Please use this identifier to cite or link to this item: http://hdl.handle.net/10995/101984
Title: Novel rotor design for high-speed flux reversal motor
Authors: Dmitrievskii, V.
Prakht, V.
Kazakbaev, V.
Issue Date: 2020
Publisher: Elsevier Ltd
Citation: Dmitrievskii V. Novel rotor design for high-speed flux reversal motor / V. Dmitrievskii, V. Prakht, V. Kazakbaev. — DOI 10.1016/j.egyr.2020.10.054 // Energy Reports. — 2020. — Vol. 6. — P. 1544-1549.
Abstract: A single-phase Flux Reversal Machine for high speed applications has a reliable rotor and a good specific power. This paper shows that eliminating the regions of negative torque of this machine can be reached if an asymmetric rotor is used. This machine with an asymmetric rotor was compared with that with a symmetric rotor. In the rated loading mode, the calculated torque ripple of the flux reversal machine with the symmetric rotor is 297%, while that of the one with the asymmetric rotor is 185% which is less by 1.6 times. The proposed high-speed flux reversal machine with the asymmetric rotor can be applied in low-cost drives of household appliances (vacuum cleaners, hand dryers, blenders, washing machines) and in electric power hand tools (angular grinders, miter saws, drills) to replace single-phase synchronous motors or single-phase Hybrid Switched Reluctance Motors. © 2020 The Author(s)
Keywords: ELECTRICAL MACHINERY
FLUX REVERSAL MACHINES
HIGH-SPEED ELECTRICAL MACHINES
MATHEMATICAL MODELING
SINGLE-PHASE MOTORS
DOMESTIC APPLIANCES
DRILLING MACHINES (MACHINE TOOLS)
ELECTRIC DRILLS
ELECTRIC TOOLS
HAND TOOLS
RELUCTANCE MOTORS
ASYMMETRIC ROTORS
FLUX REVERSAL MOTORS
FLUX-REVERSAL MACHINES
HIGH-SPEED APPLICATIONS
NEGATIVE TORQUES
SINGLE-PHASE SYNCHRONOUS MOTORS
SWITCHED RELUCTANCE MOTOR
SYMMETRIC ROTORS
ROTORS (WINDINGS)
URI: http://hdl.handle.net/10995/101984
Access: info:eu-repo/semantics/openAccess
SCOPUS ID: 85098074843
PURE ID: 20414604
130de3f1-176b-442a-8cc5-30ec2eba6168
ISSN: 23524847
DOI: 10.1016/j.egyr.2020.10.054
metadata.dc.description.sponsorship: The work was partially supported by the Ministry of Education and Science of the Russian Federation (through the basic part of the government mandate, Project No. FEUZ-2020-0060).
Appears in Collections:Научные публикации, проиндексированные в SCOPUS и WoS CC

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