Effet de la fonte et de la pollution sur la tension de tenue maximale des isolateurs recouverts de glace /

Soucy, Loana

doi:10.1522/1529502

Cited by 3 publications

(9 citation statements)

References 12 publications

(28 reference statements)

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“…The above results show that while a relatively slow rise in air temperature, from ¡ 12 to +1¯C, at a rate of 2.4¯C h ¡ 1 , is most severe for porcelain IEEE standard insulators, rapid melting at 24¯C h ¡ 1 lowered the E WS of the composite EPDM insulator tested (Soucy 1996).…”

Section: Rise In Air Temperaturementioning

confidence: 72%

“…The critical ®ashover voltage of insulators under melting conditions seems to depend on the rate of increase in air temperature (Soucy 1996;, con dential report). Table 5 shows the maximum withstand stress (E WS ) of a composite EPDM and the porcelain IEEE standard insulators under slow and fast ice melting conditions, as obtained at UQAC (Soucy 1996).…”

Section: Rise In Air Temperaturementioning

confidence: 99%

“…1996;Soucy 1996;Chisholm & Ku¬el 1995;Farzaneh et al . 1995, con dential report;Farzaneh & Melo 1994;Fikke et al .…”

Section: Insulator Precontaminationmentioning

confidence: 99%

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Ice accretions on high–voltage conductors and insulators and related phenomena

Farzaneh

2000

Philosophical Transactions of the Royal Society of London. Seri

182

171

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This paper proposes to survey a good part of the research work accomplished to date on the atmospheric icing of conductors and insulators in the presence of high voltage, with emphasis laid on the studies carried out at the University of Québec in Chicoutimi. The review covers laboratory testing and mathematical modelling.The role of several electrical parameters, such as electric eld strength and polarity, corona discharge, water droplet charge and ionic wind velocity, on the structure and amount of ice accretion on high-voltage conductors, is discussed.Concerning the icing of insulators, the initiation of electrical discharge on the ice surface, the formation of local arcs along the air gaps and their development to a ®ashover arc along the insulators are discussed. Basic experiments on the role of several major parameters relating to ice accretion, insulator characteristics and voltage type and polarity, on the maximum withstand voltage of short insulators, are also discussed. Finally, several measures for improving the withstand voltage of insulators are brie®y recalled.

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Section: Rise In Air Temperaturementioning

confidence: 72%

Section: Rise In Air Temperaturementioning

confidence: 99%

See 1 more Smart Citation

Ice accretions on high–voltage conductors and insulators and related phenomena

Farzaneh

2000

Philosophical Transactions of the Royal Society of London. Seri

182

171

View full text Add to dashboard Cite

show abstract

“…The maximum withstand stress (Ews) of a composite EPDM and the porcelain IEEE standard insulators under slow and fast ice melting conditions, was obtained at UQAC. The investigation shows that while a relatively slow rise in air temperature from -12 °C to +1 °C, at a rate of 2.4 °Ch' 1 , is most severe for porcelain IEEE standard insulators, rapid melting at 24 °Ch 4 lowers the Ews of the composite EPDM insulator tested [71].…”

Section: Temperaturementioning

confidence: 92%

“…The critical flashover of insulators under melting conditions seems to depend on the rate of increase in air temperature [71]. The maximum withstand stress (Ews) of a composite EPDM and the porcelain IEEE standard insulators under slow and fast ice melting conditions, was obtained at UQAC.…”

Section: Temperaturementioning

confidence: 99%