Naoaki Inoue scite author profile

Naoaki Inoue

5Publications

40Citation Statements Received

20Citation Statements Given

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Affiliations

Mitsubishi Electric (Japan), Mitsubishi Electric (Netherlands), Nagoya Institute of Technology

Publications

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Insulation technology in dry air and vacuum for a 72‐kV low‐pressure dry‐air insulated switchgear

Yoshida

Koga

Harada

et al. 2011

Electrical Engineering Japan

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SUMMARYA new 72-kV rated low-pressure dry-air insulated switchgear applying electromagnetic actuation and a function that supports CBM has been developed. First, the dielectric characteristics in dry air under lightning impulse application were investigated for bare and insulator-covered electrodes. The dependence of the breakdown electric field strength on the effective area was found in order to apply it to the configuration design of the insulation mold for the vacuum interrupter. In addition, the dependence of the moisture volume on the surface resistance was found in order to decide the moisture volume in the gas pressure tank. Next, a new vacuum circuit breaker (VCB) was designed. To keep the dimensions the same as in the previous 72-kV SF 6 gas insulated switchgear, the distance between contacts in the vacuum interrupter must be shorter than in the previous switchgear. The voltage withstand capability between electrodes practically designed for the vacuum interrupter was investigated under DC voltage application, in a small capacitive current breaking simulation. The gap configuration, including contacts and slits, was optimized and the distance was shortened by 11% from the previous switchgear. As a result, the new low-pressure dry-air insulated switchgear was designed to be comparable in external size to the previous SF 6 gas insulated switchgear. Using dry air as an insulation medium with low pressure makes it possible to reduce the environmental burden.

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Influence of Defect Size on Insulation Deterioration of Epoxy Resins with Voids

Otake

Umemoto

Suga

et al. 2021

IEEE Trans. Dielect. Electr. Insul.

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This study investigates the relationship between void size and insulation lifetime due to partial discharges (PDs) in internal voids. Experimental results clearly show that the larger the void size, the shorter the insulation lifetime, which decreases the lifetime nvalue index of the voltage-time characteristics. The results also show a clear relationship between the insulation lifetime of a solid insulator having void defects and the PD energy generated in the void, which is related to the cumulative PD energy density per cycle. Therefore, we propose estimating the insulation lifetime of an insulator with voids by calculating the cumulative PD energy density per cycle.

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The Development and Practical Use of A New 24 kV Dry Air Insulated Switchgear

et al. 2006

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Insulation properties of highly pressurized dry air-effects of anodic oxide coating and surface roughness of electrodes on breakdown voltage

Inoue

Sato

Yoshida

et al. 2014

IEEE Trans. Dielect. Electr. Insul.

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７２ｋＶ低圧力ドライエア絶縁Ｃ－ＧＩＳにおけるドライエア中および真空中での絶縁技術

et al. 2008

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Naoaki Inoue

Insulation technology in dry air and vacuum for a 72‐kV low‐pressure dry‐air insulated switchgear

Influence of Defect Size on Insulation Deterioration of Epoxy Resins with Voids

The Development and Practical Use of A New 24 kV Dry Air Insulated Switchgear

Insulation properties of highly pressurized dry air-effects of anodic oxide coating and surface roughness of electrodes on breakdown voltage

７２ｋＶ低圧力ドライエア絶縁Ｃ－ＧＩＳにおけるドライエア中および真空中での絶縁技術

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