PARAMETERIZATION OF THE GLOBAL AEROSOL MO DELS FOR A COMPUTATION OF RADIATIVE CHARACTERISTICS OF THE ATMOSPHERE .2. BLOCK PRINCIPLE OF THE SIMULATION, MICRO-PHYSICAL CHARACTERISTICS OF THE BLOCKS, AEROSOL MODELS, CONSTRUCTED BY THE BLOCK PRINCIPLE
Aa. Gavrilova et Ls. Ivlev, PARAMETERIZATION OF THE GLOBAL AEROSOL MO DELS FOR A COMPUTATION OF RADIATIVE CHARACTERISTICS OF THE ATMOSPHERE .2. BLOCK PRINCIPLE OF THE SIMULATION, MICRO-PHYSICAL CHARACTERISTICS OF THE BLOCKS, AEROSOL MODELS, CONSTRUCTED BY THE BLOCK PRINCIPLE, Izvestia Akademii nauk. Rossijskaa akademia nauk. Fizika atmosfery iokeana, 32(2), 1996, pp. 172-182
Micro-physical characteristics for main aerosol types in the spectral
region lambda = 0.3 - 1.0 mu m are presented. Optical characteristics
of the atmosphere (the coefficients of an extinction, scattering, abso
rption and an indicatrix of the scattering) for six models, composed f
rom these aerosol types by the block principle, are computed. The canc
ulations of the vertical profiles for an intensity and mean cosines of
the radiaton into the low and upper hemisphere are accomplished. A co
mparison of the results, obtained for the suggested models and models
MAR-1, CONT-1, URB, recommended for the radiative and climatology comp
utations, is conducted. Two cases of the orthotropic underlying surfac
e: absolutely black and strongly reflecting (snow) are considered.