Mathematical simulations of the electromagnetic system of a subminiature magnetoelectric engine

This paper is devoted to simulations of a valve electric engine with excitation from high-energy permanent rare-earth magnets. A feature of the design of the engine under consideration is that a stator is manufactured using the polycapillary glass-fiber technique. The conductors of the distributed s...

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Published in:Russian electrical engineering 2017-07, Vol.88 (7), p.400-403
Main Authors: Nesterin, V. A., Genin, V. S., Romanov, R. A., Tokmakov, D. A.
Format: Article
Language:English
Subjects:
Boron
Computer simulation
Conductors
Engineering
Laplace equation
Machines
Magnetic flux
Magnets
Manufacturing
Neodymium
Processes
Rare earth elements
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container_issue 7
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container_title Russian electrical engineering
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creator Nesterin, V. A.
Genin, V. S.
Romanov, R. A.
Tokmakov, D. A.
description This paper is devoted to simulations of a valve electric engine with excitation from high-energy permanent rare-earth magnets. A feature of the design of the engine under consideration is that a stator is manufactured using the polycapillary glass-fiber technique. The conductors of the distributed stator winding are placed in holes pm the tube wall. The cylindrical bipolar rotor is made of iron–neodymium–boron. The assumption accepted in the work during the solving the Laplace equation has made it possible to obtain analytical solutions for the magnetic flux, emf, current, electromagnetic torque, and electromagnetic power.
doi_str_mv 10.3103/S1068371217070136
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1934-8010
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source Springer Nature
subjects Boron
Computer simulation
Conductors
Engineering
Laplace equation
Machines
Magnetic flux
Magnets
Manufacturing
Neodymium
Processes
Rare earth elements
title Mathematical simulations of the electromagnetic system of a subminiature magnetoelectric engine
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