摘要
重点论述了大气压下辉光放电的研究现状、诊断方法和放电机理,探讨了大气压下空气间隙(>2mm)实现辉光放电的可行性,提出用降低放电电场强度的方法有可能实现大气压下较大空气间隙辉光放电。
This paper introduces the research states, diagnose methods and discharge mechanics of atmospheric pressure glow discharge. The possibility to achieve the glow discharge in air gap more than 2mm at atmospheric pressure is demonstrated based on a numerical simulation of an electron avalanche developing in an air gap and the experiments of creating a discharge at a low electrical strength.
出处
《电工电能新技术》
CSCD
北大核心
2005年第2期69-72,共4页
Advanced Technology of Electrical Engineering and Energy
关键词
大气压辉光放电
等离子体表面改性
工业等离子体工程
气体放电
atmospheric pressure glow discharge
surface modification by plasma
industrial plasma engineering
gas discharge