Ageing of an ADSS Cable Sheath on a 132kV Overhead Transmission Line

S. Rowland, X. Zhang, K. Kopsidas
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引用次数: 1

Abstract

All-dielectric self-supporting (ADSS) optical cables are widely used in modern power utilities to provide communication infrastructure. These are able to provide a reliable high-bandwidth network because of the physical immunity of the embedded optic fibres from their electrical environment. However, the cable sheath and strength member are not immune to the electrical environment due to induced surface currents. These currents inevitably arise as a result of capacitive coupling to the phase conductors. These low level currents can degrade the cable sheath from a hydrophobic to a hydrophilic state, which increases the likelihood of surface electrical discharge phenomena such as corona or even dry-band arcing. In this paper, the sheath of cable which was installed for 15 years on a 132 kV transmission line, but has not failed, is analyzed. Models of the surface current experienced by the ADSS cable are used to reveal how the electrical environment influences the cable surface ageing. Characterization of the cable surface by visual inspection and by contact angle measurement along the cable span is reported. These are the first measurements of this sort and surprisingly, the predictions of leakage current magnitude correlate strongly with reductions in contact angle within a span. The measurements verify that long-term low surface current is one significant aspect attributing to the ageing of cable surface properties, even if the conditions are such that dry-band arcing does not occur.
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132kV架空输电线路ADSS电缆护套老化研究
全介质自支撑(ADSS)光缆广泛应用于现代电力设施中,提供通信基础设施。这些能够提供可靠的高带宽网络,因为嵌入式光纤对其电气环境具有物理免疫力。然而,由于感应表面电流,电缆护套和强度构件不能免受电气环境的影响。由于与相导体的电容耦合,这些电流不可避免地产生。这些低电平电流可以使电缆护套从疏水状态变为亲水状态,从而增加表面放电现象的可能性,例如电晕甚至干带电弧。本文对某132kv输电线路安装15年未发生失效的电缆护套进行了分析。ADSS电缆所经历的表面电流模型用于揭示电气环境如何影响电缆表面老化。电缆表面的特性通过目视检查和接触角测量沿电缆跨度报告。这是这种类型的第一次测量,令人惊讶的是,泄漏电流大小的预测与一个跨度内接触角的减小密切相关。测量结果证实,长期低表面电流是电缆表面性能老化的一个重要因素,即使在没有发生干带电弧的情况下也是如此。
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