电缆绝缘二次击穿引起的人孔事件

Lily Zhang, S. Boggs, S. Livanos
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引用次数: 0

摘要

公用事业公司继续经历由电引起的人孔事故。85%的人孔事故是由绝缘击穿引起的,97%的击穿发生在二次电缆绝缘上。绝大多数人孔事件只涉及烟雾,但极少数涉及更严重的现象。需要了解二次电缆绝缘击穿导致危险人孔事件的限制条件。为了解决这一问题,在模拟管道环境中对电缆二次绝缘的热分解进行了研究。在好氧和厌氧条件下均可实现持续分解。使用残余气体分析仪监测了绝缘降解的结果作为温度随氧浓度变化的函数,并使用热重分析仪测量了电缆介质的热分解速率。基于这项调查,我们正在接近了解导致严重人孔事件的限制性条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Manhole Events Caused by Secondary Cable Insulation Breakdown
Utilities continue to experience electrically induced manhole events. Eighty-five percent of manhole events are caused by insulation breakdown, and 97% of the breakdowns occur on secondary cable insulation. The vast majority of manhole events involve only smoke, but a very small minority involve more serious phenomena. The restrictive conditions under which secondary cable insulation breakdown leads to dangerous manhole events needs to be understood. To approach this issue, thermal decomposition of secondary cable insulation was investigated in a simulated duct environment. Sustained decomposition is achieved under both aerobic and anaerobic conditions. The consequences of insulation degradation as a function of temperature with varying oxygen concentration has been monitored using a residual gas analyzer, and the thermal decomposition rate of the cable dielectric has been measured using TGA. Based on this investigation, we are approaching an understanding of the restrictive conditions which lead to serious manhole events.
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