Araştırma Makalesi
BibTex RIS Kaynak Göster

YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI

Yıl 2015, Cilt: 30 Sayı: 3, 461 - 474, 30.09.2015
https://doi.org/10.17341/gummfd.55972

Öz

Bu çalışmada, Anahtarlamalı Relüktans Motorlar’da (ARM) yüksek tork ve geleneksel sargı yapısına göre düşük kaçak akıya sahip yeni bir ARM yapısı önerilmektedir. Geleneksel ARM’lerin aksine yeni yapıda sargılar doğrudan kutuplar üzerine sarılmamıştır. Sargılar üç katmanlı olarak birbirinden yalıtılmış şekilde ve rotora daha yakın bir yere yerleştirilmiştir. Her faz sargısının iki yanında hareket edecek rotor kutupları oluşturulmuştur. Böylece faz sargılarında oluşacak akı eksenel olarak stator kutuplarından ve rotor kutuplarından devresini tamamlamaktadır. Bu özelliği ile geleneksel ARM’lerden ayrılmış ve eksenel akılı anahtarlamalı relüktans motor diye adlandırılmıştır (EA-ARM). Önerilen motor geometrisinin ANSYS Maxwell programında 3 boyutlu manyetik analizleri ve parametrik analizleri gerçekleştirilmiştir. Önerilen yapının prototipi geçekleştirilmiş ve deneysel sonuçlar ile simülasyon sonuçları karşılaştırılmıştır.

