美国东南部具有代表性燃料床的模拟野火和预设火灾产生的生物质燃烧气溶胶的光学特性

Zachary C. McQueen, Ryan P. Poland, Chase K. Glenn, Omar El Hajj, Robert Penland, Anita Anosike, Kruthika V. Kumar, Joseph J. O’Brien, Rawad Saleh and Geoffrey D. Smith*, 
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引用次数: 0

摘要

我们报告了对美国东南部三个生态区域(皮德蒙特、沿海平原和蓝岭山脉)燃料床燃烧产生的生物质燃烧气溶胶的吸收Ångström 指数(AAE)和单散射反照率(SSA)的测量结果,这些燃料床的含水量代表了野火和规定火灾的含水量。我们发现,在模拟野火(燃料湿度较低)和明火(燃料湿度较高)时,AAE 和 SSA 之间都存在很强的相关性。就野火而言,AAE 和 SSA 与燃料床的生态区域密切相关,其范围(AAE = 1.3-4.2,SSA = 0.75-0.97)远大于明火(AAE = 2.4-3.1,SSA = 0.88-0.96)。研究还发现,野火和明火的 AAE 和 SSA 与元素碳占总碳的比例(fEC)相关,但从燃料床观察到的 fEC 范围(0.02-0.14)远小于之前使用单种燃料进行实验室研究的结果。本研究的观察结果表明,燃料层的成分和水分含量是决定生物质燃烧气溶胶中有机物质相对含量的重要因素,因此也是决定其光学特性的重要因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Optical Properties of Biomass Burning Aerosols from Simulated Wildfires and Prescribed Fires with Representative Fuel Beds from the Southeast United States

Optical Properties of Biomass Burning Aerosols from Simulated Wildfires and Prescribed Fires with Representative Fuel Beds from the Southeast United States

We report measurements of the absorption Ångström exponent (AAE) and single scattering albedo (SSA) of biomass burning aerosol from the combustion of fuel beds representing three eco-regions of the Southeast U.S. (Piedmont, Coastal Plain, and Blue Ridge Mountains) with moisture content representative of wildfires and prescribed fires. We find a strong correlation between the AAE and SSA for both simulated wildfires (low fuel moisture) and prescribed fires (higher fuel moisture). For wildfires, the AAE and SSA are strongly dependent on the eco-region of the fuel bed and span a much wider range (AAE = 1.3–4.2, SSA = 0.75–0.97) than they do for prescribed fires (AAE = 2.4–3.1, SSA = 0.88–0.96). The AAE and SSA are also found to be correlated with the fraction of total carbon that is elemental carbon (fEC) for both wildfires and prescribed fires, but the range of fEC observed (0.02–0.14) from the fuel beds is much smaller than that reported previously from laboratory studies using individual fuels. The observations from the present study suggest that fuel-bed composition and moisture content are significant factors in determining the relative amount of organic material in biomass burning aerosols and, consequentially, their optical properties.

This work investigates how fuel-bed composition and moisture content influence combustion conditions and the corresponding optical properties of the biomass burning aerosols generated.

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