Particulate Pb emission factors from wildland fires in the United States

IF 3.8 Q2 ENVIRONMENTAL SCIENCES
Amara L. Holder , Venkatesh Rao , Kasey Kovalcik , Larry Virtaranta
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Abstract

Wildland fires, which includes both wild and prescribed fires, and agricultural fires in sum are one of the largest sources of fine particulate matter (PM2.5) emissions to the atmosphere in the United States (US). Although wildland fire PM2.5 emissions are primarily composed of carbonaceous material, many other elements including trace metals are emitted at very low levels. Lead (Pb) is a US Environmental Protection Agency (EPA) criteria pollutant that is ubiquitous in the environment at very low concentrations including in biomass that can burn and emit Pb into the atmosphere. Although fires may emit Pb at very low concentrations, they can be a source of sizeable Pb emissions to the atmosphere because of the large quantity of PM2.5 emitted from fires. In this work, we measure Pb concentrations in unburned biomass, ash/residues, and particulate matter <2.5 μm (PM2.5) emitted from wildland fires using in-field measurements near prescribed fires and in laboratory simulations. Emission factors were calculated for multiple biomass types, representative of different regions of the US including grasslands in Oregon and Kansas; forest litter from Oregon, Montana, Minnesota, and North Carolina; and peat cores from Minnesota. Most of the biomass Pb remains in the ash/residues. The small percentage (<10%) that is emitted in PM2.5 is dependent on the biomass Pb concentration. The emissions factors measured here are several orders of magnitude lower than some reported in the literature, but the studies exhibited a wide range of values, which may be due to large uncertainties in the measurement method rather than differences in Pb emissions. Wildland fires are expected to increase in size and frequency in future years and these new emission factors can be used to improve the accuracy of Pb emissions estimates and better constrain our understanding of Pb emissions to the atmosphere.

Abstract Image

美国野火的微粒铅排放因子
野火,包括野火和规定火灾,以及农业火灾,是美国大气中细颗粒物(PM2.5)排放的最大来源之一。虽然野火PM2.5的排放主要由碳质物质组成,但包括微量金属在内的许多其他元素的排放水平非常低。铅(Pb)是美国环境保护署(EPA)标准的污染物,在环境中以非常低的浓度普遍存在,包括可以燃烧并将铅排放到大气中的生物质。尽管火灾可能以极低的浓度排放铅,但由于火灾排放的大量PM2.5,它们可能成为向大气排放大量铅的来源。在这项工作中,我们使用规定火场附近的现场测量和实验室模拟测量了未燃烧的生物质、灰/残留物和野火排放的颗粒物质& 2.5 μm (PM2.5)中的铅浓度。计算了代表美国不同地区(包括俄勒冈州和堪萨斯州的草原)的多种生物质类型的排放因子;俄勒冈州、蒙大拿州、明尼苏达州和北卡罗来纳州的森林凋落物;以及来自明尼苏达州的泥炭芯。生物量Pb大部分留在灰/渣中。PM2.5中排放的小百分比(<10%)取决于生物量Pb浓度。这里测量的排放因子比一些文献报道的低几个数量级,但研究显示的数值范围很广,这可能是由于测量方法的不确定性很大,而不是由于Pb排放的差异。预计未来几年野火的规模和频率将增加,这些新的排放因子可用于提高Pb排放估算的准确性,并更好地限制我们对Pb排放到大气中的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Atmospheric Environment: X
Atmospheric Environment: X Environmental Science-Environmental Science (all)
CiteScore
8.00
自引率
0.00%
发文量
47
审稿时长
12 weeks
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