jscott/pkg_atm2d/relax_add.F

#include "ctrparam.h"
#include "ATM2D_OPTIONS.h"

C     !INTERFACE:
      SUBROUTINE RELAX_ADD( wght0, wght1,
     &               intime0, intime1, iftime, myIter, myThid)
C     *==========================================================*
C     | |
c     | |
C     *==========================================================*
        IMPLICIT NONE

#include "ATMSIZE.h"
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "GRID.h"
#include "THSICE_VARS.h"
#include "ATM2D_VARS.h"

c include ocean and seaice vars

C     !INPUT/OUTPUT PARAMETERS:
C     === Routine arguments ===
C     myIter - Ocean iteration number
C     myThid - Thread no. that called this routine.
      _RL  wght0
      _RL  wght1
      INTEGER intime0
      INTEGER intime1
      LOGICAL iftime
      INTEGER myIter
      INTEGER myThid

C     LOCAL VARIABLES:
      COMMON /OCEANRELAX/
     &                 sst0, sst1, sss0, sss1

      _RS  sst0(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)
      _RS  sst1(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)     
      _RS  sss0(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)    
      _RS  sss1(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)    
      _RL lambdaTheta,lambdaSalt
      _RS nearIce
      _RL qrelflux, frelflux
      _RL sstRelax(1:sNx,1:sNy), sssRelax(1:sNx,1:sNy)
      INTEGER i,j

      IF (ifTime) THEN

C      If the above condition is met then we need to read in
C      data for the period ahead and the period behind current time.

        WRITE(*,*) 'S/R RELAX_ADD: Reading new data'
        IF ( thetaRelaxFile .NE. ' '  ) THEN
          CALL READ_REC_XY_RS( thetaRelaxFile,sst0,intime0,
     &                      myIter,myThid )
          CALL READ_REC_XY_RS( thetaRelaxFile,sst1,intime1,
     &                      myIter,myThid )
        ENDIF
        IF ( saltRelaxFile .NE. ' '  ) THEN
          CALL READ_REC_XY_RS( saltRelaxFile,sss0,intime0,
     &                      myIter,myThid )
          CALL READ_REC_XY_RS( saltRelaxFile,sss1,intime1,
     &                      myIter,myThid )
        ENDIF

      ENDIF

      IF ((thetaRelaxFile.NE.' ').OR.(saltRelaxFile.NE.' ')) THEN

C--   Interpolate and add to anomaly
      DO j=1,sNy

        IF (ntTypeRelax .EQ. 0) THEN
          lambdaTheta =  r_tauThetaRelax
        ELSE
          lambdaTheta = r_tauThetaRelax/
     &                 max(cos(1.5 _d 0*yC(1,j,1,1)*deg2rad),0. _d 0)
        ENDIF
        IF (nsTypeRelax .EQ. 0) THEN
          lambdaSalt = r_tauSaltRelax
        ELSE
          lambdaSalt = r_tauSaltRelax/
     &                max(cos(1.5 _d 0*yC(1,j,1,1)*deg2rad),0. _d 0)
        ENDIF

        DO i=1,sNx

          IF (maskC(i,j,1,1,1) .EQ. 1.) THEN
          sstRelax(i,j)= (wght0*sst0(i,j,1,1) + wght1*sst1(i,j,1,1))
          sssRelax(i,j)= (wght0*sss0(i,j,1,1) + wght1*sss1(i,j,1,1))

C         Next lines: linearly phase out SST restoring between 2C and -1C
C         ONLY if seaice is present
          IF ((sstRelax(i,j).GT.2. _d 0).OR.
     &        (iceMask(i,j,1,1) .EQ. 0. _d 0)) THEN
              nearIce=1.0
          ELSEIF (sstRelax(i,j) .LE. -1. _d 0) THEN
              nearIce=0.0
          ELSE
              nearIce=(sstRelax(i,j)+1.0)/3.0
          endif
        
C          IF (iceMask(i,j,1,1) .GT. 0. _d 0) THEN
C          PRINT *,'In relax at, sst :',i,j,sstRelax(i,j)
C          PRINT *,'Nearice = ',nearIce
C          ENDIF
          qrelflux= lambdaTheta*(sstFromOcn(i,j)-sstRelax(i,j))/
     &              (recip_Cp*recip_rhoNil*recip_drF(1))*nearIce

          qneto_2D(i,j)= qneto_2D(i,j) + qrelflux
          qneti_2D(i,j)= qneti_2D(i,j) + qrelflux

          frelflux= -lambdaSalt*(sssFromOcn(i,j)-sssRelax(i,j))/
     &                  (convertFW2Salt *recip_drF(1))*nearIce

C          if ((i.eq.JBUGI).and.(j.eq.JBUGJ)) then
C          print *,'Frelflux:',frelflux,sssFromOcn(i,j)-sssRelax(i,j)
C          print *,'Qrelflux:',qrelflux,sstFromOcn(i,j)-sstRelax(i,j)
C          print *,'sss relax:',sssRelax(i,j),sss0(i,j,1,1),sss1(i,j,1,1)
C          print *,'sst relax:',sstRelax(i,j),sst0(i,j,1,1),sst1(i,j,1,1)
C          print *,'ctocn: ',ctocn(JBUGJ+1)
C          endif

C         or use actual salt instead of convertFW2salt above?

