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WRITE(UNIT=KLUOUT,FMT='("PDRYLBDAR_MIN=",E13.6)') &
XDRYLBDAR_MIN
WRITE(UNIT=KLUOUT,FMT='("PFDINFTY=",E13.6)') ZFDINFTY
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("IF( PRESENT(PKER_RDRYG) ) THEN")')
DO J1 = 1 , NDRYLBDAG
DO J2 = 1 , NDRYLBDAR
WRITE(UNIT=KLUOUT,FMT='("PKER_RDRYG(",I3,",",I3,") = ",E13.6)') &
J1,J2,XKER_RDRYG(J1,J2)
END DO
END DO
WRITE(UNIT=KLUOUT,FMT='("END IF")')
ELSE
CALL READ_XKER_RDRYG (KDRYLBDAG,KDRYLBDAR,KND, &
PALPHAG,PNUG,PALPHAR,PNUR,PEGR,PBR,PCG,PDG,PCR,PDR, &
PDRYLBDAG_MAX,PDRYLBDAR_MAX,PDRYLBDAG_MIN,PDRYLBDAR_MIN, &
PFDINFTY,XKER_RDRYG )
WRITE(UNIT=KLUOUT,FMT='(" Read XKER_RDRYG")')
END IF
!
!
!-------------------------------------------------------------------------------
!
!* 9. CONSTANTS FOR THE FAST COLD PROCESSES FOR THE HAILSTONES
! --------------------------------------------------------
!
!* 9.2 Constants for the wet growth of the hailstones
!
!
!* 9.2.1 Constant for the cloud droplet and cloud ice collection
! by the hailstones
!
XCOLIH = 0.01 ! Collection efficiency of I+H
XCOLEXIH = 0.1 ! Temperature factor of the I+H collection efficiency
XFWETH = (XPI/4.0)*XCCH*XCH*(ZRHO00**XCEXVT)*MOMG(XALPHAH,XNUH,XDH+2.0)
!
!* 9.2.2 Constants for the aggregate collection by the hailstones
!
XCOLSH = 0.01 ! Collection efficiency of S+H
XCOLEXSH = 0.1 ! Temperature factor of the S+H collection efficiency
XFSWETH = (XPI/4.0)*XCCH*XCCS*XAS*(ZRHO00**XCEXVT)
!
XLBSWETH1 = MOMG(XALPHAH,XNUH,2.)*MOMG(XALPHAS,XNUS,XBS)
XLBSWETH2 = 2.*MOMG(XALPHAH,XNUH,1.)*MOMG(XALPHAS,XNUS,XBS+1.)
XLBSWETH3 = MOMG(XALPHAS,XNUS,XBS+2.)
!
!* 9.2.3 Constants for the graupel collection by the hailstones
!
XCOLGH = 0.01 ! Collection efficiency of G+H
XCOLEXGH = 0.1 ! Temperature factor of the G+H collection efficiency
XFGWETH = (XPI/4.0)*XCCH*XCCG*XAG*(ZRHO00**XCEXVT)
!
XLBGWETH1 = MOMG(XALPHAH,XNUH,2.)*MOMG(XALPHAG,XNUG,XBG)
XLBGWETH2 = 2.*MOMG(XALPHAH,XNUH,1.)*MOMG(XALPHAG,XNUG,XBG+1.)
XLBGWETH3 = MOMG(XALPHAG,XNUG,XBG+2.)
!
!* 9.2.3 bis Constants for the rain collection by the hailstones
!
XFRWETH = (XPI/4.0)*XCCH*XCCR*XAR*(ZRHO00**XCEXVT)
!
XLBRWETH1 = MOMG(XALPHAH,XNUH,2.)*MOMG(XALPHAR,XNUR,XBR)
XLBRWETH2 = 2.*MOMG(XALPHAH,XNUH,1.)*MOMG(XALPHAR,XNUR,XBR+1.)
XLBRWETH3 = MOMG(XALPHAR,XNUR,XBR+2.)
!
! Notice: One magnitude of lambda discretized over 10 points
!