Kaynakça

  • Irwin, J. D., “Switched Reluctance Motor Drives; Modeling, Simulation, Analysis, Design, and Applications”, Series Editor, Auburn University, Alabama, A.B.D., 2001.
  • Vijayraghavan, P., “Design of Switched Reluctance Motors and Development of a Universal Controller for Switched Reluctance and Permanent Magnet Brushless DC Motor Drives”, Doktora Tezi, Faculty of the Virginia Polytechnic Institute and State University, Blacksburg, Virginia, 2001.
  • Miller, T.J.E., “Switched Reluctance Motors and their Control”, Magna Physics Publishing and Clarendon Press, Oxford, İngiltere, 1993.
  • Nasar, S.A., “DC Switched Reluctance Motor”, Proc. IEE, Cilt 116, No 6, 1048–1049, 1969.
  • Lawrenson, P.J., Stephenson, J.M., Blenkinsop, P.T., Corda, J. and Fulton, N.N., “Variable-speed Switched Reluctance Motors”, Proc. IEE, Cilt 127, No 4, 253–265, 1980.
  • Byrne, J. and Lacy, J.C.; “Electrodynamic system comprising a variable reluctance machine”, U.S. Patent 3956678, May 1976.
  • Üstkoyuncu N., “Anahtarlamalı Relüktans Motorlarda Torkun Kontrolü ve İyileştirilmesi”, Yüksek Lisans Tezi, Erciyes Üniversitesi, Fen Bilimleri Enstitüsü, Kayseri, 2004.
  • Stephenson, J. C., “Computation of Torque and Current in Doubly Salient Reluctance Motors From Non-Linear Magnetization Data”, IEE Proceedings Electric Power Applications, Cilt 126, 393–396, 1979.
  • Ray W.F,. Davis RM, Lamson RJ., Stephenson J.M., Fulton N.N. and Blake R.J., ”Switched reluctance motor drives for rail traction: a second view” IEE Proceedings Pt.B, Cilt 131, No 5, 220–225, Eylül 1984.
  • Tohumcu M., Ertan H.B.; "Prediction of performance of swithched reluctance motor for design purposes", International Conference on Electrical Machines, Cilt 2, 557–561, Pisa, Italy, 1988.
  • Miller T. J. E., “Electronic Control of Switched Reluctance Machines”, Oxford, İngiltere, 48-56, 2001.
  • Miles A.R.,“Design of a 5 MW, 9000V Switched Reluctance Motor”, IEEE Trans. Energy Conversion, Cilt 6, 484–491, 1991.
  • Khwaja M. R., “Advantages of Switched Reluctance Motor Applications to EV and HEV: Design and Control Issues”, IEEE Transactions on Industrial Applications, Cilt 36, No 1, 1-4, 2000.
  • Ohdachi, Y., Kawase, Y., Miura, Y., Hayashi, Y., “Optimum design of switched reluctance motors using dynamic finite element analysis”, IEEE Transactions on Magnetics, Cilt 33, 2033–2036, 1997.
  • Fahimi, B., Suresh, G., Mahdavi, J., Ehsami, M., “A new approach to model switched reluctance motor drive application to dynamic performance prediction, control and design”, 29th Annual IEEE Power Electronics Specialists Conference, Fukuoka, Japonya, Cilt 2, 2097–2102, Mayıs 1998.
  • Matsui, N., Kosaka, T., Minoshima, N., Ohdachi, Y., “Development of SRM for spindle motor system”, IEEE Industry Applications Conference, Thirty-Third IAS Annual Meeting, St. Louis, Missouri, A.B.D., Cilt 1, 580–585, Ekim 1998.
  • Lee, B.S., Bae, H.K., Vijayraghavan, P., Krishnan, R., “Design of a linear switched reluctance machine”, IEEE Industry Applications Conference, Arizona, A.B.D., 2267–2274, Ekim 1999.
  • Fahimi, B., Suresh, G., Ehsani, M., “Large switched reluctance machines: a 1 MW case study”, Electric Machines and Drives International Conference IEMD '99, Seattle, A.B.D., 84–86, Mayıs 1999.
  • Sanada, M.. Morimoto, S., Takeda, Y., Matsui, N., “Novel rotor pole design of switched reluctance motors to reduce the acoustic noise”, Industry Applications Conference, Conference Record IEEE, 107–113, Ekim 2000.
  • Rahman, K.M., Fahimi, B., Suresh, G., Rajarathnam, A.V., Ehsani, M., “Advantages of switched reluctance motor applications to EV and HEV: design and control issues”, IEEE Transactions on Industry Applications, 111-121, 2000.
  • Hall, E. M., Ramamurthy, S.S., Balda, J.C., “Analysis, Dimensional Sizing, and Configuration Comparison of Switched Reluctance Motors Operating under Multiphase Excitation”, IEEE Power Engineering Review, Cilt 22, 48–49, 2002.
  • Jiang, Q., Bi, C., Low, T.S., “Numerical design and analysis of switched reluctance motors”, The Fourth International Conference on Computation in Electromagnetics, 2002.
  • Hall, E.M., Ramamurthy, S.S., Balda, J.C., “Analysis, dimensional sizing and configuration comparison of switched-reluctance motors operating under multiphase excitation”, IEEE Transactions on Energy Conversion, Cilt 17, 325–331, 2002.
  • Mingyao L., Ming C., Zhou E., “Design and performance analysis of new 12/8-pole doubly salient permanent-magnet motor”, Sixth International Conference on Electrical Machines and Systems, Beijing, China, 21–25, Kasım 2003.
  • Rizk, J., Nagrial, M.H., Hellany, A., “Design and performance of switched reluctance motors”, ICEMS 2003 Sixth International Conference on Electrical Machines and Systems, Beijing, China 211–216, Kasım 2003.
  • Higuchi, T., Fiedler, J.O., De Doncker, R.W., “On the design of a single-phase switched reluctance motor”, IEEE International Electric Machines and Drives Conference, Wisconsin A.B.D., 561–567, Haziran 2003.
  • Long, S.A., Schofield, N., Howe, D., Piron, M., McClelland, M., “Design of a switched reluctance machine for extended speed operation”, IEEE IEMDC'03. International Electric Machines and Drives Conference, Wisconsin A.B.D., 235–240, Haziran 2003.
