Study on the time-varying characteristics of AC local arc over the contaminated insulation surface

Yang, Hao; Ren, Yubo; Wen, Ran; Zhang, L.; Chen, Yingjun

doi:10.1063/5.0035914

Cited by 4 publications

(1 citation statement)

References 11 publications

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“…Generally, the arc temperature is 3000-6000 • C, and up to 10,000 • C, resulting in a sharp rise in the air temperature around the local arc [29][30][31][32][33]. Assuming the air temperature is equivalent to the arc.…”

Section: Mchanical Characteristics Of Ac and DC Arc At Atmospherementioning

confidence: 99%

Theoretical and experimental investigation of AC and DC arc propagation on polluted insulators surface

Dong

Wang

et al. 2022

IET Generation Trans & Dist

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To acquire new knowledge of pollution flashover mechanism of insulators, the mechanical characteristics of local arc propagation on suspension insulators surface during AC and DC pollution flashover are analyzed in this paper. The results indicate that the propagation of local arc mainly depends on the electrostatic force and thermal buoyancy. The thermal buoyancy plays a leading role in the bigger arc current, resulting in the obvious phenomenon of arc wandering. Moreover, the effect of thermal buoyancy on AC arc is less than that on DC arc at the same arc current. DC arc wandering is more significant than that of AC. With the decrease in air pressure (the increase in altitude height), the effect of thermal buoyancy rises. As a result, it will cause severe arc‐levitating at high altitudes, making the flashover distance of insulators less than its creepage distance. Therefore, the arc‐levitating is one of the key factors for the decrease in flashover voltage of polluted insulators in high‐altitude regions.

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Section: Mchanical Characteristics Of Ac and DC Arc At Atmospherementioning

confidence: 99%

Theoretical and experimental investigation of AC and DC arc propagation on polluted insulators surface

Dong

Wang

et al. 2022

IET Generation Trans & Dist

View full text Add to dashboard Cite

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Arc erosion characteristics of cables with heatproof insulations in AC series circuits at low pressure

Gao,

Yang,

Wang

et al. 2024

J. Phys. D: Appl. Phys.

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The droplet diameter, dripping frequency, and arc bead appearances vary significantly with pressure. This study investigated the arc erosion characteristics of copper-core cable with mica insulation (HC0) and aluminum-core cable with PI insulation (HA0) at different pressures. During arcing of HC0, the diameters of dripping droplets decrease as pressure decreases, but the dripping frequency exhibits an increasing trend. The more insulation fragments participated in the dripping of droplets at low pressure result in smaller dripping droplets and bigger dripping frequency. The primary arc beads (PABs) of HA0 at atmospheric pressure are mainly globular arc beads. HA0 PABs at 60 kPa are mostly coral arc beads, which is attributed to the slow oxidation rate and easier outflow of liquid aluminum through cracks at low pressure. HA0 PABs have the characteristics of coral arc beads and gradual necking, which broadens the previous theory in accident investigations that coral arc beads and gradual necking are considered as physical evidences of fire globules and short-circuit melted marks. Besides, the influence of pressure on arc duration of HC0 and HA0 is revealed. This study could provide support for fire accident investigation and arc accident prevention.

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Application of Analytical Modeling of Flashover Derived for Flat Samples to Polluted 11-kV SiR Insulators

Slama

Béroual

Haddad

et al. 2022

IEEE Trans. Dielect. Electr. Insul.

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Study on the time-varying characteristics of AC local arc over the contaminated insulation surface

Cited by 4 publications

References 11 publications

Theoretical and experimental investigation of AC and DC arc propagation on polluted insulators surface

Theoretical and experimental investigation of AC and DC arc propagation on polluted insulators surface

Arc erosion characteristics of cables with heatproof insulations in AC series circuits at low pressure

Application of Analytical Modeling of Flashover Derived for Flat Samples to Polluted 11-kV SiR Insulators

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