NWETLBDAS = 80
XWETLBDAS_MIN = 2.5E1 ! Minimal value of Lbda_s to tabulate XKER_SWETH
XWETLBDAS_MAX = 2.5E9 ! Maximal value of Lbda_s to tabulate XKER_SWETH
ZRATE = LOG(XWETLBDAS_MAX/XWETLBDAS_MIN)/REAL(NWETLBDAS-1)
XWETINTP1S = 1.0 / ZRATE
XWETINTP2S = 1.0 - LOG( XWETLBDAS_MIN ) / ZRATE
NWETLBDAG = 40
XWETLBDAG_MIN = 1.0E3 ! Min value of Lbda_g to tabulate XKER_GWETH
XWETLBDAG_MAX = 1.0E7 ! Max value of Lbda_g to tabulate XKER_GWETH
ZRATE = LOG(XWETLBDAG_MAX/XWETLBDAG_MIN)/REAL(NWETLBDAG-1)
XWETINTP1G = 1.0 / ZRATE
XWETINTP2G = 1.0 - LOG( XWETLBDAG_MIN ) / ZRATE
NWETLBDAR = 40
XWETLBDAR_MIN = 1.0E3 ! Minimal value of Lbda_r to tabulate XKER_RWETH
XWETLBDAR_MAX = 1.0E7 ! Maximal value of Lbda_r to tabulate XKER_RWETH
ZRATE = LOG(XWETLBDAR_MAX/XWETLBDAR_MIN)/REAL(NWETLBDAR-1)
XWETINTP1R = 1.0 / ZRATE
XWETINTP2R = 1.0 - LOG( XWETLBDAR_MIN ) / ZRATE
NWETLBDAH = 40
XWETLBDAH_MIN = 1.0E3 ! Min value of Lbda_h to tabulate XKER_SWETH,XKER_GWETH,XKER_RWETH
XWETLBDAH_MAX = 1.0E7 ! Max value of Lbda_h to tabulate XKER_SWETH,XKER_GWETH,XKER_RWETH
ZRATE = LOG(XWETLBDAH_MAX/XWETLBDAH_MIN)/REAL(NWETLBDAH-1)
XWETINTP1H = 1.0 / ZRATE
XWETINTP2H = 1.0 - LOG( XWETLBDAH_MIN ) / ZRATE
!
!* 9.2.4 Computations of the tabulated normalized kernels
!
IND = 50 ! Interval number, collection efficiency and infinite diameter
ZEHS = 1.0 ! factor used to integrate the dimensional distributions when
ZFDINFTY = 20.0 ! computing the kernels XKER_SWETH
!
IF( .NOT.ALLOCATED(XKER_SWETH) ) ALLOCATE( XKER_SWETH(NWETLBDAH,NWETLBDAS) )
!
CALL READ_XKER_SWETH (KWETLBDAH,KWETLBDAS,KND, &
PALPHAH,PNUH,PALPHAS,PNUS,PEHS,PBS,PCH,PDH,PCS,PDS, &
PWETLBDAH_MAX,PWETLBDAS_MAX,PWETLBDAH_MIN,PWETLBDAS_MIN, &
PFDINFTY )
IF( (KWETLBDAH/=NWETLBDAH) .OR. (KWETLBDAS/=NWETLBDAS) .OR. (KND/=IND) .OR. &
(PALPHAH/=XALPHAH) .OR. (PNUH/=XNUH) .OR. &
(PALPHAS/=XALPHAS) .OR. (PNUS/=XNUS) .OR. &
(PEHS/=ZEHS) .OR. (PBS/=XBS) .OR. &
(PCH/=XCH) .OR. (PDH/=XDH) .OR. (PCS/=XCS) .OR. (PDS/=XDS) .OR. &
(PWETLBDAH_MAX/=XWETLBDAH_MAX) .OR. (PWETLBDAS_MAX/=XWETLBDAS_MAX) .OR. &
(PWETLBDAH_MIN/=XWETLBDAH_MIN) .OR. (PWETLBDAS_MIN/=XWETLBDAS_MIN) .OR. &
(PFDINFTY/=ZFDINFTY) ) THEN
