摘要
大气压等离子体射流在不同气体环境内的维持与流动,必然导致射流工作气体与背景气体发生不同程度的混杂,从而影响等离子体射流特性。对于此问题,通过电学特性测量、发射光谱诊断等方法,比较了等离子体射流在不同气体环境下的射流形态、电学特性、放电产物,研究了空气、氮气、氩气、氦气4种背景气体对大气压氦等离子体射流特性的影响。结果显示:背景气体会介入大气压氦等离子体射流的演变过程,并导致等离子体射流特性改变;能与He发生彭宁电离的背景气体会促进大气压氦等离子体射流的发展,负电性气体和低激发态多的背景气体则会阻碍其发展;大气压氦等离子体射流若存在彭宁电离,则背景环境中稀有气体和空气等主要组成气体的电离能越高,大气压氦等离子体射流传播越远。
The maintenance and flow of the atmospheric pressure plasma jet in different kinds of gas environment will inevitably lead to different degrees of mixing of the jet working gas and the background gas, thereby affecting the plasma jet characteristics. To solve this problem, we compared the jet shape, electrical characteristics and discharge products of plasma jets under different gas environments by means of electrical characteristic measurement and emission spectrum diagnosis. Moreover, we investigated the effects of air, nitrogen, argon and helium on the jet characteristics of atmospheric pressure helium plasma. The results reveal that the background gas will intervene in the evolution of the atmospheric pressure helium plasma jet and cause the plasma jet characteristics to change;the background gas that can react with He via Penning ionization will promote the development of atmospheric pressure helium plasma jet, and electronegativity gas and low-excited background gas will hinder its development;if there is Penning ionization in the atmospheric pressure helium plasma jet, the higher the ionization energy of the main constituent gases such as rare gas and air in the back- ground environment is, the farther the atmospheric pressure He plasma jet will propagate.
作者
孙振宇
孙敏
曹慧娟
刘蕊
张芝涛
SUN Zhenyu;SUN Min;CAO Huijuan;LIU Rui;ZHANG Zhitao(School of Science, Dalian Maritime University, Dalian 116026, China;College of the Environment and Ecology, Xiamen University, Xiamen 361102, China)
出处
《高电压技术》
EI
CAS
CSCD
北大核心
2019年第10期3383-3392,共10页
High Voltage Engineering
基金
国家重大科研仪器研制项目(61427804)
辽宁省教育厅科研项目(LZ2015007)
大连市高层次人才创新支持计划项目(2016RQ040)
辽宁省重点实验室基础研究项目(LZ2015008)~~
关键词
大气压氦等离子体射流
背景气体
射流特性
发射光谱
·OH
谱线强度
atmospheric pressure helium plasma jet
background gas
plasma jet characteristic
optical emission spectra
intensity of the hydroxyl line
