Prevention Efficiencies of Woven Straw to Reduce PM sub(10) Emissions from Exposed Area

Woven straw has been demonstrated to be a cheap and effective method to prevent fugitive particular matter (PM), which is a typical air pollution source emitted from the exposed area, like farmland or a construction site. From the engineering application point of view, an approach using dimensionles...

Full description

Saved in:
Bibliographic Details
Published in:Journal of environmental engineering (New York, N.Y.) N.Y.), 2007-12, Vol.133 (12), p.1153-1161
Main Authors: Chang, Y-M, Su, K-T, Liu, C-C, Chen, S-S, Chang, C-T
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Woven straw has been demonstrated to be a cheap and effective method to prevent fugitive particular matter (PM), which is a typical air pollution source emitted from the exposed area, like farmland or a construction site. From the engineering application point of view, an approach using dimensionless analysis with a multivariable regression method based on experimental data would be worth exploring to predict the prevention efficiencies of woven straw to reduce the fugitive PM sub(10) (PM sized less than 10 mu m). A series of field-analogous experiments were carried out to continuously measure PM sub(10) using beta -attenuation particle monitors in an artificial wind tunnel system. It was found that the prevention efficiencies of woven straw to reduce PM sub(10) is significantly dependent on the coverage ratio of woven straw, and the maximum prevention efficiency of PM sub(10) is about 42%. It is emphasized that the prevention efficiency approaches zero as the coverage ratio is less than about 40%. This implies that PM sub(10) reduction was inefficient if the exposed area was not covered enough with woven straw. Another point of interest is that total elimination of PM sub(10) emission is not possible using full coverage woven straw. The effects of wind velocity, silt content, and moisture on prevention efficiency are also discussed in this paper. Correlated with major parameters, a useful equation is proposed to estimate the prevention efficiencies that would be valid under the appropriate conditions suggested by this work.
ISSN:0733-9372
DOI:10.1061/(ASCE)0733-9372(2007)133:12(1153)