  • Hur, J., Kang, G.H., Lee, J.Y., Hong, J.P., Lee, B.K., “Design and optimization of high torque, low ripple switched reluctance motor with flux barrier for direct drive”, IEEE Industry Applications Conference, 39th IAS Annual Meeting, Seattle, A.B.D., 401-408, Ekim 2004.
  • Lee J.W., Kim H.S., Kwon B.I., Kim B.T., “New rotor shape design for minimum torque ripple of SRM using FEM”, IEEE Transactions on Magnetics, Cilt 40, 754–757, 2004.
  • Khor M.T., Sotudeh, R., Lee, D., “Switched reluctance motor based on short flux path control method”, 39th International Universities Power Engineering Conference, Bristol, İngiltere, 559–562, Eylül 2004.
  • Lee J.H., Lee E.W., Kim J.H., “Design of the single phase SRM for the blower considering self-starting”, Proceedings of the Eighth International Conference on Electrical Machines and Systems, Nanjing, China, 667–670, Eylül 2005.
  • Mao S.H., Tsai M.C., “A novel switched reluctance motor with C-core stators”, IEEE Transactions on Magnetics, Cilt 41, 4413–4420, 2005.
  • Momen, M.F., Husain, I., “Design and performance analysis of a switched reluctance motor for low duty cycle operation”, IEEE Transactions on Industry Applications, Cilt 41, 1612–1618, 2005.
  • Khor, M.T., Sotudeh, R., “A 3-phase 12/10 asymmetrical switched reluctance motor”, European Conference on Power Electronics and Applications, Dresden, Almanya, 1-9, Eylül 2005.
  • Oh J.H., Kwon B.I., “New rotor shape design of SRM to reduce the torque ripple and improve the output power”, Proceedings of the Eighth International Conference on Electrical Machines and Systems, Nanjing, China, 652–654, Eylül 2005.
  • Pandey, K., Rajagopal, K.R., “Novel pole shapes for improved performance of switched reluctance hub motors”, Intermag IEEE International Magnetics Conference, Nagoya, Japonya, 749–750, Nisan 2005.
  • Edrington, C.S., Krishnamurthy, M., Fahimi, B., “Bipolar Switched Reluctance Machines: A Novel Solution for Automotive Applications”, IEEE Transactions on Vehicular Technology, Cilt 54, 795–808, 2005.
  • Ashok, P., Tesar, D., “Computer Aided Design of Switched Reluctance Motors for Use in Robotic Actuators”, World Automation Congress, WAC, Budapeşte, Macaristan, 1–7, Temmuz 2006.
  • Ohyama, K., Nashed, M.N.F., Aso, K., Fujii, H., Uehara, H., “Design using Finite Element Analysis of Switched Reluctance Motor for Electric Vehicle”, 2nd Information and Communication Technologies - ICTTA '06, Damascus, Suriye, 727–732, Nisan 2006.
  • Fujishiro, S., Ishikawa, K., Kikuchi, S., Nakamura, K., Ichinokura, O., “Design of outer-rotor-type multipolar switched reluctance motor for electric vehicle”, Journal of Applied Physics, Cilt 99, 08R324 - 08R324-3 2006.
  • Cakir, K., Sabanovic, A., “In-wheel motor design for electric vehicles”, 9th IEEE International Workshop on Advanced Motion Control, İstanbul, Türkiye, 613-618, 2006.
  • Kachapornkul, S., Jitkreeyarn, P., Somsiri, P., Tungpimolrut, K., Chiba, A., Fukao, T., “A design of 15 kW switched reluctance motor for electric vehicle applications”, ICEMS International Conference on Electrical Machines and Systems, Seoul, Korea, 1690–1693, Ekim 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, Cilt 43, 1247–1257, 2007.
  • 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 Industry Applications Conference, 42nd IAS Annual Meeting, Louisiana, A.B.D., Eylül 2210–2217, 2007.
  • Ekram, S., Ravi, N., Rajagopal, K.R., Mahajan, D., “Design and Development of a High Efficiency Switched Reluctance Motor for a Mixer-Grinder Application”, IECON IEEE Industrial Electronics Society, Taipei, Taiwan, 193–197, Kasım 2007.
  • Desai, P.C., Krishnamurthy, M., Schofield, N., Emadi, A., “Novel Switched Reluctance Machine Configuration With Higher Number of Rotor Poles Than Stator Poles: Concept to Implementation”, IEEE Transactions on Industrial Electronics, Cilt 57, 649–659, 2010.
  • Ruba, M., Bentia, I., Szabo, L., “Novel modular switched reluctance machine for safety-critical applications”, 2010 XIX International Conference on Electrical Machines (ICEM), Roma, İtalya, 1–6, Eylül 2010.
  • Labak, A., Kar, N.C., “Development and analysis of a five-phase pancake shaped switched reluctance motor”, XIX International Conference on Electrical Machines (ICEM), Roma, İtalya, 1-6, Eylül 2010.
  • Fenercioğlu, A., “Helisel Yapılı Anahtarlamalı Relüktans Motorun (HY-ARM) Tasarımı ve Analizi” Doktora Tezi, Gazi Üniversitesi Fen Bilimleri Enstitüsü, Ankara, 2006.
  • Hossein T., Ebrahim A., and Mohammad S.T., “New Double-Layer-per-Phase Isolated Switched Reluctance Motor: Concept, Numerical Analysis, and Experimental Confirmation” IEEE Transactions on Industrial Electronics, Cilt 59, No 2, 830-838, 2012.
  • Sefa, İ., Sliding Mode Yaklaşımı ile Anahtarlamalı Relüktans Motorun Hız Kontrolü, Doktora Tezi, Erciyes Üniversitesi Fen Bilimleri Enstitüsü, Kayseri, 1997.
  • Hamayer, K., Belmans, R., Numerical Modelling and Design of Electrical Machines and Devices, Wit Press Boston, A.B.D., 1999.
  • Bastos, J.P.A., Electromagnetic Modeling by Finite Element Methods, Marcel Dekker, New York, A.B.D., 2003.
  • Jianning, J., The Finite Element Method in Electromagnetics, John Wiley&Sons Inc., New York, A.B.D., 1993.

