External flashovers, related insulation failures and corrective measures in converter stations of Nelson River bipole 1 and bipole 2

Author

McDermid, W. ; Black, T.

Author_Institution

Manitoba Hydro, Winnipeg, MB, Canada

Volume

21

Issue

6

fYear

2014

fDate

Dec-14

Firstpage

2406

Lastpage

2414

Abstract

When Bipole 1 was placed in service in the 1970s at +450 kVdc, bushings were found to be vulnerable to external flashovers. Bipole 2 at +500 kVdc in the 1980s had bushings with increased strike distance of 1 m and creepage increased from 32.9 mm/kV to 43.6 mm/kV. This made the Bipole 2 bushings vulnerable to radial puncture under non-uniform wetting. Booster sheds were installed to greatly reduce external flashovers of porcelain bushings in both HVDC bipoles. Recently the porcelain clad, oil filled wall bushings of Bipole 1 have been replaced with oil-free composite wall bushings having silicone rubber sheds.

Keywords

HVDC power convertors; HVDC power transmission; bushings; failure analysis; flashover; power transmission reliability; HVDC bipoles; Nelson River bipole 1; Nelson River bipole 2; booster sheds; converter stations; corrective measures; external flashovers; nonuniform wetting; oil filled wall bushings; oil-free composite wall bushings; porcelain bushings; porcelain clad; radial puncture; related insulation failures; silicone rubber sheds; voltage 450 kV; voltage 500 kV; Coatings; Flashover; Insulators; Porcelain; Power transformer insulation; Rain; Valves; HVDC; bushing non-uniform wetting; external insulation;

fLanguage

English

Journal_Title

Dielectrics and Electrical Insulation, IEEE Transactions on

Publisher

ieee

ISSN

1070-9878

Type

jour

DOI

10.1109/TDEI.2014.004554

Filename

7031489