Model Predictions of Latitude-Dependent Ozone Depletion Due to Supersonic Transport Operations

Model Predictions of Latitude-Dependent Ozone Depletion Due to Supersonic Transport Operations

Results are presented from a two-dimensional model of the stratosphere that simulates the seasonal movement of ozone by both wind and eddy transport, and contains all the chemistry known to be important. The calculated reductions in ozone due to NO2 injection from a fleet of supersonic transports ar...

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Veröffentlicht in:AIAA (Am. Inst. Aeronaut. Astronaut.) J.; (United States) 1976-12, Vol.14 (12), p.1738-1745
Hauptverfasser: Borucki, W.J., Whitten, R.C., Watson, V.R., Woodward, H.T., Riegel, C.A., Capone, L.A., Becker, T.
Format: Artikel
Sprache:eng
Schlagworte:
330701 - Emission Control- Nitrogen Oxides
ADVANCED PROPULSION SYSTEMS
AIR POLLUTION
AIR TRANSPORT
AIRCRAFT
CHALCOGENIDES
CURRENTS
EDDY CURRENTS
ELECTRIC CURRENTS
Environment Pollution
ENVIRONMENTAL EFFECTS
EXHAUST GASES
GASEOUS WASTES
MATHEMATICAL MODELS
NITROGEN COMPOUNDS
NITROGEN DIOXIDE
NITROGEN OXIDES
OXIDES
OXYGEN COMPOUNDS
OZONE
POLLUTION
SUPERSONIC TRANSPORT
TRANSPORT
TWO-DIMENSIONAL CALCULATIONS
WASTES
WIND
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Beschreibung
Zusammenfassung:Results are presented from a two-dimensional model of the stratosphere that simulates the seasonal movement of ozone by both wind and eddy transport, and contains all the chemistry known to be important. The calculated reductions in ozone due to NO2 injection from a fleet of supersonic transports are compared with the zonally averaged results of a three-dimensional model for a similar episode of injection. The agreement is good in the northern hemisphere, but is not as good in the southern hemisphere. Both sets of calculations show a strong corridor effect in that the predicted ozone depletions are largest to the north of the flight corridor for aircraft operating in the northern hemisphere.
ISSN:0001-1452
1533-385X
DOI:10.2514/3.61514