THE MAGNETIC ANALYSIS AND DESIGN OF NEW TYPE AXIAL FLUX SWITCHED RELUCTANCE MOTOR

Yıl 2015, Cilt: 30 Sayı: 3, 461 - 474, 30.09.2015
https://doi.org/10.17341/gummfd.55972

Öz

In this study, a new SRM structure with lower flux than high torque and conventional winding structure is proposed in Switched Reluctance Motors (SRM). Unlike conventional SRM motors, the winding are not directly rolled over poles in the new structure. Windings are placed to somewhere closer to rotor as three layered and isolated from one another. Rotor poles which will move on both sides of each phase winding have been created. Thus, the flux created in phase windings completes its circle from stator poles and rotor poles axially. With this feature, it is different from conventional SRMs and named as axial flux switched reluctance motor (AF-SRM). The 3D magnetic analysis and parametric analysis of the proposed motor geometry have been realized in
ANSYS Maxwell program. The prototype of the proposed structure has been made and experimental results and simulation results have been compared. 

Kaynakça

  • Irwin, J. D., “Switched Reluctance Motor Drives; Modeling, Simulation, Analysis, Design, and Applications”, Series Editor, Auburn University, Alabama, A.B.D., 2001.
  • Vijayraghavan, P., “Design of Switched Reluctance Motors and Development of a Universal Controller for Switched Reluctance and Permanent Magnet Brushless DC Motor Drives”, Doktora Tezi, Faculty of the Virginia Polytechnic Institute and State University, Blacksburg, Virginia, 2001.
  • Miller, T.J.E., “Switched Reluctance Motors and their Control”, Magna Physics Publishing and Clarendon Press, Oxford, İngiltere, 1993.
  • Nasar, S.A., “DC Switched Reluctance Motor”, Proc. IEE, Cilt 116, No 6, 1048–1049, 1969.
  • Lawrenson, P.J., Stephenson, J.M., Blenkinsop, P.T., Corda, J. and Fulton, N.N., “Variable-speed Switched Reluctance Motors”, Proc. IEE, Cilt 127, No 4, 253–265, 1980.
  • Byrne, J. and Lacy, J.C.; “Electrodynamic system comprising a variable reluctance machine”, U.S. Patent 3956678, May 1976.
  • Üstkoyuncu N., “Anahtarlamalı Relüktans Motorlarda Torkun Kontrolü ve İyileştirilmesi”, Yüksek Lisans Tezi, Erciyes Üniversitesi, Fen Bilimleri Enstitüsü, Kayseri, 2004.
  • Stephenson, J. C., “Computation of Torque and Current in Doubly Salient Reluctance Motors From Non-Linear Magnetization Data”, IEE Proceedings Electric Power Applications, Cilt 126, 393–396, 1979.
  • Ray W.F,. Davis RM, Lamson RJ., Stephenson J.M., Fulton N.N. and Blake R.J., ”Switched reluctance motor drives for rail traction: a second view” IEE Proceedings Pt.B, Cilt 131, No 5, 220–225, Eylül 1984.
  • Tohumcu M., Ertan H.B.; "Prediction of performance of swithched reluctance motor for design purposes", International Conference on Electrical Machines, Cilt 2, 557–561, Pisa, Italy, 1988.
  • Miller T. J. E., “Electronic Control of Switched Reluctance Machines”, Oxford, İngiltere, 48-56, 2001.
  • Miles A.R.,“Design of a 5 MW, 9000V Switched Reluctance Motor”, IEEE Trans. Energy Conversion, Cilt 6, 484–491, 1991.
  • Khwaja M. R., “Advantages of Switched Reluctance Motor Applications to EV and HEV: Design and Control Issues”, IEEE Transactions on Industrial Applications, Cilt 36, No 1, 1-4, 2000.
  • Ohdachi, Y., Kawase, Y., Miura, Y., Hayashi, Y., “Optimum design of switched reluctance motors using dynamic finite element analysis”, IEEE Transactions on Magnetics, Cilt 33, 2033–2036, 1997.
  • Fahimi, B., Suresh, G., Mahdavi, J., Ehsami, M., “A new approach to model switched reluctance motor drive application to dynamic performance prediction, control and design”, 29th Annual IEEE Power Electronics Specialists Conference, Fukuoka, Japonya, Cilt 2, 2097–2102, Mayıs 1998.
  • Matsui, N., Kosaka, T., Minoshima, N., Ohdachi, Y., “Development of SRM for spindle motor system”, IEEE Industry Applications Conference, Thirty-Third IAS Annual Meeting, St. Louis, Missouri, A.B.D., Cilt 1, 580–585, Ekim 1998.
