Effect of Insulating Gases on Electrical Treeing in Epoxy Resin

Qinghua Han, I. Iddrissu, Lujia Chen, S. Rowland
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Abstract

Electrical trees initiated from defects in solid insulation are one of the main causes of cable insulation failure. Both the initiation and propagation of electrical trees are linked to PD activity in the free volume and interfaces between electrode, gaseous and solid dielectrics. This work investigates the potential of suppressing partial discharge (PD) during tree propagation by displacing air with a higher electron affinity gas. Epoxy resin samples with pre-existing trees were energized under 7 kVrms in atmospheric air and SF6 under 2 bar absolute for 3 hours. PD measurements indicate that the permeation of SF6 into the epoxy sample could significantly reduce the discharge energy and lead to a reduced number of discharges. However, the tree length growth was comparable for both gases. This is attributed to offsetting of reduced PD energy by SF6 within the tree channels and subsequent reaction between gas by-products and the epoxy.
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绝缘气体对环氧树脂导电性能的影响
固体绝缘缺陷引发的电气树是电缆绝缘失效的主要原因之一。电树的产生和传播都与自由体积和电极、气体和固体介电体之间的界面中的PD活性有关。本研究探讨了用更高的电子亲和气体取代空气在树形繁殖过程中抑制局部放电(PD)的潜力。带树的环氧树脂样品在大气中以7kvrms通电,在绝对2 bar的SF6下通电3小时。PD测量表明,SF6渗透到环氧树脂样品中可以显著降低放电能量,导致放电次数减少。然而,两种气体的树长生长是相当的。这是由于树状通道内SF6抵消了PD能量的减少,以及随后气体副产物与环氧树脂之间的反应。
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