Abstract
In this paper, it is realized by using numerical and FEM methods of a high power permanent magnet synchronous generator design which can produce high frequency voltage which can be used in space vehicles, rockets and aircraft. The permanent magnet synchronous generator designed to be used in the mentioned vehicles is designed according to the space constraints in the vehicles and according to the boundary conditions which can give the highest power. Numerical and FEM analysis solutions have been developed for both size and high power. Generator sizes obtained as a result of numerical analysis in the Ansys Maxwell Program, optimization studies were performed to obtain the most appropriate geometric size and power density. With the results of FEM analysis, experimental studies have been started by making a permanent magnet synchronous generator prototype. In experimental studies, results obtained as a result of analysis were compared with experimental results. At the end of the experimental results, high-power density, high-speed synchronous generator has also been shown to have high efficiency.
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References
Özçıra, S.: Sabit Mıknatıslı Senkron Motorun Kontrol Yöntemleri ve Endüstriyel Uygulamaları. Msc. Thesis, Yıldız Technic University, Istanbul (2007, in Turkish)
Texas Instruments: Digital Signal Processing Solution for Permanent Magnet Synchronous Motor. Texas Instruments Application Note Literature Number: 044 (1997)
Bianchi, N., Bolognani, S.: Unified approach to the analysis and design of an AC motor drive for flux-weakening operations. In: IEEE Industry Applications Conference on Thirty-Third IAS Annual Meeting, vol. 1, pp. 95–102 (1998
Slemon, G.R.: Achieving a constant power speed range for PM drives. IEEE Trans. Ind. Appl. 31(2), 368–372 (1995)
Ionel, D.M., Eastham, J.F., Miller, T.J.E., Demeter, E.: Design considerations for permanent magnet synchronous motors for flux weakening applications. IEE Proc. – Electr. Power Appl. 145(5), 435 (1998)
Dhaouadi, R., Mohan, N.: Analysis of current-regulated voltage-source inverters for permanent magnet synchronous motor drives in normal and extended speed ranges. IEEE Trans. Energy Convers. 5(1), 137–144 (1990)
Schneider, T., Koch, T., Binder, A.: Comparative analysis of limited field weakening capability of surface mounted permanent magnet machines. IEE Proc. – Electr. Power Appl. 151(1), 76 (2004)
Yüzer, Ö.E.: Düşük Düşülü Mikro Hidroelektrik Santralleri için Sabit Mıknatıslı Bir Senkron Generatör Tasarımı. Msc. Thesis, Gazi University, Ankara (2011)
Boldea, I.: Synchronous generators. In: The Electric Generators Handbook. Taylor & Francis (2005)
Bastos, J.P.A., Sadowski, N.: Electromagnetic modeling by finite element methods. In Electrical and Computer Engineering. CRC Press (2003)
Ocak, C.: Mikro-Hidroelektrik ve Rüzgar Santralleri için Düşük Devirli Eksenel Akılı Kalıcı Mıknatıslı Generatör Tasarımı ve Analizi. Msc. Thesis, Gazi University, Ankara (2009)
Acknowledgments
This study was supported by Pamukkale University Scientific Research Projects Coordination Unit with Project no. 2019KKP007 and 2016FEBE044. We would like to thank PAUBAP for their contribution.
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Aydogan, B., Öner, Y., Ersoz, M., Kesler, S., Tumbek, M. (2020). High Power Density and High Speed Permanent Magnet Synchronous Generator Design. In: Hemanth, D., Kose, U. (eds) Artificial Intelligence and Applied Mathematics in Engineering Problems. ICAIAME 2019. Lecture Notes on Data Engineering and Communications Technologies, vol 43. Springer, Cham. https://doi.org/10.1007/978-3-030-36178-5_52
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DOI: https://doi.org/10.1007/978-3-030-36178-5_52
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