  • Lee, B.S., Bae, H.K., Vijayraghavan, P., Krishnan, R., “Design of a linear switched reluctance machine”, IEEE Industry Applications Conference, Arizona, A.B.D., 2267–2274, Ekim 1999.
  • Fahimi, B., Suresh, G., Ehsani, M., “Large switched reluctance machines: a 1 MW case study”, Electric Machines and Drives International Conference IEMD '99, Seattle, A.B.D., 84–86, Mayıs 1999.
  • Sanada, M.. Morimoto, S., Takeda, Y., Matsui, N., “Novel rotor pole design of switched reluctance motors to reduce the acoustic noise”, Industry Applications Conference, Conference Record IEEE, 107–113, Ekim 2000.
  • Rahman, K.M., Fahimi, B., Suresh, G., Rajarathnam, A.V., Ehsani, M., “Advantages of switched reluctance motor applications to EV and HEV: design and control issues”, IEEE Transactions on Industry Applications, 111-121, 2000.
  • Hall, E. M., Ramamurthy, S.S., Balda, J.C., “Analysis, Dimensional Sizing, and Configuration Comparison of Switched Reluctance Motors Operating under Multiphase Excitation”, IEEE Power Engineering Review, Cilt 22, 48–49, 2002.
  • Jiang, Q., Bi, C., Low, T.S., “Numerical design and analysis of switched reluctance motors”, The Fourth International Conference on Computation in Electromagnetics, 2002.
  • Hall, E.M., Ramamurthy, S.S., Balda, J.C., “Analysis, dimensional sizing and configuration comparison of switched-reluctance motors operating under multiphase excitation”, IEEE Transactions on Energy Conversion, Cilt 17, 325–331, 2002.
  • Mingyao L., Ming C., Zhou E., “Design and performance analysis of new 12/8-pole doubly salient permanent-magnet motor”, Sixth International Conference on Electrical Machines and Systems, Beijing, China, 21–25, Kasım 2003.
  • Rizk, J., Nagrial, M.H., Hellany, A., “Design and performance of switched reluctance motors”, ICEMS 2003 Sixth International Conference on Electrical Machines and Systems, Beijing, China 211–216, Kasım 2003.
  • Higuchi, T., Fiedler, J.O., De Doncker, R.W., “On the design of a single-phase switched reluctance motor”, IEEE International Electric Machines and Drives Conference, Wisconsin A.B.D., 561–567, Haziran 2003.
  • Long, S.A., Schofield, N., Howe, D., Piron, M., McClelland, M., “Design of a switched reluctance machine for extended speed operation”, IEEE IEMDC'03. International Electric Machines and Drives Conference, Wisconsin A.B.D., 235–240, Haziran 2003.
  • Hur, J., Kang, G.H., Lee, J.Y., Hong, J.P., Lee, B.K., “Design and optimization of high torque, low ripple switched reluctance motor with flux barrier for direct drive”, IEEE Industry Applications Conference, 39th IAS Annual Meeting, Seattle, A.B.D., 401-408, Ekim 2004.
  • Lee J.W., Kim H.S., Kwon B.I., Kim B.T., “New rotor shape design for minimum torque ripple of SRM using FEM”, IEEE Transactions on Magnetics, Cilt 40, 754–757, 2004.
  • Khor M.T., Sotudeh, R., Lee, D., “Switched reluctance motor based on short flux path control method”, 39th International Universities Power Engineering Conference, Bristol, İngiltere, 559–562, Eylül 2004.
  • Lee J.H., Lee E.W., Kim J.H., “Design of the single phase SRM for the blower considering self-starting”, Proceedings of the Eighth International Conference on Electrical Machines and Systems, Nanjing, China, 667–670, Eylül 2005.
  • Mao S.H., Tsai M.C., “A novel switched reluctance motor with C-core stators”, IEEE Transactions on Magnetics, Cilt 41, 4413–4420, 2005.
  • Momen, M.F., Husain, I., “Design and performance analysis of a switched reluctance motor for low duty cycle operation”, IEEE Transactions on Industry Applications, Cilt 41, 1612–1618, 2005.
  • Khor, M.T., Sotudeh, R., “A 3-phase 12/10 asymmetrical switched reluctance motor”, European Conference on Power Electronics and Applications, Dresden, Almanya, 1-9, Eylül 2005.
