个人简介

既有丰富的工业界经验，长达9年国际著名企业中永磁电机系统的研发经历；也有深入广泛的学术研究背景，已发表110多篇学术论文，授权发明专利30余项。 教育经历 1997年-2004年合肥工业大学学士和硕士 2008年-2011年英国谢菲尔德大学博士 工作经历 2004年-2007年台达电力电子上海研发中心，高级工程师 2012年-2013年西门子风力发电谢菲尔德研发中心，研发工程师 2013年-2016年西门子风力发电丹麦总部，高级工程师， 海上大型永磁直驱风力发电机电磁项目负责人 2016年-至今浙江大学电气工程学院，研究员 2017年-至今浙江大学上海电气风电研发中心，主任 2017年-至今上海电气风电集团，副总工程师 专利成果 L.J.Wu,and Z.P.Xia,“Electrical machine having partially parallel slots and teeth”,EP 2806534 B1,6 April 2016. L.J.Wu and Z.P.Xia,“Stator tooth segmentation method for electric machines,”EP 2757662 B1,17 Jun 2015. Y.Liu,L.J.Wu and Z.Y.Wu,“Method and arrangement for torque estimation of a synchronous machine,”EP 2747273 B1,27 May 2015. L.J.Wu,“Pole element for a rotor of a synchronous generator,”(“Polelement für einen Rotor eines Synchrongenerators,”)DE102013201861B3,17 Jul 2014. L.J.Wu,W.B.Jin,J.P.Ying,S.M.Huang,and W.S.Huang,“Method and circuit for testing motor,”US7852027 B2,14 Dec 2010.(CN 200610100329,6 Jan 2010) L.J.Wu,W.B.Jin,J.P.Ying,S.M.Huang,and W.S.Huang,“PM rotary structure of electric machine,”US7839045 B2,23 Nov 2010. J.Ni,L.J.Wu,W.B.Jin,J.P.Ying,S.M.Huang,and W.S.Huang,“Device and method for controlling brushless DC electric machine,”US7868570 B2,11 Jan 2011. S.M.Huang,W.S.Huang,L.J.Wu,W.B.Jin,and J.P.Ying,“Rotary structure of permanent magnet electric machinery and method for determining the structure,”US7839043 B2,23 Nov 2010. W.Z.Wang,Z.G.Wu,W.B.Jin,J.P.Ying,L.J.Wu,S.M.Huang,and W.S.Huang,“Starting method for Hall-less single-phase BLDCM,”US7242160 B2,10 Jul 2007. 教学与课程 《特种电机及驱动技术》 研究与成果 2020.1-2023.12：新型高转矩密度容错型双馈磁通切换电机工作机理及性能研究，项目负责人，（国家自然科学基金面上） 2019.2-2023.1：大型海上风电机组及关键部件优化设计及批量化制造、安装调试与运行关键技术，子课题负责人，（国家重大研发计划） 2017-2022：非平稳荷载高功率密度永磁电机可靠性设计的理论与方法，子课题负责人，（自然科学基金重点） 2017-2021：大型直驱风力发电用双定子永磁无刷电机的结构创新和基础理论研究，项目负责人，（国家自然科学基金面上） 2017-2020：大型永磁直驱风力发电技术（上海电气风电集团有限公司，重大横向课题） Jan 2009-Dec 2011:Advanced modeling of permanent magnet machines(Motor Design Ltd). Feb 2008-Feb 2011:Acoustic noise and vibration of permanent magnet brushless machines(EPSRC,UK Govern). Apr 2011-Oct 2011:A high speed brushless DC motor for tooling application(Bosch). Dec 2009-Mar 2010:Advanced modeling of magnetic gears(Mitsubishi). Aug 2009-Nov 2009:Analysis and design of an external rotor permanent magnet hub motor(ITRI,Taiwan). Feb 2009-Jun 2009:Direct-drive permanent magnet wind power generator(Siemens). Jan 2008-Feb 2008:Cost effective design of brushless DC motor for lawn mower application(Bosch). Dec 2007-Jan 2008:Comparative study of interior PM and synchronous brushless AC machines(Toyota). 奖励荣誉 ICEMS2019最佳论文奖2项。

