師資隊伍
| |||||||||||||||||||||||||
個人簡介 王濤,博士,長聘副研究員,博士生導師,入選ag真人百家家乐平台“長空之星”計劃和江蘇省“雙創博士”計劃。2013年和2018年分别獲浙江大學 電氣工程學士和博士學位(博士導師諸自強教授、年珩教授)。2018-2020年獲西門子資助,赴英國謝菲爾德大學電子與電機工程系從事博士後研究, 合作導師為諸自強教授(IEEE Fellow,英國皇家工程院院士,Tesla獎得主)。2020年10月回國工作,任ag真人百家家乐平台副研究員。 從事新能源發電、航空發電與電機驅動方面的研究,研究領域包括永磁和雙饋風力發電、微電網電能質量治理、航空高壓直流發電、永磁電機驅動 控制。曾參與國家重點研發計劃、863計劃、國家自然科學基金聯合基金、英國工程和自然科學研究委員會項目、青海省重大科技專項等重點項目, 及多個與國家電網、日本富士電機、施耐德、華芯微特、思源電氣等知名企業的合作項目,授權PCT國際專利1項、申請發明專利3項。發表論文30餘 篇,其中以第一作者/通訊作者發表IEEE/IET期刊論文12篇。擔任 IEEE Transaction on Power Electronics, IEEE Transaction on Energy Conversion, IEEE Journal of Emerging and Selected Topics in Power Electronics, IET Power Electronics等著名國際期刊審稿人,擔任國際會議ECCE Asia (IPEMC2020)分會場主席。 招生計劃 我們尊重每個學生的研究興趣和職業理想,以實現每個學生的長遠發展和前途為培養目标。課題組提供相對純粹的科研環境,支持學生做出有持續性 的深度研究,為将來的深造作更好的準備。歡迎電氣、自動化等專業的學生加入團隊。 每年拟招收博士研究生1名、碩士研究生2-3名。 每年可指導本科生畢業設計3-4名。 歡迎本科生依托本課題組開展國創、SRTP、挑戰杯等科研訓練項目和電類學科競賽。 | |||||||||||||||||||||||||
部分學術成果 | |||||||||||||||||||||||||
[1] Tao Wang, Lingling Guo, K. Wang*, Jixuan Wu, Chuang Liu, Z.Q Zhu, “Generalized Predictive Current Control for Dual-Three-Phase PMSM to Achieve Torque Enhancement Through Harmonic Injection”, IEEE Trans. Power Electron. vol. 38, no. 5, pp. 6422-6433, May 2023. [2] Tao Wang, Zhidong An, K. Wang*, X. Zhang, “Integrated Position and Speed Control for Rail Transit Door Based on Speed-Current Loop Structure”, IEEE Trans. Ind. Appl., vol. 59, no. 4, pp. 4651-4661, July-Aug. 2023. [3] Lingling Guo, K. Wang, Tao Wang*, “Open-Circuit Fault Diagnosis of Three-Phase Permanent Magnet Machine Utilizing Normalized Flux-Producing Current”, IEEE Trans. Ind. Electron. doi: 10.1109/TIE.2023.3273254. (Early access) [4] Peilin Liu, Tao Wang, Zhiyuan Chai, Chuang Liu*, Xuezhong Zhu, “A Double-r fhan algorithm for Tracking Differentiator of Active Disturbance Rejection Control”, IEEE Trans. Power Electron. (已錄用) [5] Peilin Liu, Tao Wang, Zhiyuan Chai, Chuang Liu*, Xuezhong Zhu, “Optimized Parking Control for Electric Vehicle Driven by Switched Reluctance Motor”, IEEE Access. (已錄用) [6] Lingling Guo, K. Wang*, Tao Wang, Ruiwu Cao, Feng Li, “Disturbance-Free Operation of Dual Three-Phase PM Machine under Open-Phase Fault Considering Harmonic Current Injection”, IEEE Trans. Power Electron. (已錄用) [7] Tao Wang, Z.Q Zhu*, Nuno Miguel Amaral Freire; Zhanyuan Wu, Milijana Odavic, Martin Foster, David Stone, “Generalized predictive DC-link voltage control for grid-connected converter”, IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 10, no.2, pp. 1489-1506, Apr. 2022. [8] Tao Wang*, Heng Nian, Z.Q Zhu, “Hybrid Virtual Impedance-based Control Strategy for DFIG in Hybrid Wind Farm to Disperse Negative Sequence Current during Network Unbalance”, IET Renewable Power Generation, vol. 14, no. 12, pp. 2268-2277, May 2020. [9] Tao Wang, Z.Q. Zhu*, N.M.A Freire, etc., “Multivariable Generalized Predictive Control with Measurement Noise Rejection and Speed Ripple Mitigation for PMSM Drives”, IET Power Electronics, vol. 13, no. 12, pp. 2607-2617, Sept. 2020. [10] Tao Wang, Z.Q. Zhu*, N.M.A Freire, etc., “Study on Noise and Disturbance Issues of Generalized Predictive Speed Control for PMSM”, IET Electric Power Applications, vol. 15, no. 1, pp. 63-78, Dec. 2020. [11] Tao Wang*, L. Kong, H. Nian and Z. Q. Zhu, “Coordinated Elimination Strategy of Low Order Output Current Distortion for LC-Filtered DFIG System Based on Hybrid Virtual Impedance Method,” IEEE Trans. Power Electron., vol. 34, no. 8, pp. 7502-7520, Aug. 2019. [12] Tao Wang, Heng Nian*, Z.Q Zhu, “Flexible Compensation Strategy for Voltage Source Converter under Unbalanced and Harmonic Condition Based on a Hybrid Virtual Impedance Method”, IEEE Trans. Power Electron., vol. 33, no. 9, pp. 7656-7673, Sep. 