CALL RZCOLX ( IND, XALPHAH, XNUH, XALPHAS, XNUS, &
ZEHS, XBS, XCH, XDH, XCS, XDS, &
XWETLBDAH_MAX, XWETLBDAS_MAX, XWETLBDAH_MIN, XWETLBDAS_MIN, &
ZFDINFTY, XKER_SWETH )
WRITE(UNIT=KLUOUT,FMT='("*****************************************")')
WRITE(UNIT=KLUOUT,FMT='("**** UPDATE NEW SET OF SWETH KERNELS ****")')
WRITE(UNIT=KLUOUT,FMT='("*****************************************")')
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("KND=",I3)') IND
WRITE(UNIT=KLUOUT,FMT='("KWETLBDAH=",I3)') NWETLBDAH
WRITE(UNIT=KLUOUT,FMT='("KWETLBDAS=",I3)') NWETLBDAS
WRITE(UNIT=KLUOUT,FMT='("PALPHAH=",E13.6)') XALPHAH
WRITE(UNIT=KLUOUT,FMT='("PNUH=",E13.6)') XNUH
WRITE(UNIT=KLUOUT,FMT='("PALPHAS=",E13.6)') XALPHAS
WRITE(UNIT=KLUOUT,FMT='("PNUS=",E13.6)') XNUS
WRITE(UNIT=KLUOUT,FMT='("PEHS=",E13.6)') ZEHS
WRITE(UNIT=KLUOUT,FMT='("PBS=",E13.6)') XBS
WRITE(UNIT=KLUOUT,FMT='("PCH=",E13.6)') XCH
WRITE(UNIT=KLUOUT,FMT='("PDH=",E13.6)') XDH
WRITE(UNIT=KLUOUT,FMT='("PCS=",E13.6)') XCS
WRITE(UNIT=KLUOUT,FMT='("PDS=",E13.6)') XDS
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAH_MAX=",E13.6)') &
XWETLBDAH_MAX
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAS_MAX=",E13.6)') &
XWETLBDAS_MAX
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAH_MIN=",E13.6)') &
XWETLBDAH_MIN
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAS_MIN=",E13.6)') &
XWETLBDAS_MIN
WRITE(UNIT=KLUOUT,FMT='("PFDINFTY=",E13.6)') ZFDINFTY
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("IF( PRESENT(PKER_SWETH) ) THEN")')
DO J1 = 1 , NWETLBDAH
DO J2 = 1 , NWETLBDAS
WRITE(UNIT=KLUOUT,FMT='("PKER_SWETH(",I3,",",I3,") = ",E13.6)') &
J1,J2,XKER_SWETH(J1,J2)
END DO
END DO
WRITE(UNIT=KLUOUT,FMT='("END IF")')
ELSE
CALL READ_XKER_SWETH (KWETLBDAH,KWETLBDAS,KND, &
PALPHAH,PNUH,PALPHAS,PNUS,PEHS,PBS,PCH,PDH,PCS,PDS, &
PWETLBDAH_MAX,PWETLBDAS_MAX,PWETLBDAH_MIN,PWETLBDAS_MIN, &
PFDINFTY,XKER_SWETH )
WRITE(UNIT=KLUOUT,FMT='(" Read XKER_SWETH")')
END IF
!
!
IND = 50 ! Number of interval used to integrate the dimensional
ZEHG = 1.0 ! distributions when computing the kernel XKER_GWETH
ZFDINFTY = 20.0
!
IF( .NOT.ALLOCATED(XKER_GWETH) ) ALLOCATE( XKER_GWETH(NWETLBDAH,NWETLBDAG) )
!
