Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation
Axial flux machines have huge potential in direct-drive operations such as In-wheel drive operation due to the characteristics of high torque density and short axial length. However, the design optimization of axial flux machines was limited by the lack of accuracy magnetic circuit model. In this pa...
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sg-ntu-dr.10356-1784302024-06-21T15:40:39Z Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation Shi, Zhou Sun, Xiaodong Yang, Zebin Cai, Yingfeng Lei, Gang Zhu, Jianguo Lee, Christopher Ho Tin School of Electrical and Electronic Engineering Engineering Axial flux permanent magnet synchronous machine Finite-element analysis Axial flux machines have huge potential in direct-drive operations such as In-wheel drive operation due to the characteristics of high torque density and short axial length. However, the design optimization of axial flux machines was limited by the lack of accuracy magnetic circuit model. In this paper, a spoke-type axial-flux permanent magnet synchronous machine (Spoke-type AFPMSM) is designed and an efficient optimization method for axial flux structure is proposed. The proposed optimization method improves the efficiency of the optimization design by using a 2-D equivalent finite element model and multilevel optimization strategy. The parameters without end effects will be optimized by a 2-D equivalent model and the parameters with end effects will be optimized by a 3-D model. In this way, the number of finite element nodes required for optimization calculation can be minimized. Besides, the multilevel strategy and response surface optimization method are also adopted to further improve the efficiency of the optimization. The proposed method improved the cost, efficiency, and torque of the AFPMSM significantly, and some other constraints are also considered in the optimization progress. Finally, experimental results based on a prototype are provided to validate the performance of the proposed AFPMSM. The proposed method can be applied for other design optimization of axial flux operations. Submitted/Accepted version This work was supported in part by the National Natural Science Foundation of China under Grant 52225212, Grant U20A20333, Grant U20A20331, and Grant 51875255; in part by the Key Research and Development Program of Jiangsu Province under Grant BE2020083-3 and Grant BE2019010-2; and in part by the Changzhou Science and Technology Support Program (Industry) under Project CE20220007. 2024-06-19T07:59:46Z 2024-06-19T07:59:46Z 2023 Journal Article Shi, Z., Sun, X., Yang, Z., Cai, Y., Lei, G., Zhu, J. & Lee, C. H. T. (2023). Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation. IEEE Transactions On Transportation Electrification, 10(2), 3770-3781. https://dx.doi.org/10.1109/TTE.2023.3310738 2332-7782 https://hdl.handle.net/10356/178430 10.1109/TTE.2023.3310738 2-s2.0-85170535748 2 10 3770 3781 en IEEE Transactions on Transportation Electrification © 2023 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/TTE.2023.3310738. application/pdf |
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Engineering Axial flux permanent magnet synchronous machine Finite-element analysis |
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Engineering Axial flux permanent magnet synchronous machine Finite-element analysis Shi, Zhou Sun, Xiaodong Yang, Zebin Cai, Yingfeng Lei, Gang Zhu, Jianguo Lee, Christopher Ho Tin Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation |
| description |
Axial flux machines have huge potential in direct-drive operations such as In-wheel drive operation due to the characteristics of high torque density and short axial length. However, the design optimization of axial flux machines was limited by the lack of accuracy magnetic circuit model. In this paper, a spoke-type axial-flux permanent magnet synchronous machine (Spoke-type AFPMSM) is designed and an efficient optimization method for axial flux structure is proposed. The proposed optimization method improves the efficiency of the optimization design by using a 2-D equivalent finite element model and multilevel optimization strategy. The parameters without end effects will be optimized by a 2-D equivalent model and the parameters with end effects will be optimized by a 3-D model. In this way, the number of finite element nodes required for optimization calculation can be minimized. Besides, the multilevel strategy and response surface optimization method are also adopted to further improve the efficiency of the optimization. The proposed method improved the cost, efficiency, and torque of the AFPMSM significantly, and some other constraints are also considered in the optimization progress. Finally, experimental results based on a prototype are provided to validate the performance of the proposed AFPMSM. The proposed method can be applied for other design optimization of axial flux operations. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Shi, Zhou Sun, Xiaodong Yang, Zebin Cai, Yingfeng Lei, Gang Zhu, Jianguo Lee, Christopher Ho Tin |
| format |
Article |
| author |
Shi, Zhou Sun, Xiaodong Yang, Zebin Cai, Yingfeng Lei, Gang Zhu, Jianguo Lee, Christopher Ho Tin |
| author_sort |
Shi, Zhou |
| title |
Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation |
| title_short |
Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation |
| title_full |
Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation |
| title_fullStr |
Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation |
| title_full_unstemmed |
Design optimization of a spoke-type axial-flux PM machine for in-wheel drive operation |
| title_sort |
design optimization of a spoke-type axial-flux pm machine for in-wheel drive operation |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178430 |
| _version_ |
1806059830690971648 |