电气工程 |
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计及轴承传热的高密度永磁电机温升计算 |
张晗妮1, 张琪1, 黄苏融1, 张舟云1,2 |
1. 上海大学 机电工程与自动化学院,上海200072; 2. 上海电驱动股份有限公司,上海200240 |
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Temperature calculation for high power density permanent magnet motor with consideration of heat transfer in bearings |
ZHANG Han ni1, ZHANG Qi1, HUANG Su rong1, ZHANG Zhou yun1,2 |
1. School of Electromechanics and Automation,Shanghai University, Shanghai 200072, China;2. Shanghai Electrodrive Limited Liability Company, Shanghai 200240, China |
[1] EI REFAIE A M, ALEXANDER J P, GALIOTO S, et al. Advanced high power density interior permanent magnet motor for traction applications [J]. IEEE Transactions on Industry Applications, 2014, 50(5): 3235-3248.
[2] DEACONU A S, CHIRIL A I, NVRPESCU V. Thermal analysis of a PMSM for an intermittent periodic duty cycle [C] ∥ Advanced Topics in Electrical Engineering (ATEE), 2013 8th International Symposium on IEEE. Bucharest: IEEE, 2013: 1-4.
[3] FINLEY W R. Advantages of optimizing motor and drives to ensure best performance and total cost of ownership [C] ∥ Cement Industry Technical Conference (CIC). Shenzhen: IEEE, 2014: 1-14.
[4] KEFALAS T D, KLADAS A G. Thermal investigation of permanent magnet synchronous motor for aerospace applications [J]. IEEE Transactions on Industry Electronics, 2014, 14(4): 4404-4411.
[5] HUANG X Z LIU J X, ZHANG C M. Calculation and experimental study on temperature rise of a high overload tubular permanent magnet linear motor [J]. IEEE Transactions on Plasma Science, 2013, 41(5): 1182-1187.
[6] MARTINOVI M, DAMIR , STIPETI S, et al. Influence of winding design on thermal dynamics of permanent magnet traction motor [C] ∥ 22nd International Symposium on Power Electronics, Electrical Drives, Automation and Motion SPEEDAM. 2014: 397-402.
[7] GILSON G M, RAMINOSOA T, PICKERING S J. A combined electromagnetic and thermal optimisation of an aerospace electric motor [C] ∥ 2010 XIX International Conference on Electrical Machines (ICEM). Rome: IEEE, 2010: 1-7.
[8] FUNIERU B, BINDER A. Thermal design of a permanent magnet motor used for gearless railway traction [C] ∥ Industrial Electronics, 2008. IECON 2008. 34th Annual Conference of IEEE. Florida: IEEE, 2008:2061-2066.
[9] NILSAKORN T, WORANETSUTTIKUL K, PINSUNTIA K. Harmonic effect on BLDC motor temperature caused by driving system [C] ∥ 2014 International Electrical Engineering Congress (iEECON). Chonburi: IEEE, 2014: 1-4.
[10] LI Y, LIU J, XIA J, et al. Analysis of electromagnetic and thermal characteristics of the PM generator with rectifier load [C] ∥ Transportation Electrification Asia Pacific (ITEC Asia Pacific), 2014 IEEE Conference and Expo. Beijing: IEEE, 2014: 1-4.
[11] TUYSUZ A, SCHAUBHUT A, ZWYSSIG C. Model based loss minimization in high speed motors [C] ∥ Electric Machines and Drives Conference (IEMDC), 2013 IEEE International. Chicago: IEEE, 2013: 332-339.
[12] ILHAN E, KREMERS M F J, MOTOASCA T E. Transient thermal analysis of flux switching PM machines [C] ∥ Ecological Vehicles and Renewable Energies (EVER), 2013 8th International Conference and Exhibition on IEEE, Monte Carlo: IEEE, 2013: 1-7.
[13] BRACIKOWSKI N, HECQUET M, BROCHET P. Multiphysics modeling of a permanent magnet synchronous machine by using lumped models [J]. IEEE Transactions on Industry Electronics, 2012, 59(6): 2426-2436.
[14] HRUSKA K, KINDL V, PECHANEK R. Evaluation of different approaches of mathematical modelling of thermal phenomena applied to induction motors [C] ∥ 2014 ELEKTRO Annual Conference of IEEE. Moscow: IEEE, 2014: 358-362.
