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Optimum Design of an IE4 Line-Start Synchronous Reluctance Motor Considering Manufacturing Process Loss Effect

Authors
Liu, Huai-CongLee, Ju
Issue Date
Apr-2018
Publisher
Institute of Electrical and Electronics Engineers
Keywords
Cutting/punching effect; die-casting; IE4; line-start synchronous reluctance motors (LS-SynRM); manufacturing process loss; minimum energy performance standards (MEPS); response surface method (RSM)
Citation
IEEE Transactions on Industrial Electronics, v.65, no.4, pp 3104 - 3114
Pages
11
Indexed
SCI
SCIE
SCOPUS
Journal Title
IEEE Transactions on Industrial Electronics
Volume
65
Number
4
Start Page
3104
End Page
3114
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/150243
DOI
10.1109/TIE.2017.2758738
ISSN
0278-0046
1557-9948
Abstract
As a kind of direct-on-line motor, super premium efficiency (IE4) line-start synchronous reluctance motors (LS-SynRMs) were developed recently and are now used in many applications, including fans, pumps, and compressors. This paper presents an optimum design and comparative study of LS-SynRMs with additional losses and impact during the manufacturing process (electrical steel cutting/punching damage as well as squirrel-cage die-casting with bubble effects). The work results indicate that the LS-SynRM design with the "manufacturing process loss" effect should be considered and compensated for the design in order to achieve an IE4 class efficiency and ensure synchronization. Furthermore, the LS-SynRM rotor with multilayer flux barriers and rotor slots is investigated in detail. The influences of optimum design geometrical parameters (flux barriers thickness, segments thickness, length of rotor slots, etc.) on the performances of the basic model and optimum design model are evaluated with finite-element analysis (FEA) results. For more accurate results, the effects of saturation, saliency ratio, inductance difference, and the change in the B-H/B-P curve in damaged motor core edges are considered. Meanwhile, in the squirrel cage, the porosity rate distributions are considered. The copper loss, iron loss, starting torque, power factor, efficiency, and synchronization ability are investigated. The experimental results verify the accuracy of the process presented in this paper.
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