CCPP Scientific Documentation
v4.1.0
subroutine module_radiation_aerosols::setgocartaer ( real (kind=kind_phys), dimension(:), intent(in)  alon,
real (kind=kind_phys), dimension(:), intent(in)  alat,
real (kind=kind_phys), dimension(:,:), intent(in)  prslk,
real (kind=kind_phys), dimension(:,:), intent(in)  rhlay,
real (kind=kind_phys), dimension(:,:), intent(in)  dz,
real (kind=kind_phys), dimension(:,:), intent(in)  hz,
integer, intent(in)  NSWLWBD,
real (kind=kind_phys), dimension(:,:), intent(in)  prsl,
real (kind=kind_phys), dimension(:,:), intent(in)  tvly,
real (kind=kind_phys), dimension(:,:,:), intent(in)  trcly,
integer, intent(in)  IMAX,
integer, intent(in)  NLAY,
integer, intent(in)  NLP1,
integer, intent(in)  ivflip,
logical, intent(in)  lsswr,
logical, intent(in)  lslwr,
real (kind=kind_phys), dimension(:,:,:,:), intent(out)  aerosw,
real (kind=kind_phys), dimension(:,:,:,:), intent(out)  aerolw 
)
private
Parameters
alonIMAX, longitude of given points in degree
alatIMAX, latitude of given points in degree
prslk(IMAX,NLAY), pressure in cb
rhlay(IMAX,NLAY), layer mean relative humidity
dz(IMAX,NLAY), layer thickness in m
hz(IMAX,NLP1), level high in m
NSWLWBDtotal number of sw+ir bands for aeros opt prop
prsl(IMAX,NLAY), layer mean pressure in mb
tvly(IMAX,NLAY), layer mean virtual temperature in K
trcly(IMAX,NLAY,NTRAC), layer mean specific tracer in g/g
IMAXhorizontal dimension of arrays
NLAY,NLP1vertical dimensions of arrays
ivflipcontrol flag for direction of vertical index
=0: index from toa to surface
=1: index from surface to toa
lsswr,lslwrlogical flag for sw/lw radiation calls
aerosw(IMAX,NLAY,NBDSW,NF_AESW), aeros opt properties for SW
(:,:,:,1): optical depth
(:,:,:,2): single scattering albedo
(:,:,:,3): asymmetry parameter
aerolw(IMAX,NLAY,NBDLW,NF_AELW), aeros opt properties for LW
(:,:,:,1): optical depth
(:,:,:,2): single scattering albedo
(:,:,:,3): asymmetry parameter

setgocartaer General Algorithm

  1. Call map_aermr() to map input tracer array (trcly) to local tracer array (aermr).
  2. Map geos-gocart climo (dmclmg) to gfs grids (dmclm).
  3. Call aeropt_grt() to alculate sw/lw aerosol optical properties for the corresponding frequency bands.

References aeropt_grt(), physcons::con_amd, physcons::con_rd, ctaer, dmclmg, f_one, f_zero, funcphys::fpkap(), geos_rlat, geos_rlon, get_clim, get_fcst, gocart_climo, imxg, jmxg, kmxg, lalwflg, laswflg, map_aermr(), molwgt, module_radlw_parameters::nbdlw, module_radsw_parameters::nbdsw, nlwbnd, nmxg, and psclmg.

Referenced by setaer().

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