多,希望通过一种评估方法反映各种故障或缺陷显然不现实,因此对于电缆状态评估的方法,也往往可以将两种或更多技术结合起来,实施联合评估。如Sverre Hvidsten等【12】采用四种方法联合对7根12kV和24kV电缆进行了实验研究,这些电缆长度在60~190m之间,均取自运行电缆,并且进行了交流击穿场强和光学显微镜的研究。研究表明水树枝的长度与电缆击穿场强之间的具有较强的相关性,但是没有证据显示水树枝的密度与电缆击穿场强之间有明显的对应关系。对那些已经有管状水树枝或者蝶形水树枝并将电缆绝缘两端连通的电缆,其击穿电压是额定电压的2倍。该项目采用的四种测试方法如下:(1)等温松弛电流法(IRC);(2)回复电压法,在2U0和U0直流电压下极化后的最大回复电压之差作为非线性度的表征参数;(3)介质损耗,测试电压U0和2U0,频率0.1Hz,用介质损耗的增量表示水树枝的含量。当电缆的击穿电压下降到4U0时,介质损耗值将达到1%,而当击穿电压在5U0以上时,介质损耗达到0.1%,但介质损耗与击穿场强之间的定量关系难以建立;(4)可变频率组合评估法,测试频率范围为0.1Hz-10Hz,在 U0及以下电压测试电容和介质损耗,用U0和0.5U0间的介质损耗差值以及随频率变化的关系建立与残余击穿场强的联系。作者的研究认为必要的时候需要测量极化电流以及测量不同极化电压的IRC,另外为了从退极化电流中获取更多关于水树枝的信息,特别是非线性效应,可以将退极化电流进行傅里叶变换,转变为频域信号,从而计算介质损耗的值。
此外联合评估还有一层意义在于电缆和附件作为一个系统的联合评估。如对于带接头的电缆系统,给出了如图21所示的评估结果。从图中可以发现,带有接头的电缆,介质损耗与电压和频率具有很强的相关性。当把接头去除后,介质损耗下降到相当于中等老化电缆的值,说明接头会引入较大的介质损耗值。带有贯穿性水树枝的严重老化电缆,也会产生类似的频率相关的介质损耗特征,因此介质损耗评估方法不能够用来评估带有接头的电缆系统,因为接头引入导致介质损耗的增大,可能完全覆盖了由于水树枝引入的介质损耗的增加值,从而引起评估的误差。另外还发现【13】如果管状水树枝密度很高,几乎所有的检测技术都能够反映,而对那些绝缘中含有桥接水树枝的电缆,有必要配合极化电流加以确认,如果水树枝很少,但是管状水树枝长度很长的,状态评估的判据需要做更深入的研究。此外现场电缆的状态评估,需考虑所安装附件、空气湿度等的影响,以免影响评估的正确性。
图21 带有电缆终端的介质损耗与频率的关系
4 结论
本文分析了当前交联聚乙烯绝缘中压电缆的各种唯象老化模型,它们易于与反幂定律建立相关性,是电缆寿命预测的基础,但是物理意义不明确,难以反映到电缆状态评估中;而各种描述电缆老化的物理模型从老化过程中发生的物理或者化学现象入手,涉及了老化引起的材料的物理或者化学结构的变化,这些理化现象和理化产物是电缆状态评估的依据,但是难以与电缆的寿命预期建立联系。因此唯像和物理模型之间如何建立联系,应该是今后电缆老化模型研究的一个重要内容。另外由于目前电缆绝缘状态评估方法很多,原理不同,适用范围也不同,因此从在线和离线两个方面有代表性地介绍和分析了几种状态评估方法。针对电缆老化过程中老化产物引起介电响应的变化这个物理事实出发,较详细地介绍了基于超低频和等温松弛电流的评估方法,为相关人员提供参考。
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