The effect of Transient Over Voltages on the Partial Discharges activity in HVDC joints

G. Rizzo, P. Romano, A. Imburgia, M. Albertini, S. F. Bononi, S. Siripurapu, G. Ala
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Abstract

Rapid growth of HVDC cable line installations is expected in the coming years. Several research groups have investigated dielectric phenomena that occur in the insulation of HVDC cables and accessories that accelerate aging and reduce the reliability of this technology over time. Unlike in HVAC cables, under HVDC stress, the distribution of the electric field inside the insulation layer depends not only on the applied voltage but also on the temperature distribution and on other factors related to manufacturing such as the presence of impurities. Reaching local and transient electric field peaks can enhance the onset of Partial Discharges (PDs) which can lead to premature aging of the insulation. As demonstrated by several studies, the achievement of electric field peaks that can exceed the inception level for partial discharges is more likely in joints. This is due both to the greater probability that a defect is incorporated in two different dielectric layers, and to the greater thickness which determines a higher temperature drop. In this paper, the occurrence of PDs inception conditions in a void inside an HVDC joint during a Transient Over Voltage (TOV) event is investigated by means of FEM simulations. This type of event can be considered as one of the most severe from the point of view of the occurrence of partial discharges as the effect of the rapid variation of applied voltage is combined with the previously established electric field distribution due to the space charge accumulation.
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瞬态过电压对高压直流接头局部放电活动的影响
预计未来几年高压直流电缆线路安装将快速增长。几个研究小组已经研究了高压直流电缆和附件绝缘中出现的介电现象,这些现象会随着时间的推移加速老化,降低这项技术的可靠性。与HVAC电缆不同,在HVDC应力下,绝缘层内电场的分布不仅取决于施加的电压,还取决于温度分布和与制造相关的其他因素,如杂质的存在。达到局部和瞬态电场峰值会增加局部放电(pd)的发生,从而导致绝缘的过早老化。一些研究表明,局部放电的电场峰值在接头中更有可能超过起始水平。这是由于在两个不同的介电层中合并缺陷的可能性更大,以及较大的厚度决定了较高的温度降。本文采用有限元模拟的方法,研究了瞬态过电压(TOV)事件发生时高压直流接头内空隙中PDs产生的条件。从局部放电发生的角度来看,这种类型的事件可以被认为是最严重的事件之一,因为施加电压的快速变化的影响与先前建立的由空间电荷积累引起的电场分布相结合。
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