Authors: Flur R. Ismagilov, Vyacheslav E. Vavilov, Denis V. Gusakov

Abstract:

This paper is devoted to solve the problem of increasing the electrification of aircraft engines by installing a synchronous generator at high pressure shaft. Technical solution of this problem by various research centers is discussed. A design solution of the problem was proposed. To evaluate the effectiveness of the proposed cooling system, thermal analysis was carried out in ANSYS software.

Keywords: Flur R. Ismagilov, Vyacheslav E. Vavilov, Denis V. Gusakov

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1128016

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1216

References:

[1] Besnard, J.-P., Biais, F., Martinez, M. Electrical rotating machines and power electronics for new aircraft equipment systems // ICAS-Secretariat - 25th Congress of the International Council of the Aeronautical Sciences 2006
[2] Van Der Geest M., Polinder H., Ferreira J.A., Zeilstra D. Machine selection and initial design of an aerospace starter/generator // 2013 IEEE International Electric Machines and Drives Conference, IEMDC 2013; Chicago, IL; United States; 12 May 2013 through 15 May 2013; Code 98445.
[3] Rajashekara, K., Grieve, J., Daggett, D., Hybrid fuel cell power in aircraft: a feasibility study for onboard power generation using a combination of solid oxide fuel cells and gas turbines, IEEE Industry Application Magazine, vol. 14, no. 3, pp. 54–60, 2008
[4] Xin Zhao; Guerrero, J.M.; Xiaohua Wu "Review of aircraft electric power systems and architectures", Energy Conference (ENERGYCON), 2014 IEEE International, On page(s): 949 – 953
[5] Jones, R.I., "The More Electric Aircraft: the past and the future," Electrical Machines and Systems for the More Electric Aircraft, pp. 1/1-1/4, 1999.
[6] Quigley, R.E.J., "More Electric Aircraft", IEEE Applied Power Electronics Conference and Exposition, pp. 906-911 APEC '1993.
[7] J. Kang, Multi-Pulse Rectifier Solutions for Input Harmonics Mitigation Yaskawa Electric America, 2005. Y.
[8] Nishida, Y. Okuma, K. Mino, Practical evaluation of simple 12- pulse three-phase-bridge diode rectifier of capacitor-input-type, International exhibition and conference for power electronics, PCIM EUROPE, 2007, Nuremberg
[9] Dieter Gerling, Mohammed Alnajjar Six-phase electrically excited synchronous generator for More Electric Aircraft, International Symposium on Power Electronics, Electrical Drives, Automation and Motion, 2016, pp. 7–13.
[10] Electron Energy Corporation (Online). Available: http://www.electronenergy.com/ (date of the application 07.09.2016)
[11] Tosetti M., Maggiore P., Cavagnino A., Vaschetto S. Conjugate heat transfer analysis of integrated brushless generators for more electric engines// 5th Annual IEEE Energy Conversion Congress and Exhibition. ECCE 2013; Denver, CO; United States; 15 September 2013through19 September 2013. Pp. 1518…1525.
[12] G. Dajaku, D. Gerling: “Magnetic radial force density of the PM machine with 12teeth/10-poles winding topology,” IEEE International Electric Machines and Drives Conference, IEMDC2009, Florida USA, May 3-6, 2009, pp.157-164
[13] G. Heins, D. Ionel, M. Thiele, “Winding factors and magnetic fields in permanent magnet brushless machines with concentrated windings and modular stator cores”; Energy Conversion Congress and Exposition (ECCE), pp. 5048 – 5055, 15.-19. September 2013.
[14] A.M. El-Refaie, "Fractional-slot concentrated-windings synchronous permanent magnet machines: opportunities and challenges," IEEE Transactions on Industrial Electronics, Jan. 2010.
[15] D. Ishak, Z. Q. Zhu: “Comparison of PM brushless motors, having either all teeth or alternate teeth wound”, IEEE Transactions on Energy Conversion, Vol. 21, No. 1, March 2006, pp. 95-103.
[16] Magnussen F., Sadarangani Ch.: “Winding factors and Joule losses of permanent magnet machines with concentrated windings”. 2003 IEEE International Electric Machines & Drives Conference (IEMDC 2003), 01-04.06 Madison Wisconsin, USA.
[17] Gurakuq Dajaku, Sachar Spas, Xhevat Dajaku, and Dieter Gerling “Comparison of two FSCW PM machines for integrated traction Motor/Generator”, 2015 IEEE International Electric Machines & Drives Conference (IEMDC) pp. 187–194
[18] Pyrhönen, J., Montonen, J., Lindh, P., Vauterin, J.J., Otto, M.J. Replacing copper with new carbon nanomaterials in electrical machine windings International Review of Electrical Engineering, 2015
[19] Vacuumschmelze (Online). Available: http://www.vacuumschmelze.com/ (date of the application 07.09.2016)
[20] Ismagilov F. R., Khairullin I., Vavilov V., Farrakhov D., Yakupov A., Bekuzin V. A high-temperature frameless starter-generator integrated into an aircraft engine // Russian Aeronautics 2016, Volume 59, Issue 1, pp 107–111
[21] Rodrigues Leon. High temperature embedded electrical machines for aerospace turbine applications. PhD thesis, University of Sheffield. 2013.
[22] Vavilov V., Ismagilov F.R., Hairullin I., Gusakov D. “High efficiency ultra-high speed microgenerator” Conf. Rec. IEEE IECON, 2016, submitted for publication.