摘要
针对治理大气中有害物质挥发性有机物(VOCs),阐述并归纳了吸附、冷凝、燃烧、光催化等现有处理技术中的工艺特点,介绍了目前典型技术中极具有研究前景及应用价值的低温等离子体净化技术的工艺原理及研究进展,综述了低温等离子体催化协同技术的催化剂分类及放置方式,重点突出催化协同对处理效果的优化作用,指出了今后低温等离子体催化协同处理挥发性有机物的可能发展方向。
For the treatment of harmful substances volatile organic compounds(VOCs)in the atmosphere,the process characteristics of existing treatment technologies such as adsorption,condensation,combustion,photocatalysis,etc.are described and summarized,and the process principles and research progress of non-thermal plasma purification technology with great research prospects and application value in typical technologies are introduced.The classification and placement of catalysts for non-thermal plasma catalytic synergistic technology are reviewed,with emphasis on the optimization of catalytic synergy on the treatment effect,and the possible development direction of non-thermal plasma catalytic synergistic treatment of volatile organic compounds in the future is pointed out.
作者
夏诗杨
米俊锋
杜胜男
邵长军
XIA Shi-yang;MI Jun-feng;DU Sheng-nan;SHAO Chang-jun(College of Petroleum Engineering,Liaoning Petrochemical University,Fushun 113001,China;Shenyang Keruier Technology Co.,Ltd.,Shenyang 110000,China)
出处
《应用化工》
CAS
CSCD
北大核心
2021年第4期1130-1135,共6页
Applied Chemical Industry
关键词
低温等离子体
挥发性有机物
催化剂
催化
优化
non-thermal plasma
volatile organic compounds
catalyst
catalysis
optimization
