化工进展 ›› 2022, Vol. 41 ›› Issue (2): 1054-1062.DOI: 10.16085/j.issn.1000-6613.2021-0542

• 资源与环境化工 • 上一篇    下一篇

微波诱导活性炭激发等离子体射流脱硝实验

杨广东(), 苏林, 邹志雪, 姜涛()   

  1. 东北大学冶金学院,辽宁 沈阳 110819
  • 收稿日期:2020-03-17 修回日期:2021-06-22 出版日期:2022-02-05 发布日期:2022-02-23
  • 通讯作者: 姜涛
  • 作者简介:杨广东(1991—),男,硕士研究生,研究方向为烟气净化。E-mail:1051402920@qq.com
  • 基金资助:
    国家自然科学基金(51574082)

Experimental study on denitrification with microwave induced activated carbon excited plasma jet

YANG Guangdong(), SU Lin, ZOU Zhixue, JIANG Tao()   

  1. School of Metallurgy, Northeastern University, Shenyang 110819, Liaoning, China
  • Received:2020-03-17 Revised:2021-06-22 Online:2022-02-05 Published:2022-02-23
  • Contact: JIANG Tao

摘要:

微波等离子体直接分解NO有极高的效率,但在有氧条件下分解较难。为解决这一问题,本文提出了一种利用微波诱导活性炭激发等离子体射流在有氧条件下脱硝的新技术。利用微波材料学工作站,通过调整激发等离子体参数(活性炭直径、活性炭质量、微波功率)得到了最佳工艺条件,深入分析了等离子体射流形成过程,并将其用于脱硝实验,研究了不同形态等离子体、NO初始浓度和O2浓度因素对脱硝的影响。结果表明,以1L/min氮气作载气时,在活性炭直径2mm、质量15g、微波功率2kW条件下,可快速产生等离子体射流且持续时间长久。等离子体用于脱硝实验,射流状等离子体脱硝效率高于闪电状等离子体。NO依次在活性炭床层区和等离子体射流区去除。当O2体积分数小于4%时,O2浓度的增加对NO的脱除有促进作用;大于4%时,O2浓度的增加会产生过量的氧自由基(·O)和大量的CO2,对NO的脱除产生抑制作用。

关键词: 微波等离子体射流, 活性炭, 脱硝, 还原, 选择性

Abstract:

Decomposition of NO with microwave plasma has a very high efficiency, but it is difficult to remove NOx in the presence of oxygen. In order to solve this problem, a new denitration technology using microwave-induced plasma emission jet with the activated carbon and under aerobic condition was put forward. In a microwave tube furnace, the best denitration conditions were obtained by adjusting the diameter and amounts of activated carbon, and microwave power. Then the process mechanism was analyzed in-depth. The effects of initial concentrations of NO and O2 on denitration by plasma jet were also studied. When nitrogen was used as carrier gas with a flow of 1L/min, the diameter of activated carbon was 2mm, the mass of activated carbon was 15g and the microwave power was 2kW, the plasma jet could be generated quickly and held for a long time. In the experiments with plasma jet, the denitration efficiency of jet plasma was higher than that of lightning plasma. NO was removed in the activated carbon bed zone and plasma jet zone successively. When the concentration of O2 was less than 4%, the increase of O2 concentration promoted the removal of NO. When the concentration of O2 was greater than 4%, the free radicals (·O) and a large amount of CO2 from excessive oxygen inhibited the removal of NO.

Key words: microwave plasma jet, activated carbon, denitration, reduction, selectivity

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