Simplified Modeling of Tropospheric Ozone Formation Considering Alternative Fuels Using

Simplified Modeling of Tropospheric Ozone Formation Considering Alternative Fuels Using

Brazilian cities have been constantly exposed to air quality episodes of high ozone concentrations (O3 ). Known for not be emitted directly into the environment, O3 is a result of several chemical reactions of other pollutants emitted to atmosphere. The growth of vehicle fleet and government incenti...

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Bibliographic Details
Published in:Anuário do Instituto de Geociências Vol. 37; no. 2; pp. 151 - 160
Main Authors: SILVA, L. A. F., GUERRERO, J. S. P., PIMENTEL, L. C. G.
Format: Journal Article
Language:English
Published: Universidade Federal do Rio de Janeiro 28-11-2014
Subjects:
alternative fuels
tropospheric ozone
VOC
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Summary:Brazilian cities have been constantly exposed to air quality episodes of high ozone concentrations (O3 ). Known for not be emitted directly into the environment, O3 is a result of several chemical reactions of other pollutants emitted to atmosphere. The growth of vehicle fleet and government incentives for using alternative fuels like ethanol and Compressed Natural Gas (CNG) are changing the Brazilian Metropolitan Areas in terms of acetaldehyde and formaldehyde emissions, Volatile Organic Compounds (VOC's) present in the atmosphere and known to act on the kinetics of ozone. Driven by high concentrations of tropospheric ozone in urban/industry centers and its implications for environment and population health, the target of this work is understand the kinetics of ozone formation through the creation of a mathematical model in FORTRAN 90, describing a system of coupled ordinary differential equations able to represent a simplified mechanism of photochemical reactions in the Brazilian Metropolitan Area. Evaluating the concentration results of each pollutant were possible to observe the precursor’s influence on tropospheric ozone formation, which seasons were more conducive to this one and which are the influences of weather conditions on formation of photochemical smog.
ISSN:0101-9759
1982-3908
DOI:10.11137/2014_2_151_160