针环电极常压等离子体射流实验研究

Jinmao Li, Chun-guang Song, Rui Huang
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引用次数: 0

摘要

常压等离子体喷射技术具有非常广阔的应用前景,广泛应用于医疗、废水处理、表面改性等领域。本文采用针环放电结构在常压环境下产生氩等离子体射流。通过定量分析和对比分析,研究了针环电极间隙、石英管直径、气体流量等参数的变化对系统启动放电电压和等离子体射流长度的影响。结果表明,增大两电极间电压会增加射流长度,但在一定程度上,射流长度不会增加。随着氩气流量的逐渐增大,所需的启动放电电压和喷射长度也随之增大。然而,当气体体积流量增加到一定程度时,产生的等离子体射流将偏离石英管的中心轴线。对上述结果进行了定性解释,对大气压等离子体射流的应用具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Study of Atmospheric Pressure Plasma Jet with Needle-ring Electrodes
Atmospheric pressure plasma jet technology has very promising application prospects and is widely used in medical, wastewater treatment, surface modification, and other fields. In this paper, a needle-ring discharge structure is used to generate argon plasma jets under an atmospheric pressure environment. The effects of the variation of parameters such as needle-ring electrode gap, quartz tube diameter, and gas flow rate on the starting discharge voltage and plasma jet length of the system are studied by quantitative and comparative analyses. The results show that increasing the voltage between the two electrodes will increase the jet length, but up to a certain level, the jet length will not be increased. As the argon flow rate gradually increases, the required starting discharge voltage and jet length will also increase. However, when the gas volume flow rate increases to a certain level, the generated plasma jet will deviate from the central axis of the quartz tube. The above results are interpreted qualitatively and are considered to be of great importance for the application of atmospheric pressure plasma jets.
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