等离子体级联固体废物对柴油废气中NO2的可能吸附

Apoorva Sahu, Shivani Mishra, Preeti Jain, Bangalore S. Rajanikanth
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引用次数: 0

摘要

化石燃料的广泛使用导致环境中固体和气体颗粒物的增加,这反过来又需要更新、有效和经济的控制策略来减少污染物,特别是气体污染物。在目前的研究工作中,重点是利用工业废物吸附柴油机排气中存在的氮氧化物,并对其进行等离子体预处理。将5kW柴油发电机的取样排气暴露于放电等离子体中,在等离子体中发生一氧化氮氧化为二氧化氮,然后使其流过另一个反应器,该反应器充满了来自农业、铸造、公用事业、海洋工业等的工业废物,包括桑椹废物、稻壳、小麦壳、槟榔壳、甘蔗渣、咖啡壳、铸造砂,褐煤、红泥和牡蛎壳。虽然在所有废物中都观察到二氧化氮的吸附,但在基于金属化合物的工业废物中观察到一氧化氮的还原。在约184J/L下,比能等离子体级联工业废渣赤泥的NOx去除率为98%,而农业稻壳废渣的NOx去除效率为53%。工业废物中存在的TiO2/Fe2O3可能在可见光下表现出光催化作用,导致NO的可能还原。可以预期通过二氧化氮吸附回收废物的新途径,并就单独等离子体和级联等离子体吸附系统进一步讨论了结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Plasma cascaded solid wastes for possible adsorption of NO2 in diesel exhaust

Plasma cascaded solid wastes for possible adsorption of NO2 in diesel exhaust

Extensive use of fossil fuel has led to an increase in solid and gaseous particulates in the environment, which in turn necessitated newer, effective, and economical control strategies to abate pollutants, particularly gaseous pollutants. In the current research work, focus has been placed on utilizing industry wastes to adsorb nitrogen oxides present in diesel engine exhaust, which is pre-treated by plasma. Sampled exhaust from a 5 kW diesel generator is exposed to discharge plasma where the oxidation of nitric oxide to nitrogen dioxide occurs, which is then made to flow through another reactor filled with industry wastes drawn from agriculture, foundry, utility, marine industry, etc., comprising mulberry waste, rice husk, wheat husk, areca nut husk, sugarcane bagasse, coffee husk, foundry sand, lignite ash, red mud, and oyster shells. While the adsorption of nitrogen dioxide was observed in all the wastes, reduction of nitric oxide was observed in metallic compound-based industry wastes. At about 184 J/L, specific energy plasma cascaded industrial waste red mud yielded 98% NOx removal efficiency, and that with agriculture rice husk waste yielded 53% NOx removal. TiO2/Fe2O3 present in industry wastes might have exhibited photo-catalysis in visible light resulting in the possible reduction of NO. A new pathway for recycling the waste can be expected through nitrogen dioxide adsorption, and the results are further discussed with respect to plasma-alone and cascaded plasma adsorbent systems.

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