pkg/aim_compon_interf/atm_store_evmpr.F

C $Header: $
C $Name:   $  

#include "AIM_OPTIONS.h"

CStartOfInterface
      SUBROUTINE ATM_STORE_EVMPR( bi,bj,
     I                             myCurrentTime, 
     I                             myCurrentIter, 
     I                             myThid )
C     /==========================================================\
C     | SUBROUTINE ATM_STORE_EVMPR                               |
C     | o Routine for saving atmos. fresh water flux             |
C     |   (=Evap-Precip) for export to coupling layer.           |
C     |==========================================================|
C     | This version interfaces to the MITgcm AIMPHYS package.   |
C     \==========================================================/
      IMPLICIT NONE

C     == Global variables ==
#include "AIM_SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "CPL_PARAMS.h"
C     == Global variables for coupling interface ==
#include "ATMCPL.h"
C     == AIMPHYS specific global data ==
#include "com_physvar.h"


C     == Routine arguments ==
C     bi,bj         - Tile index
C     myThid        - Thread number for this instance of the routine
C     myCurrentIter - Current timestep number
C     myCurrentTime - Current model time
      INTEGER bi, bj
      _RL     myCurrentTime
      INTEGER myCurrentIter
      INTEGER myThid
CEndOfInterface

C     == Local variables ==
C     I,J,K,II - Loop counters
C     conv_precip  :: conversion factor for precip: from g.m-2.s-1 to m/s
      INTEGER I,J,K,II
      _RL conv_precip
      _RL cplTimeFraction

C     from g/(m^2.s) to m/s :
      conv_Precip = 1. _d -3 / rhoConstFresh

C     o Accumulate fresh water flux that will be exported to the 
C       coupling layer. Fresh-water flux is in units of g/m^2/s. 
C       To convert to meters per second divide by density in 
C       g/m^3. Positive flux is into the atmosphere (E-P).
      cplTimeFraction = 1. _d 0 / DFLOAT(cplSendFrq_iter)
c     DO bj=myByLo(myThid),myByHi(myThid)
c      DO bi=myBxLo(myThid),myBxHi(myThid)
        EvMPrTime(bi,bj) = EvMPrTime(bi,bj) + cplTimeFraction
        DO J=1,sNy
         DO I=1,sNx
          II = (sNx)*(J-1)+I
          EvMPrFlux(I,J,bi,bj) = EvMPrFlux(I,J,bi,bj) 
     &                         +( EVAP(II,2,myThid)
     &                           -PRECNV(II,myThid)
     &                           -PRECLS(II,myThid)
     &                           )*conv_precip*cplTimeFraction
         ENDDO
        ENDDO
c      ENDDO
c     ENDDO

      RETURN
      END
1	jmc	1.1	C $Header: $
2			C $Name: $
3
4			#include "AIM_OPTIONS.h"
5
6			CStartOfInterface
7			SUBROUTINE ATM_STORE_EVMPR( bi,bj,
8			I myCurrentTime,
9			I myCurrentIter,
10			I myThid )
11			C /==========================================================\
12			C \| SUBROUTINE ATM_STORE_EVMPR \|
13			C \| o Routine for saving atmos. fresh water flux \|
14			C \| (=Evap-Precip) for export to coupling layer. \|
15			C \|==========================================================\|
16			C \| This version interfaces to the MITgcm AIMPHYS package. \|
17			C \==========================================================/
18			IMPLICIT NONE
19
20			C == Global variables ==
21			#include "AIM_SIZE.h"
22			#include "EEPARAMS.h"
23			#include "PARAMS.h"
24			#include "CPL_PARAMS.h"
25			C == Global variables for coupling interface ==
26			#include "ATMCPL.h"
27			C == AIMPHYS specific global data ==
28			#include "com_physvar.h"
29
30
31			C == Routine arguments ==
32			C bi,bj - Tile index
33			C myThid - Thread number for this instance of the routine
34			C myCurrentIter - Current timestep number
35			C myCurrentTime - Current model time
36			INTEGER bi, bj
37			_RL myCurrentTime
38			INTEGER myCurrentIter
39			INTEGER myThid
40			CEndOfInterface
41
42			C == Local variables ==
43			C I,J,K,II - Loop counters
44			C conv_precip :: conversion factor for precip: from g.m-2.s-1 to m/s
45			INTEGER I,J,K,II
46			_RL conv_precip
47			_RL cplTimeFraction
48
49			C from g/(m^2.s) to m/s :
50			conv_Precip = 1. _d -3 / rhoConstFresh
51
52			C o Accumulate fresh water flux that will be exported to the
53			C coupling layer. Fresh-water flux is in units of g/m^2/s.
54			C To convert to meters per second divide by density in
55			C g/m^3. Positive flux is into the atmosphere (E-P).
56			cplTimeFraction = 1. _d 0 / DFLOAT(cplSendFrq_iter)
57			c DO bj=myByLo(myThid),myByHi(myThid)
58			c DO bi=myBxLo(myThid),myBxHi(myThid)
59			EvMPrTime(bi,bj) = EvMPrTime(bi,bj) + cplTimeFraction
60			DO J=1,sNy
61			DO I=1,sNx
62			II = (sNx)*(J-1)+I
63			EvMPrFlux(I,J,bi,bj) = EvMPrFlux(I,J,bi,bj)
64			& +( EVAP(II,2,myThid)
65			& -PRECNV(II,myThid)
66			& -PRECLS(II,myThid)
67			& )conv_precipcplTimeFraction
68			ENDDO
69			ENDDO
70			c ENDDO
71			c ENDDO
72
73			RETURN
74			END