CALL READ_XKER_GWETH (KWETLBDAH,KWETLBDAG,KND, &
PALPHAH,PNUH,PALPHAG,PNUG,PEHG,PBG,PCH,PDH,PCG,PDG, &
PWETLBDAH_MAX,PWETLBDAG_MAX,PWETLBDAH_MIN,PWETLBDAG_MIN, &
PFDINFTY )
IF( (KWETLBDAH/=NWETLBDAH) .OR. (KWETLBDAG/=NWETLBDAG) .OR. (KND/=IND) .OR. &
(PALPHAH/=XALPHAH) .OR. (PNUH/=XNUH) .OR. &
(PALPHAG/=XALPHAG) .OR. (PNUG/=XNUG) .OR. &
(PEHG/=ZEHG) .OR. (PBG/=XBG) .OR. &
(PCH/=XCH) .OR. (PDH/=XDH) .OR. (PCG/=XCG) .OR. (PDG/=XDG) .OR. &
(PWETLBDAH_MAX/=XWETLBDAH_MAX) .OR. (PWETLBDAG_MAX/=XWETLBDAG_MAX) .OR. &
(PWETLBDAH_MIN/=XWETLBDAH_MIN) .OR. (PWETLBDAG_MIN/=XWETLBDAG_MIN) .OR. &
(PFDINFTY/=ZFDINFTY) ) THEN
CALL RZCOLX ( IND, XALPHAH, XNUH, XALPHAG, XNUG, &
ZEHG, XBG, XCH, XDH, XCG, XDG, &
XWETLBDAH_MAX, XWETLBDAG_MAX, XWETLBDAH_MIN, XWETLBDAG_MIN, &
ZFDINFTY, XKER_GWETH )
WRITE(UNIT=KLUOUT,FMT='("*****************************************")')
WRITE(UNIT=KLUOUT,FMT='("**** UPDATE NEW SET OF GWETH KERNELS ****")')
WRITE(UNIT=KLUOUT,FMT='("*****************************************")')
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("KND=",I3)') IND
WRITE(UNIT=KLUOUT,FMT='("KWETLBDAH=",I3)') NWETLBDAH
WRITE(UNIT=KLUOUT,FMT='("KWETLBDAG=",I3)') NWETLBDAG
WRITE(UNIT=KLUOUT,FMT='("PALPHAH=",E13.6)') XALPHAH
WRITE(UNIT=KLUOUT,FMT='("PNUH=",E13.6)') XNUH
WRITE(UNIT=KLUOUT,FMT='("PALPHAG=",E13.6)') XALPHAG
WRITE(UNIT=KLUOUT,FMT='("PNUG=",E13.6)') XNUG
WRITE(UNIT=KLUOUT,FMT='("PEHG=",E13.6)') ZEHG
WRITE(UNIT=KLUOUT,FMT='("PBG=",E13.6)') XBG
WRITE(UNIT=KLUOUT,FMT='("PCH=",E13.6)') XCH
WRITE(UNIT=KLUOUT,FMT='("PDH=",E13.6)') XDH
WRITE(UNIT=KLUOUT,FMT='("PCG=",E13.6)') XCG
WRITE(UNIT=KLUOUT,FMT='("PDG=",E13.6)') XDG
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAH_MAX=",E13.6)') &
XWETLBDAH_MAX
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAG_MAX=",E13.6)') &
XWETLBDAG_MAX
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAH_MIN=",E13.6)') &
XWETLBDAH_MIN
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAG_MIN=",E13.6)') &
XWETLBDAG_MIN
WRITE(UNIT=KLUOUT,FMT='("PFDINFTY=",E13.6)') ZFDINFTY
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("IF( PRESENT(PKER_GWETH) ) THEN")')
DO J1 = 1 , NWETLBDAH
DO J2 = 1 , NWETLBDAG
WRITE(UNIT=KLUOUT,FMT='("PKER_GWETH(",I3,",",I3,") = ",E13.6)') &
J1,J2,XKER_GWETH(J1,J2)
END DO
END DO
WRITE(UNIT=KLUOUT,FMT='("END IF")')
ELSE
CALL READ_XKER_GWETH (KWETLBDAH,KWETLBDAG,KND, &
PALPHAH,PNUH,PALPHAG,PNUG,PEHG,PBG,PCH,PDH,PCG,PDG, &
PWETLBDAH_MAX,PWETLBDAG_MAX,PWETLBDAH_MIN,PWETLBDAG_MIN, &
PFDINFTY,XKER_GWETH )
WRITE(UNIT=KLUOUT,FMT='(" Read XKER_GWETH")')
END IF
!
!
IND = 50 ! Number of interval used to integrate the dimensional
ZEHR = 1.0 ! distributions when computing the kernel XKER_RWETH
ZFDINFTY = 20.0
!
IF( .NOT.ALLOCATED(XKER_RWETH) ) ALLOCATE( XKER_RWETH(NWETLBDAH,NWETLBDAR) )
!