  • Oh J.H., Kwon B.I., “New rotor shape design of SRM to reduce the torque ripple and improve the output power”, Proceedings of the Eighth International Conference on Electrical Machines and Systems, Nanjing, China, 652–654, Eylül 2005.
  • Pandey, K., Rajagopal, K.R., “Novel pole shapes for improved performance of switched reluctance hub motors”, Intermag IEEE International Magnetics Conference, Nagoya, Japonya, 749–750, Nisan 2005.
  • Edrington, C.S., Krishnamurthy, M., Fahimi, B., “Bipolar Switched Reluctance Machines: A Novel Solution for Automotive Applications”, IEEE Transactions on Vehicular Technology, Cilt 54, 795–808, 2005.
  • Ashok, P., Tesar, D., “Computer Aided Design of Switched Reluctance Motors for Use in Robotic Actuators”, World Automation Congress, WAC, Budapeşte, Macaristan, 1–7, Temmuz 2006.
  • Ohyama, K., Nashed, M.N.F., Aso, K., Fujii, H., Uehara, H., “Design using Finite Element Analysis of Switched Reluctance Motor for Electric Vehicle”, 2nd Information and Communication Technologies - ICTTA '06, Damascus, Suriye, 727–732, Nisan 2006.
  • Fujishiro, S., Ishikawa, K., Kikuchi, S., Nakamura, K., Ichinokura, O., “Design of outer-rotor-type multipolar switched reluctance motor for electric vehicle”, Journal of Applied Physics, Cilt 99, 08R324 - 08R324-3 2006.
  • Cakir, K., Sabanovic, A., “In-wheel motor design for electric vehicles”, 9th IEEE International Workshop on Advanced Motion Control, İstanbul, Türkiye, 613-618, 2006.
  • Kachapornkul, S., Jitkreeyarn, P., Somsiri, P., Tungpimolrut, K., Chiba, A., Fukao, T., “A design of 15 kW switched reluctance motor for electric vehicle applications”, ICEMS International Conference on Electrical Machines and Systems, Seoul, Korea, 1690–1693, Ekim 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, Cilt 43, 1247–1257, 2007.
  • 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 Industry Applications Conference, 42nd IAS Annual Meeting, Louisiana, A.B.D., Eylül 2210–2217, 2007.
  • Ekram, S., Ravi, N., Rajagopal, K.R., Mahajan, D., “Design and Development of a High Efficiency Switched Reluctance Motor for a Mixer-Grinder Application”, IECON IEEE Industrial Electronics Society, Taipei, Taiwan, 193–197, Kasım 2007.
  • Desai, P.C., Krishnamurthy, M., Schofield, N., Emadi, A., “Novel Switched Reluctance Machine Configuration With Higher Number of Rotor Poles Than Stator Poles: Concept to Implementation”, IEEE Transactions on Industrial Electronics, Cilt 57, 649–659, 2010.
  • Ruba, M., Bentia, I., Szabo, L., “Novel modular switched reluctance machine for safety-critical applications”, 2010 XIX International Conference on Electrical Machines (ICEM), Roma, İtalya, 1–6, Eylül 2010.
  • Labak, A., Kar, N.C., “Development and analysis of a five-phase pancake shaped switched reluctance motor”, XIX International Conference on Electrical Machines (ICEM), Roma, İtalya, 1-6, Eylül 2010.
  • Fenercioğlu, A., “Helisel Yapılı Anahtarlamalı Relüktans Motorun (HY-ARM) Tasarımı ve Analizi” Doktora Tezi, Gazi Üniversitesi Fen Bilimleri Enstitüsü, Ankara, 2006.
  • Hossein T., Ebrahim A., and Mohammad S.T., “New Double-Layer-per-Phase Isolated Switched Reluctance Motor: Concept, Numerical Analysis, and Experimental Confirmation” IEEE Transactions on Industrial Electronics, Cilt 59, No 2, 830-838, 2012.
  • Sefa, İ., Sliding Mode Yaklaşımı ile Anahtarlamalı Relüktans Motorun Hız Kontrolü, Doktora Tezi, Erciyes Üniversitesi Fen Bilimleri Enstitüsü, Kayseri, 1997.
  • Hamayer, K., Belmans, R., Numerical Modelling and Design of Electrical Machines and Devices, Wit Press Boston, A.B.D., 1999.
  • Bastos, J.P.A., Electromagnetic Modeling by Finite Element Methods, Marcel Dekker, New York, A.B.D., 2003.
  • Jianning, J., The Finite Element Method in Electromagnetics, John Wiley&Sons Inc., New York, A.B.D., 1993.
Toplam 54 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Yusuf Öner

