Progress in degradation of volatile organic compounds based on low‐temperature plasma technology,Plasma Processes and Polymers

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Progress in degradation of volatile organic compounds based on low‐temperature plasma technology
Plasma Processes and Polymers ( IF 2.9 ) Pub Date : 2020-01-17 , DOI: 10.1002/ppap.201900131
Zhengshi Chang ₁ , Cong Wang ₁ , Guanjun Zhang ₁

Affiliation

On the basis of plasma technology, the progress of the volatile organic compounds' (VOCs') degradation by low‐temperature plasma alone is discussed first, including reactor types, influencing factors of plasma degradation of VOCs and the reaction mechanism between plasma and VOCs. Then, the research status of three VOC degradation technologies (catalysis, adsorption, and biotechnology) and their synergistic degradation of VOCs with plasma are reviewed, including the effect of catalyst position on VOC degradation, the interaction mechanism between plasma and catalyst; the factors affecting the adsorption of VOCs by carbon‐based adsorbents and zeolite, the degradation of VOCs by plasma‐assisted adsorbent; the features of different biological systems, the influencing factors of VOC degradation by the biotrickling system, and the degradation of VOCs by plasma‐assisted biotreatment. Finally, the prospects of developments in high‐tech based on plasma are discussed.

中文翻译：

低温等离子体技术降解挥发性有机化合物的研究进展

在等离子体技术的基础上，首先讨论了低温等离子体对挥发性有机化合物降解的研究进展，包括反应器类型，挥发性有机化合物等离子体降解的影响因素以及等离子体与挥发性有机化合物之间的反应机理。然后综述了三种VOC降解技术（催化，吸附和生物技术）的研究现状以及它们与等离子体协同降解VOC的情况，包括催化剂位置对VOC降解的影响，等离子体与催化剂之间的相互作用机理；影响碳基吸附剂和沸石吸附VOCs的因素，等离子体辅助吸附剂降解VOCs的因素; 不同生物系统的特征，生物滴灌系统对VOC降解的影响因素，血浆辅助生物处理可降解挥发性有机化合物。最后，讨论了基于等离子体的高科技的发展前景。

更新日期：2020-01-17

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