Abstract
Surface conductivity of ice was investigated during the development of AC and DC arcs on ice-covered insulators. To determine this parameter, an approach based on fluid mechanics combined with experimental measurements of the water film flow rate and conductivity was used. In particular, the variation of the thickness and volume conductivity of the water film as well as the mechanisms of discharge initiation and arc development on the surface of an ice-covered post insulator were studied. The effect of ice surface conductivity on arc propagation velocity was evaluated for different freezing water conductivities using highspeed video camera techniques. Empirical models were proposed to account for equivalent surface conductivity dynamics during the flashover process. The derived equivalent surface conductivity was used to improve existing dynamic models to predict the minimum flashover voltage of the ice-covered insulator. The computed results from the models were in good agreement with those obtained experimentally.
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