Research Article
Klasik ve Çapraz Akı Dağılımına Sahip Döner Yapıdaki Anahtarlamalı Relüktans Motorların Performans Karşılaştırması
Abstract
Yakın
zaman içerisinde yapılan çalışmalarda, çapraz akı dağılıma sahip anahtarlamalı
relüktans motorların (ÇARM), radyal akı dağılımına sahip klasik anahtarlamalı
relüktans motorlar (KARM) ile kıyaslandığında yüksek güç ve tork yoğunluğuna
sahip oldukları ifade edilmektedir. Sunulan çalışmada, KARM ile ÇARM’ler
arasında kapsamlı bir karşılaştırma yapılmıştır. ÇARM’lerin yapılandırılmasında
gereksinim duyulan ek mekaniksel bileşenler, motora ait stator ve rotor
bloklarının oluşturulmasında kullanılan malzemeler, ilgili malzemelerin
manyetik karakteristikleri ve bu malzemelerin kullanılması sonucu motorun
boyutları, hacim ve ağırlığında meydana gelen değişiklikler dikkate alınmak
durumundadır. Dairesel sargı konfigürasyonu gibi farklı sargı olasılıkları
performans açısından farklılıklar oluşturabilmektedir. Gerçekleştirilen
çalışmada, adil bir karşılaştırma yapılabilmesi için KARM ve ÇARM yapıları eşit
dış boyut, eşit motor eksenel boyu ve eşit manyeto-motor kuvveti (mmk) dikkate
alınarak gerçekleştirilmiştir. İncelenen makinaların performanslarının elde
edilebilmesi için analitik hesaplamalar ile birlikte iki ve üç boyutlu sonlu
elemanlar metotları (SEM) kullanılmıştır. Çalışmada elde edilen sonuçlar,
KARM’lerin ÇARM’ler ile kıyaslandığında aynı ya da daha iyi performans
sergilediğini açık bir şekilde göstermektedir. Bununla birlikte KARM’lerin çok
daha kolay bir şekilde yapılandırılabilmesi, ilgili motorları ARM yapıları
içerisinde seçim yapılması avantajlı olan bir yapı olarak ortaya koymaktadır.
References
- Krishnan R., Switched Reluctance Motor Drives: Modeling, Simulation, Analysis, Design and Applications, CRC Press, New York, A.B.D, 2001.
- Krishnan R., An energy-efficiency-enhanced switched reluctance motor [from mind to market], IEEE Industrial Electronics Magazine, 1 (1), 4-6, 2007.
- Oh S.G., Krishnan R., Two-phase SRM with flux-reversal-free stator: concept, analysis, design and experimental verification, IEEE Transactions on Industry Applications, 43 (5), 1247-1257, 2007.
- Daldaban F., Ustkoyuncu N., Multi-layer switched reluctance motor to reduce torque ripple, Energy Conversion and Management, 49 (5), 974-979, 2008.
- Lee C., Krishnan R., Lobo N.S., Novel two-phase switched reluctance machine using common-pole E-core structure: concept, analysis and experimental verification, IEEE Transactions on Industry Applications, 45 (2), 703-711, 2009.
- Lee C., Krishnan R., New designs of a two-phase E-core switched reluctance machine by optimizing the magnetic structure for a specific application: concept, design, and analysis, IEEE Transactions on Industry Applications, 45 (5), 1804-1814, 2009.
- Kim J., Ha K., Krishnan R., Single-controllable-switch-based switched reluctance motor drive for low cost variable-speed applications, IEEE Transactions on Power Electronics, 27 (1), 379-387, 2012.
- Vattikuti N., Vandana R., Fernandes B.G., A novel high force density linear segmented switched reluctance machine, 34th Annual Conference of IEEE Industrial Electronics – IECON, 1083-1088, 10-13 November 2008.
- Sui-chun Q., Hua-bo L., Xiao-guang M., A design of transverse flux switched reluctance motors with permanent magnet shield, International Conference on Electrical Machines and Systems – ICEMS, 3367-3369, 17-20 October 2008.
- Baoming G., De Almeida A.T., Ferreira F., Design of transverse flux linear switched reluctance motor, IEEE Transactions on Magnetics, 45 (1), 113-119, 2009.
- Zula A., Mecrow B.C., Armstrong M., A wound-field three-phase flux-switching synchronous motor with all excitation sources on stator, IEEE Transactions on Industry Applications, 46 (6), 2363-2371, 2010.
- Song U., You Y., Kwon B., Design and analysis of transverse flux switched reluctance generators for wind turbine, 14th Biennial IEEE Conference on Electromagnetic Fiels Computation – CEFC, 9-12 May 2010.
- Darabi S., Beromi Y.A., Izadfar H.R., Comparison of two common configurations of LSRM: Transverse flux and longitudinal flux, International Conference and Exposition on Electrical and Power Engineering – EPE, 451-455, 25-27 October 2012.
- Li Y., Li H., Li Z., Design and implement of novel transverse flux switched reluctance magnetic energy motor combined with control system, International Conference on Mechatronics and Automation – ICMA, 1675-1680, 4-7 August 2013.
- Gundogan Turker C., Çınar M.A., Erfan Kuyumcu F., Analysis of the E-core transverse flux machine for indoor training bike application, Journal of the Faculty of Engineering and Architecture of Gazi University, 29 (1), 61-69, 2014.
- Amreiz H.M., Mecrow B.C., Weiner C., Linde A.G., Switched reluctance machines with simple hoop windings, International Conference on Power Electronics, Machines and Drives, 522-526, 4-7 June 2002.