Mehmet Öztürk

Yayımlanma Tarihi 30 Eylül 2015
Gönderilme Tarihi 30 Eylül 2015
Yayımlandığı Sayı Yıl 2015 Cilt: 30 Sayı: 3

Kaynak Göster

APA Öner, Y., & Öztürk, M. (2015). YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 30(3), 461-474. https://doi.org/10.17341/gummfd.55972
AMA Öner Y, Öztürk M. YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI. GUMMFD. Ekim 2015;30(3):461-474. doi:10.17341/gummfd.55972
Chicago Öner, Yusuf, ve Mehmet Öztürk. “YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 30, sy. 3 (Ekim 2015): 461-74. https://doi.org/10.17341/gummfd.55972.
EndNote Öner Y, Öztürk M (01 Ekim 2015) YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 30 3 461–474.
IEEE Y. Öner ve M. Öztürk, “YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI”, GUMMFD, c. 30, sy. 3, ss. 461–474, 2015, doi: 10.17341/gummfd.55972.
ISNAD Öner, Yusuf - Öztürk, Mehmet. “YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 30/3 (Ekim 2015), 461-474. https://doi.org/10.17341/gummfd.55972.
JAMA Öner Y, Öztürk M. YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI. GUMMFD. 2015;30:461–474.
MLA Öner, Yusuf ve Mehmet Öztürk. “YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, c. 30, sy. 3, 2015, ss. 461-74, doi:10.17341/gummfd.55972.
Vancouver Öner Y, Öztürk M. YENİ TİP EKSENEL AKILI ANAHTARLAMALI RELÜKTANS MOTOR MANYETİK ANALİZİ VE TASARIMI. GUMMFD. 2015;30(3):461-74.