NUMERICAL OPTIMIZATION OF THE INDUCTOR OF A VARIABLE RELUCTANCE SYNCHRONOUS MOTOR
DOI:
https://doi.org/10.36801/Keywords:
OPTIMIZAREA NUMERICĂ, RELUCTANȚĂ VARIABILĂ, MOTOR SINCRON CU RECLUCTANŢĂ VARIABILĂAbstract
Elaboration of norms for classifying electric motors in efficiency classes has boosted research on identifying solutions to reduce losses from electric cars in terms of maintaining overall dimensions and functional performance. Variable reluctance synchronous motors are a practical solution for framing super premium energy efficiency classes, IE4, and ultra-premium, IE5, in a number of applications of electric drive systems for drinking water supply, drainage wastewater, ventilation systems, and installations in the food industry. The paper presents a study performed numerical models on the correlation of the number of stator notches with the number of rotor field barriers of a synchronous motor with variable reluctance in view decreasing the oscillations of the electromagnetic torque.
References
(1) ABB, Low Voltage IE5 Synchronous reluctance motors, Catalog – December 2019, www.abb.com/motors&generators
(2) https://new.siemens.com/global/en/products/drives/topic-areas/reluctance-drive-system.html
(3) Oncescu Șt., Dimensionarea electromagnetică și modelarea numerică a unui motor sincron cu reluctanță variabilă – Proiect de licență, Universitatea Politehnica din București, 2019.
(4) Mateescu M.S., Dimensionarea electromagnetică și modelarea numerică a unui motor sincron cu reluctanță variabilă – Proiect de licență, Universitatea Politehnica din București, 2021.
(5) CEDRAT Flux2D/3D, “User’s guide”;
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