研究领域

电机及其控制 新能源

电机设计及驱动；新型永磁电机优化设计及驱动；大型风力发电机系统；航空航天电磁驱动系统

近期论文

查看导师最新文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

期刊文章（61篇，其中54篇SCI） [1]Yuting Zheng,Lijian Wu,Huayang Li*,Hui Wen*,and Lin Qiu,'Harmonic analysis of airgap magnetic fields in doubly-fed flux reversal permanent magnet machines”,IEEE Access,vol.8,pp.134856-134867,2020,Digital Object Identifier:10.1109/ACCESS.2020.3010239. [2]Bowen Xu,Lijian Wu,Jien Ma*,Pierre-Daniel Pfister,Xiaoyan Huang,Lin Qiu,and Youtong Fang,'Novel axially magnetized vernier permanent-magnet machine”,IEEE Trans.Magn.,Digital Object Identifier:10.1109/TMAG.2020.3009785,2020. [3]Feng Niu,Xiaoxiao Wang,Shaopo Huang,Xiaoyan Huang,Lijian Wu*,Kui Li,and Youtong Fang,'Current prediction error reduction method of predictive current control for permanent magnet synchronous motors,'IEEE Access,vol.8,pp.124288-124296,2020,Digital Object Identifier:10.1109/ACCESS.2020.3006132. [4]Yuliang Guo,Lijian Wu*,Xiaoyan Huang,Youtong Fang,and Jiaming Liu,'Adaptive torque ripple suppression methods of three-phase pmsm during single-phase open-circuit fault-tolerant operation,'IEEE Transactions on Industry Applications,in press,2020. [5]Lijian Wu*,Yuliang Guo,Xiaoyan Huang,Youtong Fang,and Jiaming Liu,'Harmonic torque suppression methods for single-phase open-circuit fault-tolerant operation of PMSM considering third harmonic BEMF,'IEEE Transactions on Power Electronics,in press,2020. [6]Lijian Wu*,Yuting Zheng,Youtong Fang,and Xiaoyan Huang,'A novel fault-tolerant doubly-fed flux reversal machine with armature windings wound on both stator and rotor teeth”,IEEE Trans.Ind.Electron.,Digital Object Identifier:10.1109/TIE.2020.2989721,2020. [7]Lijian Wu,Liu Zhang*,Jiabei Zhu,Qinfen Lu,and Youtong Fang,'Comparative study of novel doubly-fed linear switched flux permanent magnet machines with different primary structures”,IEEE Access,vol.8,pp.69401–69412,2020,Digital Object Identifier:10.1109/ACCESS.2020.2986384. [8]Manying Chen,Lijian Wu*,Liu Zhang,and Qinfen Lu,'A novel doubly-fed flux reversal linear machine with armature windings wound on both stator and mover teeth”,IEEE Access,vol.8,pp.35563–35571,2020,Digital Object Identifier:10.1109/ACCESS.2020.2974878. [9]Lijian Wu*,Yidong Du,and Youtong Fang,'Influence of load characteristics on three-phase short circuit and demagnetization of surface-mounted PM synchronous motor”,IEEE Trans.Ind.Appl.,Digital Object Identifier:10.1109/TIA.2020.2968036. [10]Lijian Wu*,Jiabei Zhu,and Youtong Fang,'A novel doubly-fed flux-switching permanent machine with armature windings wound on both stator poles and rotor teeth”,IEEE Trans.Ind.Electron.,Digital Object Identifier:10.1109/TIE.2019.2959504. [11]Lijian Wu*,Hao Yin,Dong Wang,and Youtong Fang,'On-load field prediction in SPM machines by a subdomain and magnetic circuit hybrid model,'IEEE Trans.Ind.Electron.,Digital Object Identifier:10.1109/TIE.2019.2942561. [12]Lijian Wu,Hao Yin,Dong Wang*,and Youtong Fang,'A nonlinear subdomain and magnetic circuit hybrid model for open-circuit field prediction in surface-mounted PM machines,'IEEE Trans.Energ.Conv.,vol.34,no.3,pp.1485-1495,2019. [13]Jiabei Zhu,Lijian Wu*,Xiaoyan Huang,and Youtong Fang,'Influence of clamping bolts on electromagnetic performance of PMSM machines and its restraining methods,'IEEE Trans.Ind.Appl.,vol.55,no.5,pp.4567-4577,2019. [14]Dong Yu,Xiaoyan Huang*,Lijian Wu,and Youtong Fang,'Design and analysis of outer rotor permanent-magnet