Over Thermal Decomposition Characteristics of Environmental Insulating Medium $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ at Different Concentrations

2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE) Pub Date : 2020-09-06 DOI:10.1109/ICHVE49031.2020.9279989

Y. Miao, Zhaofeng Wan, F. Zeng, Q. Yao

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Abstract

$\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ gas insulating medium has received universal attention by electrical industry for its superior environmental and insulating characteristics. As to the industrial application of $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$, due to the limit of saturated vapor pressure characteristic, it must be applied mixed with background gases in order to remain gaseous state in normal temperature, so its necessary to research how the ratio of $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ and background gas influence the physical, chemical and insulating properties. If different ratios of $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ itself can remain stable under long term over thermal failure is a significant factor of the industrial application. In this paper, we apply systematic researches on the existing gas insulating partial over thermal experimental platform, figure out the decomposition characteristics of 2%, 5% and 8% $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ with background gas He under several hours of highest temperature of $500^{\circ}\mathrm{C}$. Then a quantitative detection of the concentration changes of seven decomposition products is done, before analysis of their generation patterns. At last, we process the data and obtain total decomposition product and the proportion of total decomposition product, to characterize the thermal stability and degree of decomposition under different ratios. The production amount and gas production rate of each product vary differently with $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ ratio, but the proportion of total decomposition product reaches the peak when $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ is 5%, which means it has the worst thermal stability. The research results of this paper have laid a foundation for the industrial application of $\mathrm{C}_{5}\mathrm{F}_{10}\mathrm{O}$ gas.

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不同浓度环境绝缘介质$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$的过热分解特性

$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$气体绝缘介质以其优越的环保和绝缘特性受到电气工业的普遍重视。在工业应用中，由于饱和蒸汽压特性的限制，为了在常温下保持气态，必须与背景气体混合使用，因此有必要研究$\math {C}_{5}\math {F}_{10}\math {O}$与背景气体的比例对其物理、化学和绝缘性能的影响。如果不同比例的$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$本身能长期保持稳定，是工业应用失效的重要因素。本文在现有的气体绝缘局部过热实验平台上进行了系统的研究，得出了2%、5%和8%的$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$与背景气体He在最高温度$500^{\circ}\ mathm {C}$几个小时的分解特性。然后定量检测了7种分解产物的浓度变化，分析了它们的生成规律。最后对数据进行处理，得到总分解产物和总分解产物的比例，表征不同比例下的热稳定性和分解程度。各产物的产气量和产气率随$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$比值的变化而不同，但当$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$比值为5%时，总分解产物所占比例达到峰值，热稳定性最差。本文的研究成果为$\ mathm {C}_{5}\ mathm {F}_{10}\ mathm {O}$ gas的工业应用奠定了基础。

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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2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE)

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