Research progress of pollutants removal from coal-fired flue gas using non-thermal plasma

Simultaneous removal of multi-pollutants from coal-fired power plants has drawn worldwide attention in recent years. Non-thermal plasma (NTP) flue gas cleaning technologies show good performance on SO2, NOX, and Hg0 removal and extensive studies have been carried out. This paper reviews the research...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews 2017-01, Vol.67, p.791-810
Main Authors: Ma, Siming, Zhao, Yongchun, Yang, Jianping, Zhang, Shibo, Zhang, Junying, Zheng, Chuguang
Format: Article
Language:English
Subjects:
Coal-fired flue gas
Hg0
Non-thermal plasma (NTP)
NOX
Removal
SO2
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Summary:Simultaneous removal of multi-pollutants from coal-fired power plants has drawn worldwide attention in recent years. Non-thermal plasma (NTP) flue gas cleaning technologies show good performance on SO2, NOX, and Hg0 removal and extensive studies have been carried out. This paper reviews the research progress of pollutants removal from coal-fired flue gas using non-thermal plasma. The pollutants removal mechanisms of NTP are briefly described at first. The structure features and parameter characteristics of various NTP reactors are also summarized in this paper. The experimental results of different NTP technologies such as electron beam (EB) irradiation, corona discharge, dielectric barrier discharge (DBD) are reviewed systematically and the effects of flue gas components (O2, H2O, HCl, NH3, SO2, NO, Hg0, etc) and oxidation approach on the removal of SO2, NOX, and Hg0 are discussed comprehensively and systematically. Moreover, the NTP-chemical absorption/catalyst hybrid systems for pollutants removal are involved in this paper as well. The pilot/large-scale demonstration projects of NTP technologies around the world are also summarized in this paper and the development of NTP flue gas cleaning technologies in the future are discussed as well.
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2016.09.066