Influence of gas heating and product molecules on discharge characteristics in dry-air-fed ozonizer

2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2013-10-01 DOI:10.1109/CEIDP.2013.6747067

Yoichi Inada, K. Kijima, Takao Matsumoto, Y. Izawa, K. Nishijima

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引用次数: 4

Abstract

Influences of gas heating and product molecules on discharge characteristics in dry-air-fed ozonizer was investigated. Especially, the dependence of gas temperature in streamer channel on occurrence frequency of streamer discharge was investigated in detail. In the experiment, repetitive positive or negative impulse streamer was generated respectively between needle-plane electrodes in synthetic air at atmospheric pressure. The repetition rate of the applied pulse voltage was controlled from 0.1 to 7.0 kilo-pulse/sec (kpps). The temperature of streamer channel was estimated from the emission spectrum of N2 2nd positive system band (0-0). As a result, the gas temperature increased with increasing the pulse repetition rate in both polarities. In the case of positive polarity, the gas temperature increased from 341 to 383 K in response to the increase of repetition rate (0.1 to 6.0 kpps). Eventually, sparkover occurred at 7.0 kpps due to the increase of reduced electric field (E/N) caused by gas heating. The product ozone concentration was saturated with increasing the pulse repetition.

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气体加热和产物分子对干式臭氧发生器排放特性的影响

研究了气体加热和产物分子对干式空气臭氧发生器排放特性的影响。重点研究了流道内气体温度与流道放电发生频率的关系。实验中，在常压合成空气中，针面电极之间分别产生重复的正、负脉冲流。施加脉冲电压的重复频率控制在0.1 ~ 7.0千脉冲/秒(kpps)。根据N2第2正体系波段(0-0)的发射光谱估计了流光通道的温度。结果表明，气体温度随脉冲重复频率的增加而升高。在正极性情况下，随着重复速率的增加(0.1 ~ 6.0 kpps)，气体温度从341 K升高到383 K。最终在7.0 kpps发生了火花，这是由于气体加热引起的还原电场(E/N)的增加。随着脉冲重复次数的增加，产物臭氧浓度趋于饱和。

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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2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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