- Hongquan Y., Chenglin G., Analytical design and modeling of transverse flux switched reluctance machine, International Conference on Electrical Machines and Systems – ICEMS, 3414-3416, 17-20 October 2008.
- Amreiz H.M., A comparison between transverse flux and conventional switched reluctance machine, 19th International Conference on Electrical Machines – ICEM, 1-8, 6-8 September 2010.
- Vannier J.C., Vidal P., Poirson C., Analysis and control of a reluctance motor having a toroidal magnetic circuit, International Conference on Electrical Machines – ICEM, 119-124, 2-4 September 1998.
- Amreiz H.M., Difficulties and complexities encountered in the design of transverse flux machines, Electrical Systems for Aircraft, Railway and Ship Propulsion – ESARS, 1-6, 16-18 October 2012.
- Ustkoyuncu N., Krishnan R., A performance comparison of conventional and transverse flux linear switched reluctance motors, Turkish Journal of Electrical Engineering and Computer Sciences, 23 (4), 974-986, 2015.
Year 2019,
Volume: 7 Issue: 1, 123 - 140, 24.03.2019
Abstract
References
- Krishnan R., Switched Reluctance Motor Drives: Modeling, Simulation, Analysis, Design and Applications, CRC Press, New York, A.B.D, 2001.
- Krishnan R., An energy-efficiency-enhanced switched reluctance motor [from mind to market], IEEE Industrial Electronics Magazine, 1 (1), 4-6, 2007.
- Oh S.G., Krishnan R., Two-phase SRM with flux-reversal-free stator: concept, analysis, design and experimental verification, IEEE Transactions on Industry Applications, 43 (5), 1247-1257, 2007.
- Daldaban F., Ustkoyuncu N., Multi-layer switched reluctance motor to reduce torque ripple, Energy Conversion and Management, 49 (5), 974-979, 2008.
- Lee C., Krishnan R., Lobo N.S., Novel two-phase switched reluctance machine using common-pole E-core structure: concept, analysis and experimental verification, IEEE Transactions on Industry Applications, 45 (2), 703-711, 2009.
- Lee C., Krishnan R., New designs of a two-phase E-core switched reluctance machine by optimizing the magnetic structure for a specific application: concept, design, and analysis, IEEE Transactions on Industry Applications, 45 (5), 1804-1814, 2009.
- Kim J., Ha K., Krishnan R., Single-controllable-switch-based switched reluctance motor drive for low cost variable-speed applications, IEEE Transactions on Power Electronics, 27 (1), 379-387, 2012.
- Vattikuti N., Vandana R., Fernandes B.G., A novel high force density linear segmented switched reluctance machine, 34th Annual Conference of IEEE Industrial Electronics – IECON, 1083-1088, 10-13 November 2008.
- Sui-chun Q., Hua-bo L., Xiao-guang M., A design of transverse flux switched reluctance motors with permanent magnet shield, International Conference on Electrical Machines and Systems – ICEMS, 3367-3369, 17-20 October 2008.
- Baoming G., De Almeida A.T., Ferreira F., Design of transverse flux linear switched reluctance motor, IEEE Transactions on Magnetics, 45 (1), 113-119, 2009.
- Zula A., Mecrow B.C., Armstrong M., A wound-field three-phase flux-switching synchronous motor with all excitation sources on stator, IEEE Transactions on Industry Applications, 46 (6), 2363-2371, 2010.
- Song U., You Y., Kwon B., Design and analysis of transverse flux switched reluctance generators for wind turbine, 14th Biennial IEEE Conference on Electromagnetic Fiels Computation – CEFC, 9-12 May 2010.
- Darabi S., Beromi Y.A., Izadfar H.R., Comparison of two common configurations of LSRM: Transverse flux and longitudinal flux, International Conference and Exposition on Electrical and Power Engineering – EPE, 451-455, 25-27 October 2012.
- Li Y., Li H., Li Z., Design and implement of novel transverse flux switched reluctance magnetic energy motor combined with control system, International Conference on Mechatronics and Automation – ICMA, 1675-1680, 4-7 August 2013.
- Gundogan Turker C., Çınar M.A., Erfan Kuyumcu F., Analysis of the E-core transverse flux machine for indoor training bike application, Journal of the Faculty of Engineering and Architecture of Gazi University, 29 (1), 61-69, 2014.
- Amreiz H.M., Mecrow B.C., Weiner C., Linde A.G., Switched reluctance machines with simple hoop windings, International Conference on Power Electronics, Machines and Drives, 522-526, 4-7 June 2002.
- Hongquan Y., Chenglin G., Analytical design and modeling of transverse flux switched reluctance machine, International Conference on Electrical Machines and Systems – ICEMS, 3414-3416, 17-20 October 2008.
- Amreiz H.M., A comparison between transverse flux and conventional switched reluctance machine, 19th International Conference on Electrical Machines – ICEM, 1-8, 6-8 September 2010.
- Vannier J.C., Vidal P., Poirson C., Analysis and control of a reluctance motor having a toroidal magnetic circuit, International Conference on Electrical Machines – ICEM, 119-124, 2-4 September 1998.
- Amreiz H.M., Difficulties and complexities encountered in the design of transverse flux machines, Electrical Systems for Aircraft, Railway and Ship Propulsion – ESARS, 1-6, 16-18 October 2012.
- Ustkoyuncu N., Krishnan R., A performance comparison of conventional and transverse flux linear switched reluctance motors, Turkish Journal of Electrical Engineering and Computer Sciences, 23 (4), 974-986, 2015.
There are 21 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Tasarım ve Teknoloji |
| Authors | |
| Publication Date | March 24, 2019 |
| Submission Date | July 23, 2018 |
| Published in Issue | Year 2019 Volume: 7 Issue: 1 |
