首页> 外文会议>Electrical Insulation Conference >Analysis of Internal Pyrolysis Characteristics of Crosslinked Polyethylene Cable

【24h】

Analysis of Internal Pyrolysis Characteristics of Crosslinked Polyethylene Cable

机译：交联聚乙烯电缆内部热解特性分析

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Cable faults usually cause the core temperature to rise, and the insulation material will be pyrolyzed to produce gas. In this paper, a series of simulation experiments of overheating fault in XLPE cable are carried out, and the effects of temperature and time on the decomposition characteristics of insulating materials are analyzed. It was found that under internal overheating conditions, XLPE cables would pyrolyze to produce more than ten kinds of gases, such as C2H4, 2-C4H8, C2H6, C3H6, $C$3H8, CH3Cl and C2H8Cl. Combining the application scenario and the chemical properties of decomposed gases, C2H4 and 2-C4H8 are proposed as characteristic gases to identify the early overheating faults in XLPE cables. This paper presents the feasibility of applying decomposition gas method to on-line monitoring of XLPE cable faults.

机译：电缆故障通常会导致芯线温度升高，绝缘材料将被热解产生气体。本文进行了一系列XLPE电缆过热故障的仿真实验，并分析了温度和时间对绝缘材料分解特性的影响。发现在内部过热条件下，XLPE电缆会热解产生十多种气体，例如C 2 H 4 ，2-C 4 H 8 ， C 2 H 6 ， C 3 H 6 ， $ C $ 3 H 8 ，CH 3 Cl和C 2 H 8 Cl。结合使用场景和分解气体的化学性质，C 2 H 4 和2-C 4 H 8 提出将其作为特征气体来识别XLPE电缆中的早期过热故障。本文介绍了将分解气体法应用于XLPE电缆故障在线监测的可行性。

著录项

来源
《Electrical Insulation Conference》|2020年|498-503|共6页
会议地点
作者
Liujie Wan; Guoqiang Zhang; Yikun Zhao; Mingyue Zhao; Zhenghai Liao;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Power cables; Gases; Power cable insulation; Temperature measurement; Monitoring; Conductors;

机译：电力电缆;气体;电力电缆绝缘;温度测量;监测;导体;

相似文献

外文文献
中文文献
专利

1. Analysis of failure of crosslinked polyethylene cables because of electrical treeing: A physicochemical approach [J] . Sarathi R., Das S., Kumar CRA., Journal of Applied Polymer Science . 2004,第4期

机译：电树引起的交联聚乙烯电缆故障分析：一种物理化学方法
2. Analysis of failure of crosslinked polyethylene cables because of electrical treeing: A physicochemical approach [J] . Sarathi R., Das S., Kumar CRA., Journal of Applied Polymer Science . 2004,第4期

机译：电树引起的交联聚乙烯电缆故障分析：一种物理化学方法
3. Research on the discharge characteristics for water tree in crosslinked polyethylene cable based on plasma-chemical model [J] . Yang Fan, Yang Qi, Gao Bing, Physics of plasmas . 2018,第3期

机译：基于等离子体 - 化学模型的交联聚乙烯电缆水树排放特性研究
4. Life modeling analysis of Silane crosslinked polyethylene cables for nuclear applications [C] . Simone Vincenzo Suraci, Davide Fabiani IEEE International Conference on Dielectrics . 2020

机译：核应用硅烷交联聚乙烯电缆的寿命模型分析
5. Statistical approach for predicting remaining life of crosslinked polyethylene insulated cables. [D] . Luitel, Mahesh. 2005

机译：预测交联聚乙烯绝缘电缆剩余寿命的统计方法。
6. Controlling Factors of Degassing in Crosslinked Polyethylene Insulated Cables [O] . Dong Joon Youn, Jingfa Li, Sara Livazovic, 2019

机译：交联聚乙烯绝缘电缆脱气的控制因素
7. Study on Pyrolysis Characteristics of Cross-linked Polyethylene Material Cable [O] . Mo Shan-jun, Zhang Jun, Liang Dong, 2013

机译：交联聚乙烯材料电缆的热解特性研究
8. Effect of Processing Conditions on the Reliability of Crosslinked Polyethylene Cable Insulation. Final Report [R] . Phillips, P. J. 1984

机译：加工条件对交联聚乙烯电缆绝缘可靠性的影响。总结报告

Analysis of Internal Pyrolysis Characteristics of Crosslinked Polyethylene Cable

摘要

著录项

相似文献

相关主题

期刊订阅