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Application of an atmospheric tracer ratio method to estimation of PM2.5 emission rates from wheat conveying operations at a wheat pile storage facility
Particulate matter (PM) pollution is associated with adverse effects on human health and the environment. There is no designated PM 2.5 emission factor for horizontal grain conveyors. Instead, in Washington state, the air permitting agency uses an emission factor for headhouse and grain handling ope...
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Published in: | Journal of the Air & Waste Management Association (1995) 2020-08, Vol.70 (8), p.810-819 |
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Main Authors: | , , |
Format: | Article |
Language: | English |
Subjects: | |
Online Access: | Get full text |
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Summary: | Particulate matter (PM) pollution is associated with adverse effects on human health and the environment. There is no designated PM
2.5
emission factor for horizontal grain conveyors. Instead, in Washington state, the air permitting agency uses an emission factor for headhouse and grain handling operations to issue permits. There is concern that this factor does not accurately represent the conveyor operations and limits the size and operation of wheat pile facilities. The primary goal of this work was to estimate the PM
2.5
emission rate (which can further be converted to an emission factor) from wheat conveying operations at a large wheat pile storage facility in eastern Washington using an atmospheric tracer ratio method, with CO
2
gas as the tracer. The field study results yield an emission rate of 5.2
1.7 grams of PM
2.5
per hour and these emissions are due to the transfer point from an upper belt to a lower belt. This rate is approximately 320 times lower than the emission rate for headhouse operations which has been used previously to represent conveyor operations. The emission rate was in relatively good agreement with results of an inverse Gaussian plume model calculation of emissions using measured ambient PM
2.5
levels at a very short distance downwind of the transfer point. A consistent PM
2.5
to tracer gas ratio over the tests showed that PM
2.5
and CO
2
disperse in a similar manner and confirmed that the CO
2
tracer release was a reliable simulation of the PM
2.5
pollutant source over distances involved in the study (less than 10 meters). The results also indicate a need for the Environmental Protection Agency to develop a designated PM
2.5
emission factor for wheat conveyance.
There are presently no emission factors available for large wheat pile storage facilities where wheat is transferred via long horizontal conveyor belts. As a result, local and state permitting agencies use emission factors for other types of grain handling systems. In this paper, we report the first measurements of PM
2.5
emission rates (that can further be converted to emission factors using a known grain rate on the conveyor) for horizontal grain conveyors used at wheat pile storage facilities. The measured emission rate is much less than the emission rate derived from the surrogate emission factor currently used for permit purposes. This has implications for the size and operation of wheat pile storage facilities. |
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ISSN: | 1096-2247 2162-2906 |
DOI: | 10.1080/10962247.2020.1776417 |