摘要
以电化学的新型形式协同Mn催化剂对石油工业中产生的挥发性有机物中代表污染物甲苯进行处理。探究低温等离子体及与催化技术结合后对甲苯去除效果的影响,甲苯的去除率以明显趋势增加,改善单一低温等离子体技术能量利用率低,能耗较大且容易产生难以控制的副产物等问题,为大气污染治理等方面提供一种新的治理手段。
Toluene as a representative contaminant in the volatile organic compounds generated in the oil industry was treated.The effect of low-temperature plasma and catalytic technology on the removal of toluene was investigated.The results showed that the removal rate of toluene increased.The problems were solved,such as low energy efficiency, large energy consumption and more uncontrolled byproducts of single low-temperature plasma technology.The paper provides a new governance tool for air pollution control and other asoeets.
作者
张茗茜
林家璇
谭明霞
李承龙
张硕
沈欣军
ZHANG Ming-qian;LIN Jia-xuan;TAN Ming-xia;LI Cheng-long;ZHANG Shuo;SHEN Xin-jun(School of Science,Shenyang University of Technology,Liaoning Shenyang 110870,China)
出处
《当代化工》
CAS
2018年第11期2439-2442,共4页
Contemporary Chemical Industry
基金
辽宁省科学事业工艺研究基金
项目号:GY-2017-0013
沈阳市科技计划项目
项目号:17-231-1-19
关键词
电化学
石油工业
催化技术
甲苯
Electrochemical
Petroleum industry
Catalytic technology
Toluene
