Generation of method AC ampere force using eddy current inside a nonmagnetic thin plate and its effect on electrodynamic suspension

Takahisa Ohji; Masaaki Sato; Kenji Amei; Masaaki Sakui

doi:10.1002/eej.20905

Generation of method AC ampere force using eddy current inside a nonmagnetic thin plate and its effect on electrodynamic suspension

Takahisa Ohji^*, Masaaki Sato, Kenji Amei, Masaaki Sakui

^*この論文の責任著者

工学科　電気電子工学コース

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

2 被引用数 (Scopus)

抄録

In this paper, we propose a novel method for magnetic levitation force generation. In our method, we utilized three AC electromagnets that generate the inductive and AC Ampere forces. One electromagnet is installed above the surface and the other two in both sides of thin plate. Phase conditions providing the maximum levitation force are derived from 2-dimensional finite element analysis. In order to confirm the performance of the proposed method, we performed some experiments. The experimental results show that in difference from conventional AC methods, the magnetic levitation force is increased around 5.9 times for the same eddy current inside the aluminum plate. In addition, the relations between excitation frequency, plate thickness and total levitation force are explained in details.

本文言語	英語
ページ（範囲）	48-56
ページ数	9
ジャーナル	Electrical Engineering in Japan
巻	170
号	3
DOI	https://doi.org/10.1002/eej.20905
出版ステータス	出版済み - 2010/02

ASJC Scopus 主題領域

エネルギー工学および電力技術
電子工学および電気工学

文献へのアクセス

10.1002/eej.20905

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引用スタイル

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abstract = "In this paper, we propose a novel method for magnetic levitation force generation. In our method, we utilized three AC electromagnets that generate the inductive and AC Ampere forces. One electromagnet is installed above the surface and the other two in both sides of thin plate. Phase conditions providing the maximum levitation force are derived from 2-dimensional finite element analysis. In order to confirm the performance of the proposed method, we performed some experiments. The experimental results show that in difference from conventional AC methods, the magnetic levitation force is increased around 5.9 times for the same eddy current inside the aluminum plate. In addition, the relations between excitation frequency, plate thickness and total levitation force are explained in details.",

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author = "Takahisa Ohji and Masaaki Sato and Kenji Amei and Masaaki Sakui",

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AU - Ohji, Takahisa

AU - Sato, Masaaki

AU - Amei, Kenji

AU - Sakui, Masaaki

PY - 2010/2

Y1 - 2010/2

N2 - In this paper, we propose a novel method for magnetic levitation force generation. In our method, we utilized three AC electromagnets that generate the inductive and AC Ampere forces. One electromagnet is installed above the surface and the other two in both sides of thin plate. Phase conditions providing the maximum levitation force are derived from 2-dimensional finite element analysis. In order to confirm the performance of the proposed method, we performed some experiments. The experimental results show that in difference from conventional AC methods, the magnetic levitation force is increased around 5.9 times for the same eddy current inside the aluminum plate. In addition, the relations between excitation frequency, plate thickness and total levitation force are explained in details.

AB - In this paper, we propose a novel method for magnetic levitation force generation. In our method, we utilized three AC electromagnets that generate the inductive and AC Ampere forces. One electromagnet is installed above the surface and the other two in both sides of thin plate. Phase conditions providing the maximum levitation force are derived from 2-dimensional finite element analysis. In order to confirm the performance of the proposed method, we performed some experiments. The experimental results show that in difference from conventional AC methods, the magnetic levitation force is increased around 5.9 times for the same eddy current inside the aluminum plate. In addition, the relations between excitation frequency, plate thickness and total levitation force are explained in details.

KW - Ampere force

KW - Eddy current

KW - Electrodynamic suspension

KW - Magnetic levitation

KW - Nonmagnetic thin plate

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