vernier machines with overhang structure for in-wheel direct-drive application,'Energies,vol.12,no.7,2019. [15]Yunlong Zhong,Lijian Wu*,Xiaoyan Huang,and Youtong Fang,'Modeling and design of a 3-DOF magnetic bearing with toroidal radial control coils,'IEEE Trans.Magn.,vol.55,no.7,pp.1-7,2019. [16]Yuanwen Li,Changsheng Zhu*,Lijian Wu,and Yuting Zheng,'Multi-objective optimal design of high-speed surface-mounted permanent magnet synchronous motor for magnetically levitated flywheel energy storage system,'IEEE Trans.Magn.,vol.55,no.7,pp.1-8,2019. [17]Zhaokai Li,Xiaoyan Huang*,Lijian Wu,Teng Long,Bowen Shi,and He Zhang,'Open-circuit field prediction of interior permanent-magnet motor using hybrid field model accounting for saturation,'IEEE Trans.Magn.,vol.55,no.7,pp.1-7,2019. [18]Lijian Wu*,Minchen Zhu,Dong Wang,and Youtong Fang,'A subdomain model for open-circuit field prediction in dual-stator consequent-pole permanent magnet machines,'IEEE Trans.Magn.,vol.55,no.8,pp.1-12,2019. [19]Liu Zhang,L.J.Wu*,Xiaoyan Huang,Youtong Fang,and Qinfen Lu,'A novel structure of doubly salient permanent magnet machine in square envelope,'IEEE Trans.Magn.,vol.55,no.6,pp.1-5,2019. [20]Yuting Zheng,Lijian Wu*,Youtong Fang,Xiaoyan Huang and Qinfen Lu,'A hybrid interior permanent magnet variable flux memory machine using two-part rotor,'IEEE Trans.Magn.,vol.55,no.7,pp.1-8,2019. [21]Yiming Shen,Zhiqiang Zeng,Qinfen Lu*,and L.J.Wu,'Design optimization and performance investigation of linear doubly salient slot permanent magnet machines,'IEEE Trans.Ind.Appl.,vol.55,no.2,pp.1524-1535,2019. [22]L.J.Wu,Z.Li,D.Wang,X.Huang and Z.Q.Zhu*,'On-load field prediction of surface-mounted PM machines considering nonlinearity based on hybrid field model,'IEEE Trans.Magn.,vol.55,no.3,pp.1-11,2019. [23]Xiaoyan Huang*,Chenxi Zhou,Kaihe Zhang,Lijian Wu,Jian Zhang,and Wenping Cao,'Comparison of electromagnetic performance of SCPM wind power generators with different topologies,'IEEE Transactions on Applied Superconductivity,vol.29,no.2,pp.1-5,2019. [24]Kaihe Zhang,Xiaoyan Huang*,Lijian Wu,Youtong Fang,and Wenping Cao,'Stator design aspects for permanent magnet superconducting wind power generators,'IEEE Transactions on Applied Superconductivity,vol.29,no.2,pp.1-5,2019. [25]F.Niu*,X.Huang,L.Ge,J.Zhang,L.Wu,Y.Wang,K.Li,and Y.Fang,'A simple and practical duty cycle modulated direct torque control for permanent magnet synchronous motors,'IEEE Transactions on Power Electronics,vol.34,no.2,pp.1572-1579,2019. [26]J.Li,X Huang*,F.Niu,C.You,L.Wu,Y.Fang,'Prediction error analysis of finite-control-set model predictive current control for IPMSMs,'Energies,vol.11,no.8,2018. [27]L.J.Wu*,Zhaokai Li,Xiaoyan Huang,Yunlong Zhong,Youtong Fang,and Z.Q.Zhu,'A hybrid field model for open-circuit field prediction in surface-mounted PM machines considering saturation',IEEE Transactions on Magnetics,vol.54,no.6,2018. [28]Yuzheng Chen,Xiaoyan Huang*,Jun Wang;Feng Niu,Jian Zhang,Youtong Fang,and Lijian Wu,'Improved flux-weakening control of IPMSMs based on torque feedforward technique',IEEE Transactions on Power Electronics,vol.33,no.12,2018. [29]Yunlong Zhong,Lijian Wu*,Youtong Fang and Xiaoyan Huang,'Investigation of cross-coupling effect of a 3-DOF magnetic bearing using magnetic circuit method,'COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering,vol.37,no.6,pp.2195-2210,2018. [30]Y.Zhong,L.Wu*,X.Huang,Y.Fang,and J.Zhang,'An improved magnetic circuit model of a 3-DOF