Optical Diagnostic Characterization of the Local Arc on Contaminated Insulation Surface at Low Pressure

Yang, Hao; Zhang, Haotian; Cao, Wen; Zhao, Xuanxiang; Wen, Ran; Zhao, Junping; Tan, Shengwu; Wang, Pengchao

doi:10.3390/en14196116

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2024

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Cited by 3 publications

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A Review of Low-Pressure and High-Voltage Insulation Technology

Zhang

2024

Lecture Notes in Electrical Engineering

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A Review of Low-Pressure and High-Voltage Insulation Technology

Zhang

2024

Lecture Notes in Electrical Engineering

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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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Solid Product Analysis on the Epoxy Resin Surface After Flashovers in C₄F₇N-Based Gas Mixtures Under Negative DC Voltage

Zhong,

Hu,

et al. 2024

IEEE Trans. Dielect. Electr. Insul.

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Optical Diagnostic Characterization of the Local Arc on Contaminated Insulation Surface at Low Pressure

Cited by 3 publications

References 29 publications

A Review of Low-Pressure and High-Voltage Insulation Technology

A Review of Low-Pressure and High-Voltage Insulation Technology

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

Solid Product Analysis on the Epoxy Resin Surface After Flashovers in C₄F₇N-Based Gas Mixtures Under Negative DC Voltage

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Optical Diagnostic Characterization of the Local Arc on Contaminated Insulation Surface at Low Pressure

Cited by 3 publications

References 29 publications

A Review of Low-Pressure and High-Voltage Insulation Technology

A Review of Low-Pressure and High-Voltage Insulation Technology

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

Solid Product Analysis on the Epoxy Resin Surface After Flashovers in C4F7N-Based Gas Mixtures Under Negative DC Voltage

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Solid Product Analysis on the Epoxy Resin Surface After Flashovers in C₄F₇N-Based Gas Mixtures Under Negative DC Voltage