The method of molecular dynamics is used to investigate the effect of
absorption of carbon and nitrogen monoxides on the spectral characteristics of a disperse aqueous
system. The absorption of CO molecules causes the reduction of the real and
imaginary parts of permittivity, and the absorption of NO molecules results in
smoothing out of the frequency dependence of these characteristics, which
corresponds to that of a system of clusters of pure water. The integral
absorptance and reflectance of IR radiation decrease after the attachment of CO
molecules to water clusters and undergo insignificant changes as a result of
absorption of NO molecules. An increase is observed in the integral power of
emission of infrared radiation by disperse aqueous systems which absorbed CO or NO molecules. The clustering of water vapor
causes an abrupt reduction of the number of scattering centers and the
anti-greenhouse effect.