module radinc_h implicit none include "bands.h" include "scatterers.h" !====================================================================== ! ! RADINC.H ! ! Includes for the radiation code; RADIATION LAYERS, LEVELS, ! number of spectral intervals. . . ! !====================================================================== ! RADIATION parameters ! In radiation code, layer 1 corresponds to the stratosphere. Level ! 1 is the top of the stratosphere. The dummy layer is at the same ! temperature as the (vertically isothermal) stratosphere, and ! any time it is explicitly needed, the appropriate quantities will ! be dealt with (aka "top". . .) ! L_NLEVRAD corresponds to the surface - i.e., the GCM Level that ! is at the surface. PLEV(L_NLEVRAD) = P(J,I)+PTROP, ! PLEV(2) = PTROP, PLEV(1) = ptop ! L_NLAYRAD is the number of radiation code layers ! L_NLEVRAD is the number of radiation code levels. Level N is the ! top of layer N. ! ! L_NSPECTI is the number of IR spectral intervals ! L_NSPECTV is the number of Visual(or Solar) spectral intervals ! L_NGAUSS is the number of Gauss points for K-coefficients ! GAUSS POINT 17 (aka the last one) is the special case ! ! L_NPREF is the number of reference pressures that the ! k-coefficients are calculated on ! L_PINT is the number of Lagrange interpolated reference ! pressures for the gas k-coefficients - now for a ! smaller p-grid than before ! L_NTREF is the number of reference temperatures for the ! k-coefficients ! L_TAUMAX is the largest optical depth - larger ones are set ! to this value ! ! L_REFVAR The number of different mixing ratio values for ! the k-coefficients. Variable component of the mixture ! can in princple be anything: currently it's H2O. ! ! NAERKIND The number of radiatively active aerosol types ! ! NSIZEMAX The maximum number of aerosol particle sizes ! !---------------------------------------------------------------------- integer,save :: L_NLAYRAD ! = nbp_lev ! set by ini_radinc_h integer,save :: L_LEVELS ! = 2*(nbp_lev-1)+3 ! set by ini_radinc_h integer,save :: L_NLEVRAD ! = nbp_lev+1 ! set by ini_radinc_h !$OMP THREADPRIVATE(L_NLAYRAD,L_LEVELS,L_NLEVRAD) ! These are set in sugas_corrk ! [uses allocatable arrays] -- AS 12/2011 integer :: L_NPREF, L_NTREF, L_REFVAR, L_PINT, L_NGAUSS !L_NPREF, L_NTREF, L_REFVAR, L_PINT, L_NGAUSS read by master in sugas_corrk integer, parameter :: L_NSPECTI = NBinfrared integer, parameter :: L_NSPECTV = NBvisible ! integer, parameter :: NAERKIND = 2 ! set in scatterers.h real, parameter :: L_TAUMAX = 35 ! For Planck function integration: ! equivalent temperatures are 1/NTfac of these values integer, parameter :: NTstar = 500 integer, parameter :: NTstop = 15000 ! new default for all non hot Jupiter runs real*8, parameter :: NTfac = 1.0D+1 !integer, parameter :: NTstar = 1000 !integer, parameter :: NTstop = 25000 !real*8,parameter :: NTfac = 5.0D+1 !integer, parameter :: NTstar = 2000 !integer, parameter :: NTstop = 50000 !real*8,parameter :: NTfac = 1.0D+2 ! Maximum number of grain size classes for aerosol convolution: ! This must correspond to size of largest dataset used for aerosol ! optical properties in datagcm folder. integer, parameter :: nsizemax = 60 character(len=100),save :: corrkdir !$OMP THREADPRIVATE(corrkdir) character(len=100),save :: banddir !$OMP THREADPRIVATE(banddir) contains subroutine ini_radinc_h(nbp_lev) ! Initialize module variables implicit none integer,intent(in) :: nbp_lev L_NLAYRAD = nbp_lev L_LEVELS = 2*(nbp_lev-1)+3 L_NLEVRAD = nbp_lev+1 end subroutine end module radinc_h