Pressure and temperature effects on the paschen curve

E. Sili, F. Koliatene, J. Cambronne
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引用次数: 23

Abstract

In aircraft applications according to the nature of electrical equipment, its location may be in unpressurized area; thus the environment conditions may change from atmospheric pressure to less than 100 mbar, and the temperature may vary up to 180°C near the aircraft engine. Since all these parameters may affect the discharge ignition voltage, the classical paschen curve has to be replotted according to these parameters. In this paper we firstly investigated the domain of validity of two corrective expressions on the paschen's law found in the literature, in case of changing the air environment: Peek and Dunbar corrections. After that, the effect of the low pressure combined to high temperature on the breakdown voltage at the left of the Paschen minimum has been investigated. Results show two different behaviours of Paschen curve related to temperature and pressure that can be explained by the variation of the breakdown mechanisms, and supported by measuring the energy dissipated in the electric discharge by means of the Lissajous figures at different conditions. Consequently, it was demonstrated that the electrical breakdown in gases occurs due to the gas or vacuum mechanism managed by the temperature and/or the pressure.
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压力和温度对paschen曲线的影响
在飞机应用中,根据电气设备的性质,其位置可能在非增压区;因此,环境条件可能从大气压变化到低于100毫巴,飞机发动机附近的温度可能变化到180°C。由于这些参数都可能影响放电点火电压,因此必须根据这些参数重新绘制经典的paschen曲线。在本文中,我们首先研究了文献中发现的两个关于paschen定律的修正表达式的有效性领域,在改变空气环境的情况下:Peek和Dunbar修正。在此基础上,研究了低压和高温对Paschen极小值左侧击穿电压的影响。结果表明,Paschen曲线对温度和压力的两种不同行为可以用击穿机制的变化来解释,并可以用Lissajous图测量不同条件下的放电耗散能量来支持。因此,证明了气体中的电击穿是由温度和/或压力控制的气体或真空机制引起的。
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