Performance Improvement of Permanent-Magnet-Synchronous Motors through Rotor Shape Optimization of Marine Blowing System with High-Speed Rotation
Author:
Yoon Keun-Young1ORCID, Lee Sang-Taek2
Affiliation:
1. Department of Electrical Engineering, Honam University, 120, Honamdae-gil, Gwangsan-gu, Gwangju 62399, Republic of Korea 2. Smart Electrics Research Center, Korea Electronics Technology Institute, 226, Cheomdangwagi-ro, Buk-gu, Gwangju 61011, Republic of Korea
Abstract
Currently, research is being carried out on the performance improvement of permanent-magnet-synchronous motors (PMSM) used in air conditioning and blowing systems for marine, as well as structural research, regarding their high-speed operation. Surface-mounted permanent magnet (SPM) motors used in marine propulsion and air-conditioning systems have the advantages of easy rotor manufacturing and a simple structure. However, owing to the structural characteristics associated with attaching a permanent magnet to the surface of the rotor, there is a risk of permanent magnet scattering when turning a rated load at high speed, and the rotor assembly is directly affected by the heat generated in the stator winding. Therefore, in this study, additional protrusions were proposed to prevent rotor scattering during high-speed operations. Additionally, optimization was performed to reduce the torque ripple at the rated load and the total harmonic distortion (THD) of the no-load-induced electromotive-force waveform generated by the protrusion. Consequently, the risk of scattering at high speeds was improved by securing the bonding force of the permanent magnet using the proposed structure, and the THD and torque ripple were reduced compared with those of the basic model through optimization. In addition, rotor structural stress analyses were conducted to solve the problem of scattering at high speeds and eigenmode analysis.
Funder
Korea Institute of Marine Science & Technology Promotion National Research Foundation of Korea
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference45 articles.
1. Ajioka, Y., and Ohno, K. (2013). Electric Propulsion Systems for Ships. Hitachi Rev., 62. 2. Ma, F., Qi, L., Ye, S., Chen, Y., Xiao, H., and Li, S. (2023). Research on Fault Diagnosis Algorithm of Ship Electric Propulsion Motor. Appl. Sci., 13. 3. Yu, C., Qi, L., Sun, J., Jiang, C., Su, J., and Shu, W. (2022). Fault Diagnosis Technology for Ship Electrical Power System. Energies, 15. 4. Fuzzy wavelet network intelligent predictive controller for vacuum injection molding;Zhang;Comput. Integr. Manuf. Syst.,2010 5. Hu, Y. (2019). Model Predictive Torque Control Strategy for Marine Permanent Magnet Synchronous Propulsion Motor. [Master’s Thesis, Wuhan University of Technology].
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|