Abstract
Two dimensional transient zonally averaged model was used for the evaluation of the effect of subsonic aircraft exhausts upon the ozone, trace gases and radiation in the troposphere and lower stratosphere. The mesoscale transformation of gas composition was included on the base of the box model simulations. It has been found that the transformation of the exhausted gases in sub-grid scale is able to influence the results of the modelling. The radiative forcing caused by gas, sulfate aerosol, soot and contrails changes was estimated as big as 0.12-0.15 W/m{sup 2} (0.08 W/m{sup 2} globally and annually averaged). (author) 10 refs.
Rozanov, E;
Zubov, V;
Egorova, T;
Ozolin, Y
[1]
- Main Geophysical Observatory, St.Petersburg (Russian Federation)
Citation Formats
Rozanov, E, Zubov, V, Egorova, T, and Ozolin, Y.
The model evaluation of subsonic aircraft effect on the ozone and radiative forcing.
France: N. p.,
1997.
Web.
Rozanov, E, Zubov, V, Egorova, T, & Ozolin, Y.
The model evaluation of subsonic aircraft effect on the ozone and radiative forcing.
France.
Rozanov, E, Zubov, V, Egorova, T, and Ozolin, Y.
1997.
"The model evaluation of subsonic aircraft effect on the ozone and radiative forcing."
France.
@misc{etde_623639,
title = {The model evaluation of subsonic aircraft effect on the ozone and radiative forcing}
author = {Rozanov, E, Zubov, V, Egorova, T, and Ozolin, Y}
abstractNote = {Two dimensional transient zonally averaged model was used for the evaluation of the effect of subsonic aircraft exhausts upon the ozone, trace gases and radiation in the troposphere and lower stratosphere. The mesoscale transformation of gas composition was included on the base of the box model simulations. It has been found that the transformation of the exhausted gases in sub-grid scale is able to influence the results of the modelling. The radiative forcing caused by gas, sulfate aerosol, soot and contrails changes was estimated as big as 0.12-0.15 W/m{sup 2} (0.08 W/m{sup 2} globally and annually averaged). (author) 10 refs.}
place = {France}
year = {1997}
month = {Dec}
}
title = {The model evaluation of subsonic aircraft effect on the ozone and radiative forcing}
author = {Rozanov, E, Zubov, V, Egorova, T, and Ozolin, Y}
abstractNote = {Two dimensional transient zonally averaged model was used for the evaluation of the effect of subsonic aircraft exhausts upon the ozone, trace gases and radiation in the troposphere and lower stratosphere. The mesoscale transformation of gas composition was included on the base of the box model simulations. It has been found that the transformation of the exhausted gases in sub-grid scale is able to influence the results of the modelling. The radiative forcing caused by gas, sulfate aerosol, soot and contrails changes was estimated as big as 0.12-0.15 W/m{sup 2} (0.08 W/m{sup 2} globally and annually averaged). (author) 10 refs.}
place = {France}
year = {1997}
month = {Dec}
}