CALL READ_XKER_RWETH (KWETLBDAH,KWETLBDAR,KND, &
PALPHAH,PNUH,PALPHAR,PNUR,PEHR,PBR,PCH,PDH,PCR,PDR, &
PWETLBDAH_MAX,PWETLBDAR_MAX,PWETLBDAH_MIN,PWETLBDAR_MIN, &
PFDINFTY )
IF( (KWETLBDAH/=NWETLBDAH) .OR. (KWETLBDAR/=NWETLBDAR) .OR. (KND/=IND) .OR. &
(PALPHAH/=XALPHAH) .OR. (PNUH/=XNUH) .OR. &
(PALPHAR/=XALPHAR) .OR. (PNUR/=XNUR) .OR. &
(PEHR/=ZEHR) .OR. (PBR/=XBR) .OR. &
(PCH/=XCH) .OR. (PDH/=XDH) .OR. (PCR/=XCR) .OR. (PDR/=XDR) .OR. &
(PWETLBDAH_MAX/=XWETLBDAH_MAX) .OR. (PWETLBDAR_MAX/=XWETLBDAR_MAX) .OR. &
(PWETLBDAH_MIN/=XWETLBDAH_MIN) .OR. (PWETLBDAR_MIN/=XWETLBDAR_MIN) .OR. &
(PFDINFTY/=ZFDINFTY) ) THEN
CALL RZCOLX ( IND, XALPHAH, XNUH, XALPHAR, XNUR, &
ZEHR, XBR, XCH, XDH, XCR, XDR, &
XWETLBDAH_MAX, XWETLBDAR_MAX, XWETLBDAH_MIN, XWETLBDAR_MIN, &
ZFDINFTY, XKER_RWETH )
WRITE(UNIT=KLUOUT,FMT='("*****************************************")')
WRITE(UNIT=KLUOUT,FMT='("**** UPDATE NEW SET OF RWETH KERNELS ****")')
WRITE(UNIT=KLUOUT,FMT='("*****************************************")')
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("KND=",I3)') IND
WRITE(UNIT=KLUOUT,FMT='("KWETLBDAH=",I3)') NWETLBDAH
WRITE(UNIT=KLUOUT,FMT='("KWETLBDAR=",I3)') NWETLBDAR
WRITE(UNIT=KLUOUT,FMT='("PALPHAH=",E13.6)') XALPHAH
WRITE(UNIT=KLUOUT,FMT='("PNUH=",E13.6)') XNUH
WRITE(UNIT=KLUOUT,FMT='("PALPHAR=",E13.6)') XALPHAR
WRITE(UNIT=KLUOUT,FMT='("PNUR=",E13.6)') XNUR
WRITE(UNIT=KLUOUT,FMT='("PEHR=",E13.6)') ZEHR
WRITE(UNIT=KLUOUT,FMT='("PBR=",E13.6)') XBR
WRITE(UNIT=KLUOUT,FMT='("PCH=",E13.6)') XCH
WRITE(UNIT=KLUOUT,FMT='("PDH=",E13.6)') XDH
WRITE(UNIT=KLUOUT,FMT='("PCR=",E13.6)') XCR
WRITE(UNIT=KLUOUT,FMT='("PDR=",E13.6)') XDR
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAH_MAX=",E13.6)') &
XWETLBDAH_MAX
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAR_MAX=",E13.6)') &
XWETLBDAR_MAX
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAH_MIN=",E13.6)') &
XWETLBDAH_MIN
WRITE(UNIT=KLUOUT,FMT='("PWETLBDAR_MIN=",E13.6)') &
XWETLBDAR_MIN
WRITE(UNIT=KLUOUT,FMT='("PFDINFTY=",E13.6)') ZFDINFTY
WRITE(UNIT=KLUOUT,FMT='("!")')
WRITE(UNIT=KLUOUT,FMT='("IF( PRESENT(PKER_RWETH) ) THEN")')
DO J1 = 1 , NWETLBDAH
DO J2 = 1 , NWETLBDAR
WRITE(UNIT=KLUOUT,FMT='("PKER_RWETH(",I3,",",I3,") = ",E13.6)') &
J1,J2,XKER_RWETH(J1,J2)
END DO
END DO
WRITE(UNIT=KLUOUT,FMT='("END IF")')
ELSE
CALL READ_XKER_RWETH (KWETLBDAH,KWETLBDAR,KND, &
PALPHAH,PNUH,PALPHAR,PNUR,PEHR,PBR,PCH,PDH,PCR,PDR, &
PWETLBDAH_MAX,PWETLBDAR_MAX,PWETLBDAH_MIN,PWETLBDAR_MIN, &
PFDINFTY,XKER_RWETH )
WRITE(UNIT=KLUOUT,FMT='(" Read XKER_RWETH")')
END IF
!