magnetic bearing considering leakage and cross-coupling effects,'IEEE Transactions on Magnetics,vol.53,no.11,pp.1-6,2017. [31]X.Huang,K.Zhang,L.Wu*,Y.Fang,and Q.Lu,'Design of a dual-stator superconducting permanent magnet wind power generator with different rotor configuration,'IEEE Transactions on Magnetics,vol.53,no.6,pp.1-4,2017. [32]K.Zhang,X.Huang*,J.Zhang,L.Wu,Y.Fang,and Q.Lu,'Design and analysis of a switched reluctance motor with superconducting windings and tapering poles,'IEEE Transactions on Applied Superconductivity,vol.26,no.7,pp.1-4,2016. [33]L.J.Wu and Z.Q.Zhu,'Analytical modeling of surface-mounted PM machines accounting for magnet shaping and varied magnet property distribution,'IEEE Trans.Magn.,vol.50,no.7,pp.1-11,2014. [34]L.J.Wu and Z.Q.Zhu,'Simplified analytical model and investigation of open-circuit AC winding loss of permanent-magnet machines,'IEEE Trans.Ind.Electron.,vol.61,no.9,pp.4990-4999,2014. [35]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“Analytical model of eddy current loss in windings of permanent magnet machines accounting for load,”IEEE Trans.Magn.,vol.48,no.7,pp.2138-2151,2012. [36]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“Analytical modeling and analysis of open-circuit magnet loss in surface-mounted permanent magnet machines,”IEEE Trans.Magn.,vol.48,no.3,pp.1234-1247,2012. [37]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“Analytical model for predicting magnet loss of surface-mounted permanent magnet machines accounting for slotting effect and load,”IEEE Trans.Magn.,vol.48,no.1,pp.107-117,2012. [38]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“Comparison of analytical models of cogging torque in surface-mounted PM machines,”IEEE Trans.Ind.Electron.,vol.59,no.6,pp.2414-2425,2012. [39]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“Analytical prediction of electromagnetic performance of surface-mounted PM machines based on subdomain model accounting for tooth-tips,”IEE Proc.-Electric Power Appl.,vol.5,no.7,pp.597-609,2011. [40]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“Subdomain model for predicting armature reaction field of surface-mounted permanent-magnet machines accounting for tooth-tips,”IEEE Trans.Magn.,vol.47,no.4,pp.812-822,2011. [41]L.J.Wu,Z.Q.Zhu,D.Staton,M.Popescu,and D.Hawkins,“An improved subdomain model for predicting magnetic field of surface-mounted permanent magnet machines accounting for tooth-tips,”IEEE Trans.Magn.,vol.47,no.6,pp.1693-1704,2011. [42]L.J.Wu,Z.Q.Zhu,J.T.Chen,and Z.P.Xia,“An analytical model of unbalanced magnetic force in fractional-slot surface-mounted permanent magnet machines,”IEEE Trans.Magn.,vol.46,no.7,pp.2686-2700,2010. [43]L.J.Wu,Z.Q.Zhu,J.T.Chen,Z.P.Xia,and G.W.Jewell,“Optimal split ratio in fractional-slot interior permanent-magnet machines with non-overlapping windings,”IEEE Trans.Magn.,vol.46,no.5,pp.1235-1242,2010. [44]Y.Oner,Z.Q.Zhu,L.Wu,X.Ge,H.Zhan,and J.Chen,'Analytical on-load sub-domain field model of permanent magnet vernier machines,'IEEE Transactions on Industrial Electronics,vol.63,no.7,pp.4105-4117,2016. [45]Y.Oner,Z.Q.Zhu,L.J.Wu,and X.Ge,'Analytical sub-domain model for predicting open-circuit field of permanent magnet vernier machine accounting for tooth tips,'COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering,vol.35,no.2,pp.624-640,2016. [46]Y.Oner,Z.Q.Zhu,L.J.Wu,and X.Ge,'Sub-domain analytical model for armature reaction field of permanent magnet