Power-efficient low-stray field hybrid magnets for MAGLEV technology | Zendy

Daria Arslanova | Zendy; A. A. Firsov | Zendy; V. Kukhtin | Zendy; Eugeny Lamzin | Zendy; M. S. Larionov | Zendy; A. N. Nezhentzev | Zendy; D.Yu. Ovsyannikov | Zendy; И Ю Родин | Zendy; N. Shatil | Zendy; S. Sytchevsky | Zendy; V. Vasiliev | Zendy; А А Зайцев | Zendy

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Power-efficient low-stray field hybrid magnets for MAGLEV technology

Author(s) -

Daria Arslanova,

A. A. Firsov,

V. Kukhtin,

Eugeny Lamzin,

M. S. Larionov,

A. N. Nezhentzev,

D.Yu. Ovsyannikov,

И Ю Родин,

N. Shatil,

S. Sytchevsky,

V. Vasiliev,

А А Зайцев

Publication year - 2021

Publication title -

cybernetics and physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.267

H-Index - 8

eISSN - 2226-4116

pISSN - 2223-7038

DOI - 10.35470/2226-4116-2021-10-3-117-121

Subject(s) - maglev , magnet , electromagnet , suspension (topology) , power consumption , power (physics) , automotive engineering , electromagnetic suspension , electrical engineering , engineering , field (mathematics) , reduction (mathematics) , mechanical engineering , physics , mathematics , quantum mechanics , homotopy , pure mathematics , geometry

A hybrid suspension system is proposed for maglev transport that utilizes electromagnets (EM) in combination with permanent magnets (PM). Several design schemes are compared searching for optimum performance. Sufficient reduction of power consumption and stray field is achieved on the hybrid configuration as compared to conventional EM suspension systems.

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