Rizk F A M. Mathematical models for polluted flashover [J]. Electra, 1981(78): 71-103.
[4]
Alston L L, Zoledziowski S. Growth of discharges on polluted insulation[J]. IEE Proceedings-Generation Transmission and Distribution, 1963, 110(7): 1260- 1266.
[5]
Boehme H, Obenaus F. Pollution flashover tests on insulators in the laboratory and in the systems and the model concept of creepage-path flashover[C]. Confe- rence of International Council on Large Electric Syst- ems, Paris, 1966: 407.
[6]
CIGRE WG’S-33.04. A critical comparison of artificial pollution test methods for HV insulators [J]. Electra, 1979(64): 117-136.
[7]
CIGRE WG’S-33.04. Artificial pollution testing of HVDC insulators: analysis of factors influencing performance [J]. Electra, 1992(140): 99-113.
[8]
IEC 1245. Artificial pollution tests on high-voltage insulators to be used on d.c. system[S]. 1993.
Farag A S, Shwehdi M H. Interfacial breakdown on contaminated electrolytic surface[C]. Conference on Electrical Insulation and Electrical Manufacturing & Coil Winding, USA, 1997: 789-794.
[15]
Hampton B F. Flashover mechanism of polluted insulation [J]. IEE Proceedings-Generation Transm- ission and Distribution, 1964, 111(5): 985-990.
[16]
Wilkins R. Flashover of high voltage onsulators with uniform surface pollution films[J]. IEE Proceedings- Generation Transmission and Distribution, 1969, 116(3): 457-465.
[17]
Sundararajan R, Gorur R S. Dynamic arc modeling of pollution flashover if insulators under DC voltage [J]. IEEE Transaction on Electrical Insulation, 1993, 26(2): 209-218.