! WRF:MODEL_LAYER:PHYSICS ! ! Lightning flash rate prediction based on cloud-top height. Implemented ! for models using convective parameterization. Assume use of sub-grid LNB. ! ! Price, C., and D. Rind (1992), A Simple Lightning Parameterization for Calculating ! Global Lightning Distributions, J. Geophys. Res., 97(D9), 9919-9933, doi:10.1029/92JD00719. ! ! Wong, J., M. Barth, and D. Noone (2012), Evaluating a Lightning Parameterization ! at Resolutions with Partially-Resolved Convection, GMDD, in preparation. ! ! Contact: J. Wong ! !********************************************************************** MODULE module_ltng_cpmpr92z CONTAINS SUBROUTINE ltng_cpmpr92z ( & ! Frequently used prognostics dx, dy, xland, ht, z, t, & ! Scheme specific prognostics kLNB, & ! Scheme specific namelist inputs cldtop_adjustment, & ! Order dependent args for domain, mem, and tile dims ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & ips, ipe, jps, jpe, kps, kpe, & ! Mandatory output for all quantitative schemes total_flashrate & ) !----------------------------------------------------------------- ! Framework USE module_state_description ! Model layer USE module_model_constants USE module_wrf_error IMPLICIT NONE !----------------------------------------------------------------- ! Frequently used prognostics REAL, INTENT(IN ) :: dx, dy REAL, DIMENSION( ims:ime, jms:jme ), INTENT(IN ) :: xland, ht REAL, DIMENSION( ims:ime, kms:kme, jms:jme ), INTENT(IN ) :: z, t ! Scheme specific prognostics INTEGER, DIMENSION( ims:ime, jms:jme ), INTENT(IN ) :: kLNB ! model LNB from cu_physics ! Scheme specific namelist inputs REAL, INTENT(IN ) :: cldtop_adjustment ! Order dependent args for domain, mem, and tile dims INTEGER, INTENT(IN ) :: ids,ide, jds,jde, kds,kde INTEGER, INTENT(IN ) :: ims,ime, jms,jme, kms,kme INTEGER, INTENT(IN ) :: ips,ipe, jps,jpe, kps,kpe ! Mandatory outputs for all quantitative schemes REAL, DIMENSION( ims:ime, jms:jme ), INTENT( OUT) :: total_flashrate ! Local variables REAL :: dA ! grid area dx*dy in km2 REAL :: zkm ! AGL z in km REAL, PARAMETER:: baseArea=1296. ! base-case area, dx = 36 km INTEGER :: i,k,j CHARACTER (LEN=250) :: message !----------------------------------------------------------------- dA = dx*dy/1E6 total_flashrate( ips:ipe,jps:jpe ) = 0. ! Compute AGL heights in km jloop: DO j=jps,jpe iloop: DO i=ips,ipe IF ( t(i,kLNB(i,j),j) .lt. 273.15 .and. & kLNB(i,j) .ge. kps .and. kLNB(i,j) .le. kpe ) THEN ! Cloud top must freeze zkm = ( z(i,kLNB(i,j),j) - ht(i,j) )/1E3 + cldtop_adjustment ! Compute AGL height in km IF ( zkm .gt. 0. ) THEN ! Must be above ground IF ( xland(i,j) .lt. 1.5 ) THEN total_flashrate(i,j) = 3.44E-5 * (zkm**4.9) /60. ! Continental equation ELSE total_flashrate(i,j) = 6.57E-6 * (zkm**4.9) /60. ! Marine equation (Michalon 99) ENDIF ENDIF ENDIF ENDDO iloop ENDDO jloop ! Scale by areal ratio total_flashrate(ips:ipe,jps:jpe) = total_flashrate(ips:ipe,jps:jpe) * dA/baseArea END SUBROUTINE ltng_cpmpr92z END MODULE module_ltng_cpmpr92z