Abstract
Box model for coupled gaseous and aqueous phases is used for sensitivity study of potential transformation of trace gases in a cloud environment. The rate of this transformation decreases with decreasing of pH in droplets, with decreasing of photodissociation rates inside the cloud and with increasing of the droplet size. Model calculations show the potential formation of H{sub 2}O{sub 2} in aqueous phase and transformation of gaseous HNO{sub 3} into NO{sub x} in a cloud. This model is applied for exploration of aircraft exhausts evolution in plume inside a cloud. (author) 10 refs.
Ozolin, Y E;
Karol, I L;
[1]
Ramaroson, R
[2]
- Main Geophysical Observatory, St. Petersburg (Russian Federation)
- Office National d`Etudes et de Recherches Aerospatiales (ONERA), 92 - Chatillon (France)
Citation Formats
Ozolin, Y E, Karol, I L, and Ramaroson, R.
Potential transformation of trace species including aircraft exhaust in a cloud environment. The `Chedrom model`.
France: N. p.,
1997.
Web.
Ozolin, Y E, Karol, I L, & Ramaroson, R.
Potential transformation of trace species including aircraft exhaust in a cloud environment. The `Chedrom model`.
France.
Ozolin, Y E, Karol, I L, and Ramaroson, R.
1997.
"Potential transformation of trace species including aircraft exhaust in a cloud environment. The `Chedrom model`."
France.
@misc{etde_623662,
title = {Potential transformation of trace species including aircraft exhaust in a cloud environment. The `Chedrom model`}
author = {Ozolin, Y E, Karol, I L, and Ramaroson, R}
abstractNote = {Box model for coupled gaseous and aqueous phases is used for sensitivity study of potential transformation of trace gases in a cloud environment. The rate of this transformation decreases with decreasing of pH in droplets, with decreasing of photodissociation rates inside the cloud and with increasing of the droplet size. Model calculations show the potential formation of H{sub 2}O{sub 2} in aqueous phase and transformation of gaseous HNO{sub 3} into NO{sub x} in a cloud. This model is applied for exploration of aircraft exhausts evolution in plume inside a cloud. (author) 10 refs.}
place = {France}
year = {1997}
month = {Dec}
}
title = {Potential transformation of trace species including aircraft exhaust in a cloud environment. The `Chedrom model`}
author = {Ozolin, Y E, Karol, I L, and Ramaroson, R}
abstractNote = {Box model for coupled gaseous and aqueous phases is used for sensitivity study of potential transformation of trace gases in a cloud environment. The rate of this transformation decreases with decreasing of pH in droplets, with decreasing of photodissociation rates inside the cloud and with increasing of the droplet size. Model calculations show the potential formation of H{sub 2}O{sub 2} in aqueous phase and transformation of gaseous HNO{sub 3} into NO{sub x} in a cloud. This model is applied for exploration of aircraft exhausts evolution in plume inside a cloud. (author) 10 refs.}
place = {France}
year = {1997}
month = {Dec}
}