Axial-Flux Synchronous Machines Compared with Different Stator Structures for Use in Working

• Autorzy: Huner E. , Akuner C.

Warianty tytułu

PL

Porównanie struktur stojana maszyny synchroniczny o strumieniu osiowym

• Języki publikacji: PL

Abstrakty

PL

W artykule przedstawiono wyniki prac dotyczących bezżłobkowego torusa stojana maszyny synchronicznej z magnesami trwałymi o strumieniu osiowym (ang. torus axial-flux permanent machine - TAFPM-NS). Materiał przedstawia badania i porównanie trzech typów stojana, na podstawie analizy magnetycznej 3-D oraz fazy eksperymentalnej.

EN

In this study, three different stator topologies were investigated and compared utilizing 3D magnetic analysis, analytical calculations, and experimental studies. These stator structures are torus iron core: There have been far fewer studies based on slotless stator torus axial-flux permanent magnets (TAFPM-NS). Comparisons of simulated and measured values on prototype machines are also presented to validate the analyses.

Słowa kluczowe

PL

maszyna z magnesami trwałymi o osiowym strumieniu torusa (TAFPM); metoda elementów skończonych (MES); generatory energii

EN

torus axial flux permanent magnet machines (TAFPM); finite element analysis (FEA); electric generators

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2012
• Tom: R. 88, nr 11a
• Strony: 174--177
• Opis fizyczny: Bibliogr. 11 poz., tab., rys.

Twórcy

autor

Huner E.

autor

Akuner C.

• Marmara University, Department of Technical Education Faculty, Istanbul, Turkey,,

Bibliografia

• [1] Caricchi F., Crescimbini F., Mezzetti F., Santini E., Multistage Axial Flux PM Machine for Wheel Direct Drive, IEEE Transactions on Industry Applications, July/August, (1996), Vol.32, No.4, 882-888
• [2] Huang S., Luo J., Leonardi F., Lipo T.A., A Comprasion of Power Density for Axial Flux Machines Based on General Purpose Sizing Equations, IEEE Transactions on Energy Conversion, (1999), Vol.14, No.2, 185-192
• [3] Aydın M., Huang S., Lipo T.A., Design and 3D Electromagnetic Field Analysis of Non-slotted and Slotted Torus Type Axial Flux Surface Mounted Permanent Magnet Disc Machines, IEEE Transactions on Energy Conversion, (2001)
• [4] Crescimbini F., Di Napoli A., Solero L., Caricchi F., Compact Permanent-Magnet Generator for Hybrid Vehicle Applications, IEEE Transactions on Industry Applicaitons, September/October, (2005), Vol.41, No.5, 1168-1177
• [5] Rahim N.A., Ping H.W., Tadjuddin M., Design of Axial Flux Permanent Magnet Brushless DC Motor for Direct Drive of Electric Vehicle, IEEE Power Engineering Society General Meeting, June, (2007)
• [6] Mahmoudi A., Ping H.W., Rahim N.A., A Comprasion Between the Torus and AFIR Axial-Flux Permanent-Magnet Machine Using Finite Element Analysis, IEEE International Electric Machines & Drives Conference (IEMDC), (2011), 242-247
• [7] Akuner C., Huner E., The Air Gap and Angle Optimization in the Axial Flux Permanent Magnet Motor, Electronics and Electrical Engineering- Kaunas: Technologija, (2011), No.4, 25-29
• [8] Gieras J.F., Gieras I.A., Performance Analysis of a Coreless Permanent Magnet Brushless Motor, IEEE Industry Applicaitons Conference, (2002), Vol.4, 2477-2482
• [9] Marignetti F., Colli V.D., Cancelliere F., Scarano M., Boldea I., Topor M., A Fractional Slot Axial Flux PM Direct Drive, IEEE, (2008), 689-695
• [10] Sadeghierad M., Lesani H., Mosef H., Darabi A., Air Gap Optimization of High-Speed Axial Flux PM Generator, Journal of Applied Sciences, (2009), 1915-1921
• [11] Upadhyay P.R., Rajagopal K.R., Singh B.P., Design of a Compact Winding for an Axial Flux Permanent Magnet Brushless DC Motor Used in an Electric Two Wheeler, IEEE Transactions on Magnetics, July, (2004), Vol.40, No.4, 2026- 2028