Design of Permanent Magnet Synchronous Generators for Wave Power Generation
In this paper, a design method for ocean wave permanent magnet synchronous generator(PMSG)is proposed with new performance criteria to obtain better output performance at the cost of less permanent magnet material. Besides, a simple equivalent analytical geometry method is put forward to calculate t...
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| Published in | Transactions of Tianjin University Vol. 22; no. 5; pp. 396 - 402 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Tianjin
Tianjin University
01.10.2016
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1006-4982 1995-8196 |
| DOI | 10.1007/s12209-016-2797-5 |
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| Abstract | In this paper, a design method for ocean wave permanent magnet synchronous generator(PMSG)is proposed with new performance criteria to obtain better output performance at the cost of less permanent magnet material. Besides, a simple equivalent analytical geometry method is put forward to calculate the sizes of permanent magnets. Based on geometric and electromagnetic models, four types of rotor structures are compared, i.e., embedded, tangential, tile surface mount and convex surface mount structures. The designs and comparisons of machine are performed with the same permanent magnet volume. Moreover, the influences of mechanical pole-arc coefficient of tile surface mount PMSG on electrical efficiency, output power, material corrosion, core loss, and torque ripple are investigated. Finite-element analysis method is applied to verify the results using Ansoft/Maxwell. |
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| AbstractList | In this paper, a design method for ocean wave permanent magnet synchronous generator(PMSG)is proposed with new performance criteria to obtain better output performance at the cost of less permanent magnet material. Besides, a simple equivalent analytical geometry method is put forward to calculate the sizes of permanent magnets. Based on geometric and electromagnetic models, four types of rotor structures are compared, i.e., embedded, tangential, tile surface mount and convex surface mount structures. The designs and comparisons of machine are performed with the same permanent magnet volume. Moreover, the influences of mechanical pole-arc coefficient of tile surface mount PMSG on electrical efficiency, output power, material corrosion, core loss, and torque ripple are investigated. Finite-element analysis method is applied to verify the results using Ansoft/Maxwell. In this paper, a design method for ocean wave permanent magnet synchronous generator(PMSG)is proposed with new performance criteria to obtain better output performance at the cost of less permanent magnet material. Besides, a simple equivalent analytical geometry method is put forward to calculate the sizes of permanent magnets. Based on geometric and electromagnetic models, four types of rotor structures are compared, i.e., embed-ded, tangential, tile surface mount and convex surface mount structures. The designs and comparisons of machine are performed with the same permanent magnet volume. Moreover, the influences of mechanical pole-arc coeffi-cient of tile surface mount PMSG on electrical efficiency, output power, material corrosion, core loss, and torque ripple are investigated. Finite-element analysis method is applied to verify the results using Ansoft/Maxwell. |
| Author | 方红伟;王丹 |
| AuthorAffiliation | School of Electrical Engineering and Automation, Tianjin University, Tianjin 300072, China |
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| Cites_doi | 10.1109/TMAG.2013.2256921 10.1109/TSTE.2011.2114902 10.1109/TIA.2009.2013539 10.1109/TEC.2010.2093527 10.1109/TIA.2013.2294993 10.1109/MPE.2011.942350 10.1109/TEC.2004.827717 10.1109/TIE.2010.2089940 10.1109/TMAG.2013.2242873 10.1109/28.887222 10.1109/TEC.2005.853735 10.1016/j.enpol.2014.05.020 10.1109/TEC.2009.2025416 |
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| Keywords | mechanical pole-arc coefficient permanent magnet synchronous generator analytical geometry method ocean wave power generation perma-nent magnet synchronous generator |
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| References | Jiang, Chi, Qin (CR3) 2011; 9 Ngu, Dorrell, Cossar (CR10) 2014; 50 Dara, Anthony (CR14) 2011; 26 Trainer (CR2) 2014; 73 Polinder, Damen, Gardner (CR11) 2004; 19 Fang, Cheng, Ren (CR15) 2014; 47 Vining, Muetze (CR4) 2009; 45 Monica, Santiago, Juan (CR8) 2006; 21 Hamilton (CR5) 2000; 36 Ratanak, Asher, Ted (CR13) 2015 Dorrell, Hsieh, Popescu (CR7) 2011; 58 Huang (CR16) 2012 Johan, Havar, Magne (CR6) 2009; 24 Halamay, Brekken, Simmons (CR1) 2011; 2 Liu, Yu, Hu (CR12) 2013; 49 Xia, Chen, Shi (CR9) 2013; 49 H Polinder (2797_CR11) 2004; 19 C Monica (2797_CR8) 2006; 21 Jinghua Huang (2797_CR16) 2012 C Liu (2797_CR12) 2013; 49 D A Halamay (2797_CR1) 2011; 2 T Trainer (2797_CR2) 2014; 73 J G Vining (2797_CR4) 2009; 45 L Jiang (2797_CR3) 2011; 9 C Xia (2797_CR9) 2013; 49 S S Ngu (2797_CR10) 2014; 50 S Ratanak (2797_CR13) 2015 K S Johan (2797_CR6) 2009; 24 H Fang (2797_CR15) 2014; 47 R J Hamilton (2797_CR5) 2000; 36 D G Dorrell (2797_CR7) 2011; 58 L O Dara (2797_CR14) 2011; 26 |
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| SubjectTerms | analytical coefficient Core loss Cost analysis Design analysis Engineering Finite element method generation generator geometry Humanities and Social Sciences magnet mechanical Mechanical Engineering method multidisciplinary ocean permanent Permanent magnets pole-arc power Science synchronous Synchronous machines wave Wave power |
| Title | Design of Permanent Magnet Synchronous Generators for Wave Power Generation |
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