!
!##################################################################
!##################################################################
!###### ######
!###### SUBROUTINE PCP_MXR ######
!###### ######
!###### Developed by ######
!###### Center for Analysis and Prediction of Storms ######
!###### University of Oklahoma ######
!###### ######
!##################################################################
!##################################################################
!
!
SUBROUTINE pcp_mxr (nx,ny,nz,t_3d,p_3d ,ref_3d & 1
,cldpcp_type_3d &
,qr_3d,qs_3d,qh_3d,istatus )
!
!-----------------------------------------------------------------------
!
! PURPOSE:
!
! Perform 3D precipitation mixing ratio (in g/kg) analysis using
! radar reflectivity data. For rain water, using Kessler (1969)
! formula:
! qr(g/kg) = a*(rho*arg)**b (1)
!
! Here arg = Z (mm**6/m**3), and dBZ = 10log10 (arg).
! Coeffcients a=17300.0, and b=7/4.
! rho represents the air density.
!
! For snow and hail, using Rogers and Yau (1989) formula:
!
! qs(g/kg) = c*(rho*arg)**d (2)
!
! where, c=38000.0, d=2.2
!
!
!-----------------------------------------------------------------------
!
! AUTHOR: (Jian Zhang)
! 06/13/96
!
! MODIFICATION HISTORY:
! 07/30/97 (J. Zhang)
! Added precipitation type in the argument list so that
! mixing ratios of different precip. types can be computed.
! 09/04/97 (J. Zhang)
! Changed the radar echo thresholds for inserting precip.
! from radar reflectivities.
!
!-----------------------------------------------------------------------
!
!-----------------------------------------------------------------------
!
! Variable Declarations.
!
!-----------------------------------------------------------------------
!
IMPLICIT NONE
!
!-----------------------------------------------------------------------
!
! INPUT:
INTEGER :: nx,ny,nz ! Model grid size
!
REAL :: ref_3d(nx,ny,nz) ! radar reflectivity (dBZ)
REAL :: t_3d(nx,ny,nz) ! Temperature (deg. Kelvin)
REAL :: p_3d(nx,ny,nz) ! Pressure (Pascal)
INTEGER*2 cldpcp_type_3d(nx,ny,nz) ! cloud/precip type field
!
! OUTPUT:
INTEGER :: istatus
!
REAL :: qr_3d(nx,ny,nz) ! rain mixing ratio in (g/kg)
REAL :: qs_3d(nx,ny,nz) ! snow/sleet/frz-rain mixing ratio
! in (g/kg)
REAL :: qh_3d(nx,ny,nz) ! hail mixing ratio in (g/kg)
!
! LOCAL:
REAL :: a,b,c,d ! Coef. for Z-qr relation.
PARAMETER (a=17300.0, b=7.0/4.0)
PARAMETER (c=38000.0, d=2.2)
REAL :: rair ! Gas constant (J/deg/kg)
PARAMETER (rair = 287.04)
REAL :: thresh_ref
PARAMETER (thresh_ref = 0.0)
INTEGER :: pcptype
!
!-----------------------------------------------------------------------
!
! Misc local variables
!
!-----------------------------------------------------------------------
!
INTEGER :: i,j,k, iarg
REAL :: arg,rhobar,br,dr
PARAMETER (br=1.0/b, dr=1.0/d)
!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
! Beginning of executable code...
!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
!
!-----------------------------------------------------------------------
!
istatus=0
!
!-----------------------------------------------------------------------
!
! Compute the precip mixing ratio in g/kg from radar reflectivity
! factor following Kessler (1969) or Rogers and Yau (1989).
!
!-----------------------------------------------------------------------
!
DO k = 1,nz-1
DO j = 1,ny-1
DO i = 1,nx-1
IF (ref_3d(i,j,k) >= thresh_ref) THEN ! valid radar refl.
rhobar = p_3d(i,j,k)/rair/t_3d(i,j,k)
arg = 10.0**(0.1*ref_3d(i,j,k))
iarg = cldpcp_type_3d(i,j,k)
pcptype = iarg/16 ! precip. type
IF (pcptype == 0) THEN ! no precip
PRINT*,'+++ NOTE: radar echo though no precip. +++'
ELSE IF (pcptype == 1.OR.pcptype == 3) THEN ! rain or Z R
qr_3d(i,j,k) = (arg/a)**br/rhobar
ELSE IF (pcptype == 2) THEN ! snow
qs_3d(i,j,k) = (arg/c)**dr/rhobar
ELSE IF (pcptype == 4.OR.pcptype == 5) THEN ! hail or sleet
qh_3d(i,j,k) = (arg/c)**dr/rhobar
ELSE ! unknown
PRINT*,'+++ NOTE: unknown precip type. +++'
END IF
ELSE
qr_3d(i,j,k) = 0.
qs_3d(i,j,k) = 0.
qh_3d(i,j,k) = 0.
END IF
END DO ! k
END DO ! i
END DO ! j
!
!-----------------------------------------------------------------------
!
istatus = 1
!
RETURN
END SUBROUTINE pcp_mxr