微秒脉冲激励的大气压氦等离子体射流放电特性北大核心CSCD

研究了不同电极结构以及放电参数对微秒脉冲激励的氦等离子体射流放电特性的影响。实验中采用不同管内径、不同电极形状、不同重复频率等参数,通过采集放电阶段的电流电压图、发光图像以及发射光谱等,对等离子体射流的电学特性和光学特性进行诊断。实验结果表明,随着管内直径的增大,氦等离子体射流的长度减小;管内径为8mm时,等离子体射流的击穿电压与放电电流最小,同时,其发射光谱中第二正带系N2,N+2和O等高能活性粒子的强度最高;管内径为5mm的等离子体射流的放电电流、功率及消耗的能量最大;在相同实验条件下,针尖电极结构中的放电电流、消耗的功率还有发射光谱强度都较大;随着重复频率的增加,氦等离子体射流的长度会增加,但击穿电压减小。

Characterization of atmospheric pressure helium plasma jet driven by microsecond pulse

In this paper, a microsecond pulse driven helium plasma jet was well characterized by different electrode configurations and discharge parameters. The influence of dielectric material diameter (3 mm, 5 mm and 8 mm), different electrode configuration and frequencies on the discharge properties and optical emissions were studied. The results showed that the length of plasma jet plume reduced when dielectric material diameter was increased. The breakdown voltage and discharge current were the smallest with a diameter of 8 mm, while the intensities of N2, N+2, O and OH species reached their peaks. The discharge current, consume power and energy were the highest when the diameter was 5 mm. Whats more, larger discharge current, consume power and emission intensity were observed with sharp tip needle electrode configuration. Higher pulse repetition frequency led to lower breakdown voltage and longer length.