Breakdown of liquids in long gaps: influence of distance, impulse shape, liquid nature, and interpretation of measurements

Breakdown measurements are carried out in liquids under point-sphere and pointplane electrode geometries, over a large range of gap distances up to 35 cm. Non-polar hydrocarbon liquids with different chemical structures are studied: saturated, aromatic, polyaromatic, mineral oils, and ester. Two hig...

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Bibliographic Details
Published in:IEEE transactions on dielectrics and electrical insulation 2015-10, Vol.22 (5), p.2581-2591
Main Authors: Denat, A., Lesaint, O., McCluskey, F.
Format: Article
Language:English
Subjects:
Breakdown voltage
Electric breakdown
Electric power
Engineering Sciences
Lightning
Liquids
Minerals
Pollution measurement
Propagation
Voltage measurement
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Summary:Breakdown measurements are carried out in liquids under point-sphere and pointplane electrode geometries, over a large range of gap distances up to 35 cm. Non-polar hydrocarbon liquids with different chemical structures are studied: saturated, aromatic, polyaromatic, mineral oils, and ester. Two high voltage impulse shapes are used: the standard lightning impulse (LI), and a specific "step" impulse (ST). Step impulses are favorable to interpret breakdown measurements since the applied voltage remains constant while prebreakdown streamers propagate. Conversely, with lightning impulse and long gaps the propagation of streamers with a low propagation velocity (a few km/s) is quenched due to the rapidly decaying voltage. In this case, breakdown can result only from the propagation of faster streamers, which appear in very different conditions according to the liquid nature. The results obtained allow us to interpret the large variations of breakdown voltage observed in large gaps, when either the high voltage impulse shape or the liquid nature is changed. These results also help to define proper conditions for testing and comparing liquids. Testing with lightning impulse in short gaps, such as in standard tests, does not provides data relevant for very high voltage applications.
ISSN:1070-9878
1558-4135
DOI:10.1109/TDEI.2015.005217