摘要
在以 γ- Al2 O3小球作为填充物的介质阻挡放电条件下 ,研究放电电压 ( 9~ 1 6k V)、交流电源频率 ( 50~ 1 60 0 Hz)、NO入口浓度 ( 50~ 1 80 0 ml/ m3)、气体空速 ( 1 0 0 0~ 650 0 h- 1 )、反应温度 ( 2 0~ 2 50℃ )、介质小球比表面积及加入 O2 等因素对 NO分解率的影响 .发现提高放电电压、放电频率及介质小球比表面积能显著增加 NO分解率 ,O2 的加入对 NO的等离子体分解有强抑制作用 .
The non thermal plasma induced decomposition of NO in N 2 in a dielectric barrier discharge reactor with γ Al 2O 3 pellet bed was investigated.The effects onto the NO decomposition of the following experimental factors were systematically examined:electrical discharge voltage(9~16kV),the frequency of the electric power supply(50~1600Hz),NO concentration in the reactant gas(50~1800ml/m 3),gas space velocity(1000~6500h -1 ),reaction temperature(20~250℃)as well as the specific surface area of the γ Al 2O 3 and the addition of O 2.It was found that raising the discharge voltage and the frequency of the electrical power supply as well as the specific surface area of γ Al 2O 3 pellets can enhance the NO decomposition efficiency.Addition of O 2 into the reactant gas dramatically inhibits the NO decomposition.
出处
《环境科学》
EI
CAS
CSCD
北大核心
2000年第5期80-82,共3页
Environmental Science
基金
国家教育部碳资源综合利用开放研究实验室资助!项目 ( 970 0 4 K)
大连理工大学国家"2 1 1工程"重点建设学科发展基金!资助项目
关键词
分解
等离子体
介质阻挡放电
氮氧化物
废气
nitrogen oxides
decomposition
plasma
dielectric barrier discharge
