北极对流层高层和中层气溶胶硅及其相关元素

Shao-Meng Li , J.W Winchester
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引用次数: 11

摘要

在1986年4月2日至15日AGASP-II的6次飞行中,从大约1300-8100米的高度,分离的气溶胶样品中测量到的最丰富的元素是硅、氯和硫。空气动力直径0.0625 μm的超细颗粒物浓度高于地面(G),特别是在最高海拔(HT, 5600-8100 m,对流层上层至平流层下层)高于对流层中层(MT, 1300-4700 m)。HT和MT中位浓度和G平均浓度分别为μm−3 STP (1) Si = 3.64, 1.30, 0.092;(2) s = 1.44, 0.265, 0.087;(3) Cl = 1.62, 0.36, 0.213。Al/Si的重量比小于地壳物质(0.3)的一半,证明细硅主要来自火山碎屑或其他风成尘埃颗粒的分散。相反,来自高阶煤(主要是烟煤)燃烧的污染更可能是北极大气中明显广泛的气溶胶硅污染的来源,这种污染可以从灰中的石英和低Al/Si比的细碱性气溶胶中形成SiO蒸汽。氯和硫气体可能被粗碱性粉尘颗粒清除,酸性氯和硫可能来自煤炭燃烧过程,因此也说明了它们的高浓度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aerosol silicon and associated elements in the arctic high and mid-troposphere

In six aircraft flights of AGASP-II, 2–15 April 1986, from ca. 1300–8100 m altitude, the most abundant elements measured in size separated aerosol samples were silicon, chlorine, and sulfur. Concentrations were higher than at ground level (G), particularly at highest altitudes (HT, 5600–8100 m, upper troposphere to lower stratosphere) compared to mid troposphere (MT, 1300–4700 m), especially for ultrafine particles <0.0625 μm aerodynamic diameter. HT and MT median and G average concentrations, μm−3 STP, respectively (1) Si = 3.64, 1.30, 0.092; (2) S = 1.44, 0.265, 0.087; (3) Cl = 1.62, 0.36, 0.213. The weight ratio Al/Si was less than half that expected for Earth crust material (0.3), evidence against fine silicon originating mainly by dispersion of volcanic debris or other eolian dust particles. Instead, pollution from high rank (mainly bituminous) coal combustion, which can form SiO vapors from quartz in the ash and fine alkaline aerosol with low Al/Si ratio, is a more likely source of apparently widespread aerosol silicon contamination of the Arctic atmosphere. Chlorine and sulfur gases may be scavenged by coarse alkaline dust particles and acidic chlorine and sulfur may be derived from coal combustion processes, thus also accounting for their high concentrations.

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