IAS DISTINGUISHED LECTURE - IV
The fourth IEEE IAS DISTINGUISHED LECTURE webinar scheduled on Saturday 21 November 2020. The event is organized and hosted by IAS Chapters and Membership Department (CMD) and Co-hosted by IEEE Region-1 Schenectady Section IAS Chapter, NY USA and IEEE Region-10 Vizag Bay Section PELS/IAS/PES Joint Chapter, INDIA.
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- Date: 28 Nov 2020
- Time: 05:30 PM to 06:30 PM
- All times are (UTC+05:30) Chennai
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Host: IAS CMD
Co-host:
Region-1 Schenectady Section IAS Chapter, New York, USA
Region-10 Vizag Bay Section PELS/IAS/PES Joint Chapter, INDIA
Sponsor: IAS CMD DL/PL Committee
- Co-sponsored by IAS CMD
Speakers
Jian-Xin SHEN of Zhejiang University, China
Applications and Multi-Physics Design of High Speed Permanent Magnet Synchronous Motor
In this speech, some typical applications of high speed permanent magnet synchronous motors (PMSM) are introduced. Optimal design of high speed large PMSM is then presented, taking a 350kW and 13.5krpm non-salient PMSM as an example. Firstly, it is critical to determine a proper level of PM-excited flux linkage in the armature windings, so that for a given high speed motor the supply voltage can be fully utilized, the motor armature current can be minimized, and the power factor can be enhanced. Of course all of these are associated with proper control strategies, whilst the motor must have sufficient potential capability to cooperate with the control strategies. In other words, the motor itself and the control method should be systematically designed. Specific considerations on electromagnetic design will presented. For example, PM rotor structure need be designed to provide sufficient strength against centrifugal force and meanwhile to generate the required level of PM flux, whilst stator winding structure should be designed with appropriate inductance, since high operation frequency could cause high armature impedance. Clearly, high armature impedance may deteriorate the motor power factor, but may also enhance the field modulation capability by armature currents, hence, compromise is essential. On the other hand, during electromagnetic design some special losses such as extra winding ohmic loss and rotor eddy current loss due to high speed operation should be particularly suppressed, as these losses may
cause high temperature rise and may even damage the motor. Rotor stress due to high speed operation need be considered critically. Examples of reducing local over-stress in the rotor will be given, whilst such techniques often harm the motor electromagnetic performance. Therefore, compromise is required again. Also, design of rotor dynamics is important, in that rotor resonance must be avoided. Basically it
is preferable to make a short rotor with a thick shaft to increase the critical resonant frequency. But this will usually enlarge the rotor diameter and consequently increase the rotor stress. On the other hand, high speed machines enjoy the merit of high power density, but also suffer
from the problem of high loss density. Hence, thermal design is particularly required. Winding impregnation or encapsulation can be employed, whilst liquid cooling or forced air cooling can be rather effective, hence, single- or even double-phase fluid dynamics computation is required, coupling with thermal analysis. Furthermore, some measures to enhance the fluid dynamics such as introducing extra air channels in the stator core will affect the motor electromagnetic performance. Clearly, various physical fields are deeply coupled in the high speed large power motors, thus, compromises must be made. Multi-physics analysis and design are not only essential, but also usually need be iterated, so as to achieve an overall satisfactory performance.
Biography:
Jian-Xin Shen received the B.Eng. and M.Sc. degrees from Xi'an Jiaotong University, Xi'an, China in 1991 and 1994, respectively, and the Ph.D. degree from Zhejiang University, Hangzhou, China in 1997, all in electrical engineering. He was with Nanyang Technological University, Singapore (1997-1999), the University of Sheffield, Sheffield, U.K. (1999-2002), and IMRA Europe SAS, U.K. Research Centre, Brighton, U.K. (2002-2004). Since 2004, he has been a full professor with Zhejiang University. Prof. Shen has authored more than 270 technical papers, and is the inventor of more than 40 patents. He received 8 paper awards from IEEE and international conferences. He was granted the Nagamori Award with recognition of his contribution to permanent magnet electrical machines and high speed electrical machines. He was the general chair of the ICEMS'2014, IEEE VPPC'2016 and IEEE SCEMS'2018 conferences. He is a senior member of IEEE, a member-at-large of IEEE Industry Applications Society, a member of IEEE Nikola Tesla Award committee, and a distinguished lecturer of IEEE Vehicular Technologies Society. He is a fellow of IET and a senior member of China Electrotechnical Society (CES). His main research interests include topologies, control and applications of permanent magnet machines and drives, and renewable energies.
Email:
Address:Professor, Zhejiang University, China, Hangzhou, China