C $Header: /home/ubuntu/mnt/e9_copy/MITgcm/pkg/aim/Attic/phy_shtorh.F,v 1.2 2001/02/02 21:36:29 adcroft Exp $ C $Name: $ SUBROUTINE SHTORH (IMODE,NGP,TA,PS,SIG,QA,RH,QSAT) C-- C-- SUBROUTINE SHTORH (IMODE,NGP,TA,PS,SIG,QA,RH,QSAT) C-- C-- Purpose: compute saturation specific humidity and C-- relative hum. from specific hum. (or viceversa) C-- Input: IMODE : mode of operation C-- NGP : no. of grid-points C-- TA : abs. temperature C-- PS : normalized pressure (= p/1000_hPa) [if SIG < 0] C-- : normalized sfc. pres. (= ps/1000_hPa) [if SIG > 0] C-- SIG : sigma level C-- QA : specific humidity in g/kg [if IMODE > 0] C-- RH : relative humidity [if IMODE < 0] C-- QSAT : saturation spec. hum. in g/kg C-- Output: RH : relative humidity [if IMODE > 0] C-- QA : specific humidity in g/kg [if IMODE < 0] C-- IMPLICIT rEAL*8 (A-H,O-Z) CcnhDebugStarts #include "SIZE.h" CcnhDebugEnds REAL TA(NGP), PS(NGP), QA(NGP), RH(NGP), QSAT(NGP) C C--- 1. Compute Qsat (g/kg) from T (degK) and normalized pres. P (= p/1000_hPa) C If SIG > 0, P = Ps * sigma, otherwise P = Ps(1) = const. C E0= 6.108 _d -3 C1= 17.269 _d 0 C2= 21.875 _d 0 T0=273.16 _d 0 T1= 35.86 _d 0 T2= 7.66 _d 0 C DO 110 J=1,NGP QSAT(J)=0. IF (TA(J).GE.T0) THEN QSAT(J)=E0*EXP(C1*(TA(J)-T0)/(TA(J)-T1)) ELSE IF ( TA(J).GT.0.) then QSAT(J)=E0*EXP(C2*(TA(J)-T0)/(TA(J)-T2)) ENDIF 110 CONTINUE C IF (SIG.LE.0.0) THEN DO 120 J=1,NGP QSAT(J)=622. _d 0*QSAT(J)/(PS(1)-0.378 _d 0*QSAT(J)) 120 CONTINUE ELSE DO 130 J=1,NGP QSAT(J)=622. _d 0*QSAT(J)/(SIG*PS(J)-0.378 _d 0*QSAT(J)) 130 CONTINUE ENDIF chh write(0,*) 'MAXVAL(QSAT)=',MAXVAL(QSAT) chh write(0,*) 'MINVAL(QSAT)=',MINVAL(QSAT) C C--- 2. Compute rel.hum. RH=Q/Qsat (IMODE>0), or Q=RH*Qsat (IMODE<0) C IF (IMODE.GT.0) THEN DO 210 J=1,NGP IF(QSAT(J).ne.0.) then RH(J)=QA(J)/QSAT(J) ELSE RH(J)=0. ENDIF 210 CONTINUE ELSE IF (IMODE.LT.0) THEN DO 220 J=1,NGP QA(J)=RH(J)*QSAT(J) 220 CONTINUE ENDIF chh write(0,*) 'MAXVAL(QA)=',MAXVAL(QA) chh write(0,*) 'MINVAL(QA)=',MINVAL(QA) chh write(0,*) 'MAXVAL(RH)=',MAXVAL(RH) chh write(0,*) 'MINVAL(RH)=',MINVAL(RH) C RETURN END SUBROUTINE ZMEDDY (NLON,NLAT,FF,ZM,EDDY) IMPLICIT rEAL*8 (A-H,O-Z) C C *** Decompose a field into zonal-mean and eddy component C REAL FF(NLON,NLAT), ZM(NLAT), EDDY(NLON,NLAT) C RNLON=1./NLON C DO 130 J=1,NLAT C ZM(J)=0. DO 110 I=1,NLON ZM(J)=ZM(J)+FF(I,J) 110 CONTINUE ZM(J)=ZM(J)*RNLON C DO 120 I=1,NLON EDDY(I,J)=FF(I,J)-ZM(J) 120 CONTINUE C 130 CONTINUE C C-- RETURN END C