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 Systems, ICEMS 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 Control, ECCE 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 & Electromotion, ACEMP 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 Systems, ICEMS 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 Machines, ICEM 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. & Electromotion, ACEMP 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 Control, ICSPSMC 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.