!
!-------------------------------------------------------------------------------
!
!* 10. SOME PRINTS FOR CONTROL
! -----------------------
!
!
GFLAG = .TRUE.
IF (GFLAG) THEN
WRITE(UNIT=KLUOUT,FMT='(" Summary of the ice particule characteristics")')
WRITE(UNIT=KLUOUT,FMT='(" PRISTINE ICE")')
WRITE(UNIT=KLUOUT,FMT='(" masse: A=",E13.6," B=",E13.6)') &
XAI,XBI
WRITE(UNIT=KLUOUT,FMT='(" vitesse: C=",E13.6," D=",E13.6)') &
XC_I,XDI
WRITE(UNIT=KLUOUT,FMT='(" distribution:AL=",E13.6,"NU=",E13.6)') &
XALPHAI,XNUI
WRITE(UNIT=KLUOUT,FMT='(" SNOW")')
WRITE(UNIT=KLUOUT,FMT='(" masse: A=",E13.6," B=",E13.6)') &
XAS,XBS
WRITE(UNIT=KLUOUT,FMT='(" vitesse: C=",E13.6," D=",E13.6)') &
XCS,XDS
WRITE(UNIT=KLUOUT,FMT='(" concentration:CC=",E13.6," x=",E13.6)') &
XCCS,XCXS
WRITE(UNIT=KLUOUT,FMT='(" distribution:AL=",E13.6,"NU=",E13.6)') &
XALPHAS,XNUS
WRITE(UNIT=KLUOUT,FMT='(" GRAUPEL")')
WRITE(UNIT=KLUOUT,FMT='(" masse: A=",E13.6," B=",E13.6)') &
XAG,XBG
WRITE(UNIT=KLUOUT,FMT='(" vitesse: C=",E13.6," D=",E13.6)') &
XCG,XDG
WRITE(UNIT=KLUOUT,FMT='(" concentration:CC=",E13.6," x=",E13.6)') &
XCCG,XCXG
WRITE(UNIT=KLUOUT,FMT='(" distribution:AL=",E13.6,"NU=",E13.6)') &
XALPHAG,XNUG
WRITE(UNIT=KLUOUT,FMT='(" HAIL")')
WRITE(UNIT=KLUOUT,FMT='(" masse: A=",E13.6," B=",E13.6)') &
XAH,XBH
WRITE(UNIT=KLUOUT,FMT='(" vitesse: C=",E13.6," D=",E13.6)') &
XCH,XDH
WRITE(UNIT=KLUOUT,FMT='(" concentration:CC=",E13.6," x=",E13.6)') &
XCCH,XCXH
WRITE(UNIT=KLUOUT,FMT='(" distribution:AL=",E13.6,"NU=",E13.6)') &
XALPHAH,XNUH
END IF
IF (LHOOK) CALL DR_HOOK('INI_RAIN_ICE',1,ZHOOK_HANDLE)
CONTAINS
!
!------------------------------------------------------------------------------
!
FUNCTION MOMG(PALPHA,PNU,PP) RESULT (PMOMG)
!
! auxiliary routine used to compute the Pth moment order of the generalized
! gamma law
!
USE MODI_GAMMA
!
IMPLICIT NONE
!
REAL :: PALPHA ! first shape parameter of the dimensionnal distribution
REAL :: PNU ! second shape parameter of the dimensionnal distribution
REAL :: PP ! order of the moment
REAL :: PMOMG ! result: moment of order ZP
!
!------------------------------------------------------------------------------
!
!
PMOMG = GAMMA(PNU+PP/PALPHA)/GAMMA(PNU)
!
END FUNCTION MOMG
!
!-------------------------------------------------------------------------------
!
!
END SUBROUTINE INI_RAIN_ICE