SURFACE AND FIRST LAYER QUANTITIES 6586.
372     C**** 6587.
373     5000 CONTINUE
374     C**** 6596.
375     C**** ACCUMULATE DIAGNOSTICS 6597.
376     C**** 6598.
377     6000 IM1=I 6662.
378     WSSL(J)=WSS
379     TSSL(J)=TSS
380     QSSL(J)=QSS
381     USSL(J)=USS
382     VSSL(J)=VSS
383     C**** QUANTITIES ACCUMULATED FOR SURFACE TYPE TABLES IN DIAG1 6663.
384     BLJ(J,37)=BWS
385     BLJ(J,28)=BWMG
386     BLJ(J,23)=BTS
387     7000 CONTINUE 6677.
388 jscott 1.2 ! print *,' From SRF4CLM TAU=',TAU
389     ! i=1
390     ! j=1
391     ! print *,'TS(1),TS(2)'
392     ! print *,tsl4clm(1,1),tsl4clm(1,2)
393     ! print *,dsw4clm(i,j),dlw4clm(i,j)
394     ! print *,swinr4clm(i,j), swvis4clm(i,j)
395 jscott 1.1 C**** 6678.
396     #endif
397     RETURN 6795.
398     END 6824.
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