! Configuration namelists for ECRAD radiation code ! ! The following namelist controls the behaviour of the driver routine, ! including parallelization options and overriding numbers read from ! the NetCDF input file ! &radiation_driver do_parallel = true, ! Use OpenMP parallelization? nblocksize = 8, ! Number of columns to process per thread ! Verbosity level: 0=none, 1=warning, 2=info, 3=progress, 4=detailed, 5=debug iverbose = 5, fractional_std=0.75, ! (-) vertically constant fractional standard deviation of in-cloud liquid water [0, 3] *0.75* overlap_decorr_length=2000, ! (m) vertically constant overlap decorrelation length [0, 5000] *2000* ! following Hogan and Illingworth 2000, if overlap_scheme_name=="Exp-Ran" ! Ctrue(i,j) = a*Cmax(i,j) + (1-a)*Crand(i,j) ; a = exp(DZ(i,j)/overlap_decorr_length) high_inv_effective_size = 0.0001 ! (m-1) override input profile [e-6, e-3] *e-4* middle_inv_effective_size = 0.0001 ! (m-1) override input profile [e-6, e-3] *e-4* low_inv_effective_size = 0.005 ! (m-1) override input profile [e-5, e-2] *e-3* effective_size_scaling = 1.0, ! (-) scale effective size !sw_albedo = 0.2, ! (-) override shortwave albedo, no default [0,1] !lw_emissivity = 1.0, ! (-) override longwave emissivity, no default [0,1] q_liquid_scaling = 1., ! (-) scale liquid water content input profile q_ice_scaling = 1., ! (-) scale ice water content input profile cloud_fraction_scaling = 1., ! (-) scale cloud fraction input profile overlap_decorr_length_scaling=1., ! (-) scale overlap decorrelation length !skin_temperature = 294.2, ! (K) override skin temperature from input file, no default !cos_solar_zenith_angle = .5, ! (-) override cos solar zenith angle from input file, no default !solar_irradiance_override= 1368.143, ! (Wm-2) override total solar irradiance, default value is 1366.0 / ! ! The following namelist controls the behaviour of the ECRAD ! radiation code (default values in **) ! &radiation do_lw = true, do_sw_direct = true, do_3d_effects = true, ! Represent 3D effects? do_lw_side_emissivity = true, do_3d_lw_multilayer_effects = true, directory_name = "data", ! Location of configuration files ! directory_name = "../../data", ! Location of configuration files liquid_model_name = "SOCRATES", ! Liquid droplet scattering model: "Monochromatic", "HuStamnes", *"SOCRATES"*, "Slingo" ice_model_name = "Fu-IFS", ! Ice particle scattering model: "Monochromatic", "Fu-PSRAD", "Fu-IFS", *"Baran"*, "Baran2016", "Baran2017", "Yi" cloud_pdf_shape_name = "Gamma", ! To describe liquid water horizontal distribution: *"Gamma"*, "Lognormal" sw_solver_name = "SPARTACUS", ! Solver: "Homogeneous", *"McICA"*, "SPARTACUS", "Tripleclouds" lw_solver_name = "SPARTACUS", ! enable 3D effects sw_encroachment_name = "Computed", ! "Maximum" = old behaviour (also "Minimum"/*"Computed"*) overlap_scheme_name = "Exp-Ran", ! Cloud overlap: *"Exp-Ran"*, "Max-Ran", "Exp-Exp" overhead_sun_factor = 0.06, do_lw_cloud_scattering = true, ! Clouds scatter in the longwave? do_lw_aerosol_scattering= true, ! Aerosols scatter in the longwave? cloud_inhom_decorr_scaling = 0.5, do_save_radiative_properties = false, ! Save raw radiation properties in radiative_properties.nc? ! Verbosity level: 0=none, 1=warning, 2=info, 3=progress, 4=detailed, 5=debug iverbose = 1, use_aerosols = false, ! Include aerosols in radiation calculations? n_aerosol_types = 12, do_save_spectral_flux = false, ! Save spectral fluxes in output file? do_save_gpoint_flux = false, ! Save fluxes per g-point in output file? gas_model_name = "RRTMG-IFS", ! Gas model: "Monochromatic", *"RRTMG-IFS"*, "RRTMG-PSRAD" /