模拟野火和明火条件下生物质燃烧产生的棕色碳排放。

ACS ES&T Air Pub Date : 2024-08-21 eCollection Date: 2024-09-13 DOI:10.1021/acsestair.4c00089
Chase K Glenn, Omar El Hajj, Zachary McQueen, Ryan P Poland, Robert Penland, Elijah T Roberts, Jonathan H Choi, Bin Bai, Nara Shin, Anita Anosike, Kruthika V Kumar, Muhammad Isa Abdurrahman, Pengfei Liu, I Jonathan Amster, Geoffrey D Smith, Steven Flanagan, Mac A Callaham, Eva L Loudermilk, Joseph J O'Brien, Rawad Saleh
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摘要

作为佐治亚州荒地-火灾模拟实验的一部分,我们研究了褐碳(BrC)的光吸收特性。我们构建了代表美国东南部三个生态区的燃料床,并改变燃料床的含水量来模拟规定火灾或干旱引起的野火。根据按燃料层质量负荷(FREnorm)归一化的火灾辐射能递减情况,将燃烧条件分为野火(Wild)、处方火(Rx)和涉及沉积物点火的野火(WildDuff)。发射的 BrC 从弱吸收(WildDuff)到中等吸收(Rx 和 Wild)不等,其折射率(k)的虚部值与 FREnorm 非常相关。我们将 BrC 分成水溶性(WSBrC)和水不溶性(WIBrC)。使用电喷雾电离质谱法检测到的 WSBrC 分子中约有一半是潜在的发色团。然而,WSBrC 的 k 比 WIBrC 的 k 小一个数量级。此外,WIBrC 的 k 与 FREnorm 关系密切,而 WSBrC 的 k 则不然,这表明 WIBrC 和 WSBrC 的形成途径不同。总之,这些结果表明了燃烧条件在决定 BrC 光吸收特性方面的重要性,并表明野外火灾中的各种变量(如含水量和燃料层成分)对 BrC 光吸收特性的影响程度与它们对燃烧条件的影响程度相同。
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Brown Carbon Emissions from Biomass Burning under Simulated Wildfire and Prescribed-Fire Conditions.

We investigated the light-absorption properties of brown carbon (BrC) as part of the Georgia Wildland-Fire Simulation Experiment. We constructed fuel beds representative of three ecoregions in the Southeastern U.S. and varied the fuel-bed moisture content to simulate either prescribed fires or drought-induced wildfires. Based on decreasing fire radiative energy normalized by fuel-bed mass loading (FREnorm), the combustion conditions were grouped into wildfire (Wild), prescribed fire (Rx), and wildfire involving duff ignition (WildDuff). The emitted BrC ranged from weakly absorbing (WildDuff) to moderately absorbing (Rx and Wild) with the imaginary part of the refractive index (k) values that were well-correlated with FREnorm. We apportioned the BrC into water-soluble (WSBrC) and water-insoluble (WIBrC). Approximately half of the WSBrC molecules detected using electrospray-ionization mass spectrometry were potential chromophores. Nevertheless, k of WSBrC was an order of magnitude smaller than k of WIBrC. Furthermore, k of WIBrC was well-correlated with FREnorm while k of WSBrC was not, suggesting different formation pathways between WIBrC and WSBrC. Overall, the results signify the importance of combustion conditions in determining BrC light-absorption properties and indicate that variables in wildland fires, such as moisture content and fuel-bed composition, impact BrC light-absorption properties to the extent that they influence combustion conditions.

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