Optical and electrical measurements of a novel dielectric barrier discharge system exhibiting species gain

K. Arshak, I. Guiney, E. Forde
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Abstract

Summary form only given. In this paper, optical and electrical measurements of a novel multi-electrode dielectric barrier discharge (DBD) plasma system exhibiting active species gain are performed. This gain in species density is accomplished by arranging four electrode pairs vertically and forcing compressed air through their volumes. This forces the filamentary striations together through lateral pressure, thus aiding in the formation of an extremely dense plasma. The multi-electrode system operates in an effective feed-forward mechanism to create a denser plasma than reported previously. By increasing the initial conditions for oxygen metastables and radicals and other reactive species at each electrode pair, the overall density is increased also for successive electrode pairs. Optical measurements are performed by means of a photomultiplier tube with a quartz window (electron tubes module P30232-07) in order to analyse the deep UV region of the spectrum accurately. These are taken at each of the four electrode stages and at the output of the system. The copious quantities of ozone produced in this DBD plasma are evident from focusing in on the 250-260 nm regime and analysing the associated optical emissions. In addition, the electrical measurements from the quad IGBTs acting as the drive circuitry are analysed and drive circuitry is outlined to create as noiseless an environment as possible. Results indicate that the optical emission around the 250 nm mark throughout the system increases thus showing the increase in the concentration of species with this characteristic wavelength from one plasma volume to the next. The output of the system shows a high density of these species, gradually diminishing as diffusion takes over. The need for compressed air is additionally highlighted by the individual DBD striations being clearly visible when it is not applied. This results in little or no species gain as no accelerant exists in the system. This research has enormous potential in industrial applications due to the high concentration of ozone produced coupled with the prospective in-line set-up of the system.
一种新型介质阻挡放电系统的光学和电学测量
只提供摘要形式。本文对具有活性物质增益的新型多电极介质阻挡放电(DBD)等离子体系统进行了光学和电学测量。这种物种密度的增加是通过垂直排列四对电极并迫使压缩空气通过它们的体积来完成的。这通过侧向压力迫使丝状条纹聚集在一起,从而有助于形成极其致密的等离子体。多电极系统在一个有效的前馈机制中运行,以产生比以前报道的更密集的等离子体。通过增加每对电极上氧亚稳态和自由基以及其他活性物质的初始条件,也增加了连续电极对的总密度。光学测量是通过带有石英窗的光电倍增管(电子管模块P30232-07)进行的,以便准确地分析光谱的深紫外区域。这些是在每四个电极阶段和系统的输出。通过聚焦于250-260 nm波段并分析相关的光学发射,可以明显看出DBD等离子体中产生的大量臭氧。此外,对作为驱动电路的四igbt的电气测量进行了分析,并概述了驱动电路,以创建尽可能无噪声的环境。结果表明,整个系统中250 nm附近的光发射增加,从而表明具有该特征波长的物质浓度从一个等离子体体积到下一个等离子体体积增加。系统的输出显示出这些物种的高密度,随着扩散接管逐渐减少。当不使用压缩空气时,单个DBD条纹清晰可见,这进一步强调了对压缩空气的需求。由于系统中不存在促进剂,这导致很少或根本没有物种增益。这项研究在工业应用中具有巨大的潜力,因为产生高浓度的臭氧,加上系统的预期在线设置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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