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更新日期:2018年3月19日
姓 名 余强 性 别
出生年月 1982年10月 籍贯 徐州市
民 族 汉族 政治面貌 九三
最后学历 博士研究生 最后学位 工学博士
技术职称 副教授 导师类别 硕导
行政职务 Email yuqiangcumt@163.com
工作单位 中国矿业大学信电学院 邮政编码 221116
通讯地址 江苏省徐州市大学路1号
单位电话 85458826
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个人简介

余强,硕士生导师,九三学社社员。2008年毕业于西北工业大学,本科、硕士;2012毕业于慕尼黑联邦国防军大学,博士;加拿大麦克马斯特大学博士后;比利时布鲁塞尔自由大学访问学者。荣获慕尼黑联邦国防军大学优秀员工奖,欧盟委员会玛丽居里奖,发表SCI/EI论文30余篇,出版专著两部。主要方向为电机设计、电机控制及电力电子相关领域。联系方式yuqiangcumt@163.com。

获奖、荣誉称号

Marie Curie Research Fellow, European Union, Brussels, Belgium,2014

研究领域

电机优化分析设计、电机控制、电能转换、电力传动、密封电机

科研项目

主持项目列表

1.      国家自然科学基金青年项目:基于高功率密度特征的屏蔽式开关磁阻电机电热耦合分析与损耗优化(51607180)

2.      中国博士后面上项目(一等资助):屏蔽式开关磁阻电机电磁耦合及损耗分析(2015M580489)。

3.      德国凯士比泵业集团(KSB)及德国慕尼黑联邦国防军大学联合科技创新基金项目:基于大型水泵系统的屏蔽式开关磁阻电动机关键技术研究(UnibwM1279),27万欧元,2009.01-2012.12,已结题。

 

发表论文

部分SCI列表

1.      Qiang Yu, Xuesong Wang, Yuhu Cheng. Electromagnetic modeling and analysis of can effect of a canned                       induction electrical machine. IEEE Trans. Energy Conversion, 31(4): 1471-1428, 2016; WOS: 000389331700025.

2.      Qiang Yu, Xuesong Wang, Yuhu Cheng. Electromagnetic calculation and characteristic analysis of can effect of a           canned permanent magnet motor. IEEE Trans. Magnetics, 52(2), 2016; WOS: 000389223300024.

3.      Qiang Yu, Xuesong Wang, Yuhu Cheng. Determination of airgap flux density characteristics of SRMs with                       conductor layout and slotting effect. IEEE Trans. Magnetics, 52(8), 2016; WOS: 000380359200025.

4.      Qiang Yu, Xuesong Wang, Yuhu Cheng, Lisi Tian. Analysis of eddy current and loss of a novel canned switched             reluctance machine, IEEE Transactions on Industrial Electronics, early access article, 2018; DOI: 10.1109/TIE.                 2018.2793262.

5.      Qiang Yu, Berker Bilgin, Ali Emadi. Loss and efficiency analysis of a SRM for traction application with a new                   calculation method. IEEE Trans. Industrial Electronics, 62(5): 3072-3080, 2015; WOS: 000352706000041.

6.      Qiang Yu, Dieter Gerling. Analytical modeling of a canned switched reluctance machine with multilayer structure.           IEEE Trans. Magnetics, 49(9): 5069-5082, 2013; WOS: 000323644700020.

7.      Qiang Yu, Xuesong Wang, Yuhu Cheng. Thermal analysis of a canned switched reluctance drive with a novel                 network. J. Applied Thermal Engineering, 109A: 535-541, 2016; WOS: 000384861300053.

8.      Qiang Yu, Xuesong Wang, Yuhu Cheng. Improved electromagnetic models with saliency effect, a novel canned             switched reluctance machine drive as example. International Journal of Numerical Modelling: Electronic                           Networks, Devices and Fields, 30(6), WOS: 000413161300016.

 

部分EI列表

1.      Q.Yu, C.Laudensack and D.Gerling, “Controller design of a canned switched reluctance                                                     machine,” IEEE 15th Int.Conf. Electrical Machines and SystemsICEMS 2012, Oct., Sapporo, Japan.

2.      Q.Yu, C.Laudensack and D.Gerling, “Loss reduction of a canned switched reluctance machine,” IEEE XX Int.                   Conf. Electrical Machines, ICEM 2012, Sep., Marseille, France.

3.      Q.Yu, C.Laudensack and D Gerling, “Loss reduction of a canned drive from windings perspective,” IEEE Int. Conf.           Power Electronics & Motion ControlECCE Asia 2012, Jun., Harbin, China.

4.      Q.Yu, C.Laudensack and D.Gerling, “An analytical network for switched reluctance machines with highly                         saturated regions,” IEEE Int. Aegean Conf. Electric Machines, Power Electronics & ElectromotionACEMP 2011,             Sep., Istanbul, Turkey.

5.      Q.Yu, C.Laudensack and D.Gerling, “Loss analysis of a canned switched reluctance machine,” IEEE 14th Int.                   Conf. Electrical Machines and SystemsICEMS 2011, Aug., Beijing, China.

6.      Q.Yu, C.Laudensack and D.Gerling, “Improved lumped parameter thermal model and sensitivity analysis for SR             drives,” IEEE XIX Int. Conf. Electrical MachinesICEM 2010, Sep., Rome, Italy.

7.      C.Laudensack, Q.Yu and D.Gerling, “Dynamic design tool for canned switched reluctance machines,” IEEE Intl.               Aegean Conf. Electric Machines and Power Electr. & ElectromotionACEMP 2011, Sep., Istanbul, Turkey.

8.      C.Laudensack, Q.Yu and D.Gerling, “Analysis of different winding topologies for canned switched reluctance                   machines,” IEEE XX Int. Conf. Electrical Machines, ICEM 2012, Sep., Marseille, France.

9.      C.Laudensack, Q.Yu and D.Gerling, “Geschaltete Reluktanz- motoren als Antriebe für Spaltrohrpumpen,” IEEE               Int. ETG- Kongress 2011: “Umsetzungs -konzepte nachhaltiger Energie- systeme - Erzeugung, Netze,                             Verbrauch”, ETG- Fachbericht 130, VDE-Verlag GmbH Berlin, Nov., 2011, Würzburg, Germany.

10.   C.Laudensack, Q.Yu and D.Gerling, “static design tool for canned switched reluctance machines,” XIV Int. Conf.              System Modeling and ControlICSPSMC 2011, May, Lodz, Poland.

11.   C.Laudensack, Q.Yu and D.Gerling, “Investigation of different parameters on the performance of switched                        reluctance machines,” IEEE XIX Int. Conf. Electrical Machines, ICEM 2010, Sep., Roma, Italy.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

出版专著和教材

Q.Yu, “Thermal and electromagnetic modeling of a canned switched reluctance machine,” Shaker Verlag, Aachen 2012.