Analysis of nitro- and oxy-PAH emissions from a pilot scale silicon process with flue gas recirculation†

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Kamilla Arnesen, Vegar Andersen, Katarina Jakovljevic, Ellen Katrin Enge, Heiko Gaertner, Thor Anders Aarhaug, Kristian Etienne Einarsrud and Gabriella Tranell
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Abstract

Silicon alloys are produced by carbothermic reduction of quartz in a submerged arc furnace. This high-temperature pyrolytic process is a source of polycyclic aromatic hydrocarbons (PAHs), which are a group of aromatic organic molecules with known mutagenic and carcinogenic properties. In this study, the emission of oxy- and nitro-PAHs from a pilot-scale Si furnace, with varying process conditions such as oxygen level, flue gas recirculation (FGR), and off-gas flow, was investigated. Analysis shows the presence of both oxy- and nitro-PAH species in all experiments, believed to be formed from radical-induced substitution reactions initiated by SiO combustion and NOx formation. During Si production without FGR, the levels of oxy- and nitro-PAHs range between 1.1 and 4.4 μg Nm−3, independent of the flue gas flow rate. With increasing FGR (0–82.5%) and decreasing oxygen level (20.7–13.3%), the concentrations of both oxy- and nitro-PAHs increase to 36.6 and 65.9 μg Nm−3, respectively. When the levels of substituted PAHs increase, species such as 4-nitropyrene and 1,2-benzanthraquinone are in abundance compared to their parent PAHs. Experiments at lower flue gas flow (500 Nm3 h−1versus 1000 Nm3 h−1) generally produce less substituted PAHs, as well as SiO2 particulate matter and NOx, where the latter two parameters have a 99% correlation in this study.

Abstract Image

Abstract Image

带烟气再循环的中试规模硅工艺的硝基和氧-PAH 排放分析
硅合金是通过在浸没式电弧炉中对石英进行碳热还原生产出来的。这种高温热解过程是多环芳烃(PAHs)的一个来源,多环芳烃是一组芳香族有机分子,具有已知的致突变和致癌特性。本研究调查了中试规模 Si 炉在不同工艺条件(如氧气水平、烟气再循环(FGR)和废气流)下的氧和硝基多环芳烃排放情况。分析表明,在所有实验中都存在氧和硝基-PAH 物种,据信它们是由氧化硅燃烧和氮氧化物形成引发的自由基诱导取代反应形成的。在无 FGR 的硅生产过程中,氧和硝基-PAHs 的水平在 1.1 至 4.4 μg Nm-3 之间,与烟气流速无关。随着 FGR 的增加(0-82.5%)和氧气水平的降低(20.7-13.3%),氧和硝基-PAHs 的浓度分别增加到 36.6 和 65.9 μg Nm-3。当取代的 PAHs 水平增加时,4-硝基芘和 1,2-苯并蒽醌等种类的含量会高于其母体 PAHs。在较低烟气流量(500 Nm3 h-1 与 1000 Nm3 h-1)下进行的实验通常会产生较少的替代 PAHs,以及 SiO2 颗粒物质和 NOx,其中后两个参数在本研究中的相关性为 99%。
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CiteScore
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