          IF (frelflux .GT. 0. _d 0) THEN
            evapo_2D(i,j)= evapo_2D(i,j) - frelflux
            IF (iceMask(i,j,1,1).GT.0. _d 0)
     &            evapi_2D(i,j)= evapi_2D(i,j) - frelflux
          ELSE
            precipo_2D(i,j)= precipo_2D(i,j) + frelflux
            IF (iceMask(i,j,1,1).GT.0. _d 0)
     &            precipi_2D(i,j)= precipi_2D(i,j) + frelflux
          ENDIF

C          IF (iceMask(i,j,1,1) .GT. 0. _d 0) THEN
C          PRINT *,'Frelflux',frelflux,precipi_2D(i,j),atm_precip(j+1)
C          ENDIF

C         Diagnostics
          sum_qrel(i,j)= sum_qrel(i,j) + qrelflux*dtatmo
          sum_frel(i,j)= sum_frel(i,j) + frelflux*dtatmo

          ENDIF
        ENDDO
      ENDDO
      ENDIF

C      PRINT *,'***bottom of relaxadd',wght0,wght1,intime0,intime1
C      PRINT *,'evapo_2d: ',evapo_2D(JBUGI,JBUGJ)
C      PRINT *,'precipo_2d: ',precipo_2D(JBUGI,JBUGJ)
C      PRINT *,'qneto_2d: ',qneto_2D(JBUGI,JBUGJ)
C      PRINT *,'SStfrom Ocn: ',sstfromocn(JBUGI,JBUGJ)
C      PRINT *,'SSSfrom Ocn: ',sssfromocn(JBUGI,JBUGJ)