[15] BOSENIUK F, PONICK B. Parameterization of transient thermal models for permanent magnet synchronous machines exclusively based on measurements [C] ∥ 2014 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM). Ischia: IEEE, 2014: 295-301.
[16] HUANG X Z, LI L Y, ZHOU B. Temperature calculation for tubular linear motor by the combination of thermal circuit and temperature field method considering the linear motion of air gap [J]. IEEE Transactions on Industrial Electronics, 2013, 61(8): 3923-3931.
[17] YAMAZAKI K, KATO Y. Reduction of rotor losses in multi layer interior permanent magnet synchronous motors by introducing novel topology of rotor flux barriers [J]. IEEE Transactions on Industry Applications, 2013: 1-10.
[18] KIM K S, LEE B H, HONG J P. Improvement of thermal equivalent circuit network and prediction on heat characteristic of motor by calculation of convection heat transfer coefficient [C] ∥ Electromagnetic Field Problems and Applications (ICEF), 2012 6th International Conference on IEEE. Dalian: IEEE, 2012: 1-4.
[19] 师蔚. 高密度永磁电机永磁体防退磁技术的研究[D].上海:上海大学, 2013.
SHI Wei. The research of anti demagnetization technology of permanent magnet in high density permanent magnet motor [D]. Shanghai: Shanghai University,2013.
[20] WROBEL R, VAINEL G, COPELAND C. Investigation of mechanical loss and heat transfer in an axial flux PM machine [C] ∥ 2013 IEEE, Energy Conversion Congress and Exposition (ECCE), Denver: IEEE, 2013: 4372-4379.
[21] 黄东洋,洪军,张进华.热阻网络法在轴系温度场求解中的应用[J].西安交通大学学报, 2012 (5): 63-66.
HUANG Dong yang, HONG Jun, ZHANG Jin hua. Thermal resistance network for solving temperature field in spindle system [J]. Journal of Xi’an Jiaotong University. 2012 (5): 6366.
[22] 涂亦虓, 马希直. 高速向心推力球轴承温度场分析[J]. 机械制造与自动化, 2012(6): 43-55.
TU Yi xiao, MA Xi zhi. Analysis of temperature fields of high speed centripetal thrust ball bearing[J]. Machine Building and Automation, 2012(6): 43-55.
[23] 薛志嵩, 胡小秋, 赵雁. 考虑结合面接触热阻的角接触球轴承温度场分析[J]. 轴承, 2013(5): 34-37.
XUE Zhi song, HU Xiao qiu, ZHAO Yan. Analysis on thermal field for angular contact ball bearings considering thermal contact resistance of coupling surfaces [J]. Bearing, 2013(5): 34-37.
[24] ATATON D, BOGLIETTI A, CAVAGNINO A. Solving the more difficult aspects of electric motor thermal analysis in small and medium size industrial induction motors. [J] IEEE Transactions on Energy Conversion, 2005, 20(3): 620-628.
[25] CHILDS P R N. Rotating flow [M] London: Butterworth Heinemann, 2011.
[26] HOWEY D A, CHILDS P R N, HOLMES A S. Air gap convection in rotating electrical machines [J]. IEEE Industrial Electronics Society, 2010, 59(3):1367-1375.
[27] HIRPSHI I, MIYAGI K. Laminar flow in rotating curved pipes [J]. Journal of Fluid Mechanics, 1996, 329: 373-388.
[28] INCROPERA F P, DEEITT D P. Fundamentals of Heat and Mass Transfer [M]. New York: Wiley,2012.
[29] HARRIS T A, KOTZALAS, M N. 轴承技术的基本概念[M] ∥ 滚动轴承分析,第1卷.罗继伟,马伟,译.5版.北京:机械工业出版社, 2009.
[30] 王爱元,黄苏融,汞俊.应用集中参数热模型的高密度IPM电机运行过程的热仿真[J].微特电机, 2004 (8): 5-8.
WANG Ai yuan,HUANG Su rong,GONG Jun. Thermal simulation of high density IPM motor operating process using lumped parameter thermal model [J]. Small and Special Machines. 2004(8): 5-8. |
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