Wind tunnel modeling of atmospheric emissions from agricultural burning: influence of operating configuration on flame structure and particle emission factor for a spreading-type fire

Wind tunnel modeling of atmospheric emissions from agricultural burning: influence of operating configuration on flame structure and particle emission factor for a spreading-type fire

Agricultural burning is a significant source of atmospheric pollutants throughout the world and has lately been subject to increased regulation in North America and Europe. A combustion wind tunnel having multiple operating configurations was developed to simulate field burning conditions and to pro...

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Bibliographic Details
Published in:Environmental science & technology Vol. 27; no. 9; pp. 1763 - 1775
Main Authors: Jenkins, Bryan M, Kennedy, Ian M, Turn, Scott Q, Williams, Robert B, Hall, Steven G, Teague, Stephen V, Chang, Daniel P. Y, Raabe, Otto G
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 01-09-1993
Subjects:
AIR POLLUTION
Applied sciences
Atmospheric pollution
BRULAGE
BURNING
CALIFORNIA
CALIFORNIE
CROP RESIDUES
DECHET
DESECHOS
ENSAYO
EQUIPO
Exact sciences and technology
FIELD TESTS
MATERIEL
Pollutants physicochemistry study: properties, effects, reactions, transport and distribution
Pollution
POLLUTION ATMOSPHERIQUE
POLUCION DEL AIRE
QUEMA
RESIDU DE RECOLTE
RESIDUOS DE COSECHAS
SIMULACION
SIMULATION
TESTAGE
TESTING
WASTE TREATMENT
WASTES
Suspended particle
Simulation
Wind tunnel test
Emission content
Air pollution
Wind effect
Pollutant emission
Burning
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Description
Summary:Agricultural burning is a significant source of atmospheric pollutants throughout the world and has lately been subject to increased regulation in North America and Europe. A combustion wind tunnel having multiple operating configurations was developed to simulate field burning conditions and to provide direct measurement of emission factors. Sensitivity to operating configuration was determined for total suspended particulate matter (TSP) emissions and flame structure. Flame structure was examined through measurements of local temperatures, gas concentrations, and soot volume, the latter obtained by laser-light extinction. Although the range in TSP emission factor was not large, wind speed appeared to be the dominant parameter affecting the emission of particles. Results of this study will be used to determine operating protocols for future tests investigating criteria and toxic emissions from agricultural burning.
Bibliography:9423939
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ISSN:0013-936X
1520-5851
DOI:10.1021/es00046a002