      RETURN
      END
1	jscott	1.1	#include "ctrparam.h"
2			#include "ATM2D_OPTIONS.h"
3
4			C !INTERFACE:
5			SUBROUTINE RELAX_ADD( wght0, wght1,
6			& intime0, intime1, iftime, myIter, myThid)
7			C ==========================================================
8			C \| \|
9			c \| \|
10			C ==========================================================
11			IMPLICIT NONE
12
13			#include "ATMSIZE.h"
14			#include "SIZE.h"
15			#include "EEPARAMS.h"
16			#include "PARAMS.h"
17			#include "GRID.h"
18			#include "THSICE_VARS.h"
19			#include "ATM2D_VARS.h"
20
21			c include ocean and seaice vars
22
23			C !INPUT/OUTPUT PARAMETERS:
24			C === Routine arguments ===
25			C myIter - Ocean iteration number
26			C myThid - Thread no. that called this routine.
27			_RL wght0
28			_RL wght1
29			INTEGER intime0
30			INTEGER intime1
31			LOGICAL iftime
32			INTEGER myIter
33			INTEGER myThid
34
35			C LOCAL VARIABLES:
36			COMMON /OCEANRELAX/
37			& sst0, sst1, sss0, sss1
38
39			_RS sst0(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)
40			_RS sst1(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)
41			_RS sss0(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)
42			_RS sss1(1-Olx:sNx+Olx,1-Oly:sNy+Oly,1,1)
43			_RL lambdaTheta,lambdaSalt
44			_RS nearIce
45			_RL qrelflux, frelflux
46			_RL sstRelax(1:sNx,1:sNy), sssRelax(1:sNx,1:sNy)
47			INTEGER i,j
48
49			IF (ifTime) THEN
50
51			C If the above condition is met then we need to read in
52			C data for the period ahead and the period behind current time.
53
54			WRITE(,) 'S/R RELAX_ADD: Reading new data'
55			IF ( thetaRelaxFile .NE. ' ' ) THEN
56			CALL READ_REC_XY_RS( thetaRelaxFile,sst0,intime0,
57			& myIter,myThid )
58			CALL READ_REC_XY_RS( thetaRelaxFile,sst1,intime1,
59			& myIter,myThid )
60			ENDIF
61			IF ( saltRelaxFile .NE. ' ' ) THEN
62			CALL READ_REC_XY_RS( saltRelaxFile,sss0,intime0,
63			& myIter,myThid )
64			CALL READ_REC_XY_RS( saltRelaxFile,sss1,intime1,
65			& myIter,myThid )
66			ENDIF
67
68			ENDIF
69
70			IF ((thetaRelaxFile.NE.' ').OR.(saltRelaxFile.NE.' ')) THEN
71
72			C-- Interpolate and add to anomaly
73			DO j=1,sNy
74
75	jscott	1.2	IF (ntTypeRelax .EQ. 0) THEN
76	jscott	1.1	lambdaTheta = r_tauThetaRelax
77			ELSE
78			lambdaTheta = r_tauThetaRelax/
79	jscott	1.2	& max(cos(1.5 _d 0yC(1,j,1,1)deg2rad),0. _d 0)
80	jscott	1.1	ENDIF
81	jscott	1.2	IF (nsTypeRelax .EQ. 0) THEN
82	jscott	1.1	lambdaSalt = r_tauSaltRelax
83			ELSE
84			lambdaSalt = r_tauSaltRelax/
85	jscott	1.2	& max(cos(1.5 _d 0yC(1,j,1,1)deg2rad),0. _d 0)
86	jscott	1.1	ENDIF
87
88			DO i=1,sNx
89
90	jscott	1.2	IF (maskC(i,j,1,1,1) .EQ. 1.) THEN
91	jscott	1.1	sstRelax(i,j)= (wght0sst0(i,j,1,1) + wght1sst1(i,j,1,1))
92			sssRelax(i,j)= (wght0sss0(i,j,1,1) + wght1sss1(i,j,1,1))
93
94			C Next lines: linearly phase out SST restoring between 2C and -1C
95			C ONLY if seaice is present
96	jscott	1.2	IF ((sstRelax(i,j).GT.2. _d 0).OR.
97			& (iceMask(i,j,1,1) .EQ. 0. _d 0)) THEN
98	jscott	1.1	nearIce=1.0
99	jscott	1.2	ELSEIF (sstRelax(i,j) .LE. -1. _d 0) THEN
100	jscott	1.1	nearIce=0.0
101			ELSE
102			nearIce=(sstRelax(i,j)+1.0)/3.0
103			endif
104
105	jscott	1.2	C IF (iceMask(i,j,1,1) .GT. 0. _d 0) THEN
106			C PRINT *,'In relax at, sst :',i,j,sstRelax(i,j)
107			C PRINT *,'Nearice = ',nearIce
108			C ENDIF
109	jscott	1.1	qrelflux= lambdaTheta*(sstFromOcn(i,j)-sstRelax(i,j))/
110			& (recip_Cprecip_rhoNilrecip_drF(1))*nearIce
111
112			qneto_2D(i,j)= qneto_2D(i,j) + qrelflux
113			qneti_2D(i,j)= qneti_2D(i,j) + qrelflux
114
115			frelflux= -lambdaSalt*(sssFromOcn(i,j)-sssRelax(i,j))/
116			& (convertFW2Salt recip_drF(1))nearIce
117
118	jscott	1.2	C if ((i.eq.JBUGI).and.(j.eq.JBUGJ)) then
119			C print *,'Frelflux:',frelflux,sssFromOcn(i,j)-sssRelax(i,j)
120			C print *,'Qrelflux:',qrelflux,sstFromOcn(i,j)-sstRelax(i,j)
121			C print *,'sss relax:',sssRelax(i,j),sss0(i,j,1,1),sss1(i,j,1,1)
122			C print *,'sst relax:',sstRelax(i,j),sst0(i,j,1,1),sst1(i,j,1,1)
123			C print *,'ctocn: ',ctocn(JBUGJ+1)
124			C endif
125	jscott	1.1
126			C or use actual salt instead of convertFW2salt above?
127
128	jscott	1.2	IF (frelflux .GT. 0. _d 0) THEN
129	jscott	1.1	evapo_2D(i,j)= evapo_2D(i,j) - frelflux
130			IF (iceMask(i,j,1,1).GT.0. _d 0)
131			& evapi_2D(i,j)= evapi_2D(i,j) - frelflux
132			ELSE
133			precipo_2D(i,j)= precipo_2D(i,j) + frelflux
134			IF (iceMask(i,j,1,1).GT.0. _d 0)
135			& precipi_2D(i,j)= precipi_2D(i,j) + frelflux
136			ENDIF
137
138	jscott	1.2	C IF (iceMask(i,j,1,1) .GT. 0. _d 0) THEN
139	jscott	1.1	C PRINT *,'Frelflux',frelflux,precipi_2D(i,j),atm_precip(j+1)
140			C ENDIF
141
142			C Diagnostics
143			sum_qrel(i,j)= sum_qrel(i,j) + qrelflux*dtatmo
144			sum_frel(i,j)= sum_frel(i,j) + frelflux*dtatmo
145
146			ENDIF
147			ENDDO
148			ENDDO
149			ENDIF
150
151	jscott	1.2	C PRINT ,'**bottom of relaxadd',wght0,wght1,intime0,intime1
152			C PRINT *,'evapo_2d: ',evapo_2D(JBUGI,JBUGJ)
153			C PRINT *,'precipo_2d: ',precipo_2D(JBUGI,JBUGJ)
154			C PRINT *,'qneto_2d: ',qneto_2D(JBUGI,JBUGJ)
155			C PRINT *,'SStfrom Ocn: ',sstfromocn(JBUGI,JBUGJ)
156			C PRINT *,'SSSfrom Ocn: ',sssfromocn(JBUGI,JBUGJ)
157	jscott	1.1
158			RETURN
159			END