vernier machine,'COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering,vol.35,no.2,pp.821-831,2016. [47]Y.Li,Z.Q.Zhu,L.J.Wu,G.J.Li,and D.Wu,“Analytical synthesis of air-gap field distribution in permanent magnet machines with rotor Eccentricity by superposition method”,IEEE Trans.Magn.,vol.51,no.11,pp.1-4,2015. [48]Z.Q.Zhu,L.J.Wu and M.L.Mohd Jamil,“Influence of pole and slot number combinations on cogging torque in permanent magnet machines with static and rotating eccentricities,”IEEE Trans.Ind.Appl.,vol.50,no.5,pp.3265-3277,2014. [49]Z.Q.Zhu,L.J.Wu and M.L.Mohd Jamil,“Distortion of back-EMF and torque of PM brushless machines due to eccentricity,”IEEE Trans.Magn.,vol.49,no.8,pp.4927-4936,2013. [50]Z.Q.Zhu,M.L.Mohd Jamil,and L.J.Wu,“Influence of slot and pole number combinations on unbalanced magnetic force in PM machines with diametrically asymmetric windings,”IEEE Trans.Ind.Appl.,vol.49,no.1,pp.19-30,2013. [51]A.S.Thomas,Z.Q.Zhu,and L.J.Wu,“Novel modular rotor switched-flux permanent magnet machines,”IEEE Trans.Ind.Appl.,vol.48,no.6,pp.2249-2258,2012. [52]Z.Q.Zhu,L.J.Wu,and Z.P.Xia,“An accurate subdomain model for magnetic field computation in slotted surface-mounted permanent-magnet machines,”IEEE Trans.Magn.,vol.46,no.4,pp.1100-1115,2010. [53]Z.Q.Zhu,Z.P.Xia,L.J.Wu,and G.W.Jewell,“Analytical modeling and finite-element computation of radial vibration force in fractional-slot permanent-magnet brushless machines,”IEEE Trans.Ind.Appl.,vol.46,no.5,pp.1908-1918,2010. [54]Z.Q.Zhu,J.T.Chen,L.J.Wu,and D.Howe,“Influence of stator asymmetry on cogging torque of permanent magnet brushless machines,”IEEE Trans.Magn.,vol.44,no.11,pp.3851-3854,2008. [55]Minchen Zhu,L.J.Wu,Y.T.Fang,and Thierry Lubin,'Subdomain model for predicting armature reaction field of dual-stator consequent-pole PM machines accounting for tooth-tips,'CES Transactions on Electrical Machines and Systems,vol.3,no.2,pp.143-150,2019. [56]L.J.Wu*,Z.Q.Zhu,Y.T.Fang,and X.Y.Huang,'Difference in unbalanced magnetic force of fractional-slot PM machines between internal and external rotor topologies,'CES Transactions on Electrical Machines and Systems,vol.1,no.2,pp.154-163,2017. [57]Yunlong Zhong,Lijian Wu,Xiaoyan Huang,and Youtong Fang,“Nonlinear analytical model of heteropolar radial magnetic bearing,”Journal of Zhejiang University(Engineering Science),no.1,2019.钟云龙,吴立建,黄晓艳,等.异极型径向磁轴承的非线性解析模型[J].浙江大学学报(工学版),2019,(1):.DOI:10.3785/j.issn.1008-973X.2019.01.022. [58]Q.J.Wang,L.X.Chen,L.J.Wu,and Y.Y.Ni,“The control of a permanent magnet spherical stepper motor based on weighted graph,”Proc.of the CSEE,vol.25,no.9,pp.130-134,2005. [59]Q.J.Wang,L.J.Wu,C.Q.Li,and Z.Li,“An analysis of the two-pole PM spherical motor and its magnetic field,”Journal of University of Science and Technology of China,vol.34,no.4,pp.480-486,2004. [60]L.J.Wu,Q.J.Wang,S.J.Du,and Y.Y.Ni,“Integral equation method for simulation of magnetic field of permanent magnet spherical stepper,”Proc.of the CSEE,vol.24,no.9,pp.192-197,2004. [61]Q.J.Wang,J.Chen,W.D.Jiang,and L.J.Wu,“The modeling and calculating on a new type hybrid claw-pole alternator,”Proc.of the CSEE,vol.23,no.2,pp.67-76,2003.

学术兼职

上海电气风电集团有限公司副总工程师、技术委员会委员 浙江大学上海电气风电研发中心主任 IEEE Transactions on Industrial Electronics（TIE）编委（Associate Editor） IEEE Transactions on Energy Conversion（TEC）编委（Editor） IEEE Open Access Journal of Power and Energy（OAJPE）编委（Editor） 风电标委会风电机械设备分委会委员 IEC TC88 WG27工作组专家 CEng IEEE Senior Member，IET Fellow