2018. [13] Tao Wang, Heng Nian*, Z.Q Zhu, “Flexible Unbalance Compensation Strategy for Doubly Fed Induction Generator based on Indirect Virtual Impedance”, IET Renewable Power Generation, vol. 12, no.1, pp. 28 - 36, Jan. 2018. [14] Y. Xu, H. Nian, Tao Wang, L. Chen and T. Zheng*, “Frequency Coupling Characteristic Modeling and Stability Analysis of Doubly Fed Induction Generator,” IEEE Trans. Energy Convers., vol. 33, no. 3, pp. 1475-1486, Sept. 2018. [15] Tao Wang*, H. Nian and Z. Q. Zhu, “Using inverter-based renewable generators to improve the grid power quality—A review,” Chinese Journal of Electrical Engineering, vol. 4, no. 4, pp. 16-25, Dec 2018. [16] Tao Wang*, Heng Nian, Z.Q Zhu, Hongyang Huang, Xiaoming Huang. “Flexible PCC Voltage Unbalance Compensation Strategy for Autonomous Operation of Parallel DFIGs”, IEEE Trans. Ind. Appl., vol. 53, no.5, pp. 4807 - 4820, Sep. 2017. [17] Heng Nian*, Tao Wang*, Z.Q Zhu*, “Voltage Imbalance Compensation for Doubly Fed Induction Generator Using Direct Resonant Feedback Regulator”, IEEE Trans. Energy Convers., vol. 31, no.2, pp.614-626, Jun. 2016. [18] Shuai Zhang, Tao Wang*, Kai Wang, “Active Disturbance Rejection Control for Ship Rim Propulsion Motors Considering Immersion Depth of Propeller”, 2023 ICEMS, 中國珠海(已錄用). [19] Sheng Xu, Tao Wang*, Kai Wang, “Comparison Study of Different Solutions of Five-Leg Drive for Dual Three Phase PMSM”, 2023 ICEMS, 中國珠海(已錄用). [20] Nan Yao, Tao Wang*, Bowen Duan, Zhelin Li, “A Simple but Effective Virtual Inertia Control for Dual Active Bridge in DC Microgrid to Suppress Voltage Fluctuation”, 2023 ICEMS, 中國珠海(已錄用). [21] Peinan Jiang, Tao Wang*, Xingwei Mu, “DFIG-VSG Based on Predictive Back-EMF Control for Improved Voltage Source Characteristic and Overcurrent Suppression ”, 2023 ICEMS, 中國珠海(已錄用). [22] Z. D. An, K. Wang*, L. L. Guo, and Tao Wang, “An Improved Predictive Current Control of Permanent Magnet Machine with Parameter Identification”, 2023 ICEMS, 中國珠海(已錄用). [23] X. M. Song, K. Wang*, Tao Wang, L. L. Guo and J. Li, “Voltage Ripple Suppression Strategy Based on Voltage Outer Loop Control of Excitation Side Under Nonlinear Load”, 2023 ICEMS, 中國珠海(已錄用). [24] 段博文,王濤*,姚楠,李柘霖. “一種直流微網的寬頻段混合虛拟電容控制策略”,中國電機工程學會直流輸電與電力電子專委會2023年學術年會. (在投) [25] Jixuan Wu*, Kai Wang, Tao Wang, Jian Li. “Interleaved Generalized Predictive Control for Dual Three-Phase PMSM with Low Computation Burden”, 2022 ICEMS, 泰國清邁. [26] Yuwen Deng*, Kai Wang, Tao Wang, Jian Li. “Comparison of Different Flux-Weakening Strategies of AC-Excited Hybrid Excitation Synchronous Motor”, 2022 ICEMS, 泰國清邁. [27] Tao Wang, Z.Q. Zhu*, N.M.A. Freire, etc. “Comparative Study of Parameter Mismatch on Different Model Predictive Controls for PMSM Drives”,ECCE-ASIA 2020, 中國南京. [28] Tao Wang, Z.Q. Zhu*, N.M.A. Freire, etc. “Multivariable Generalized Predictive Speed Control for Permanent Magnet Synchronous Machine with Enhanced Luenberger Speed Observer”, PEMD 2020,英國諾丁漢. [29] Danping Zheng, Dan Sun*, Tao Wang, Liang Kong and Heng Nian, “An Improved Control Strategy for Triple-port Power Electronic Transformer Under Unbalanced AC Loads Condition”, 2018 ICEMS, 韓國濟州島, 2018. [30] Tao Wang*, Heng Nian. “Flexible PCC Voltage Unbalance Compensation Strategy for Autonomous Operation of Parallel DFIGs”, 2016 ECCE, 美國密爾沃基. [31] Yongle Mao, Jiaqiang Yang*, Tao Wang, Dejun Yin, Yangsheng Chen. “High Dynamic Sensorless Control for PMSMs Based on Decoupling Adaptive Observer”, 2016 ECCE, 美國密爾沃基. [32] Tao Wang*, Heng Nian. “Small Signal Modeling and Stability Analysis of a DFIG Based Wind Power System under Unbalanced Grid Voltage Condition”, 2014 ICEMS, 中國杭州. [33] 柴智遠, 劉沛麟, 劉闖, 王濤,“開關磁阻發電機單脈沖模式綜合性能優化研究”, 中國電機工程學報(已錄用). [34] 郭玲玲, 王凱*, 王濤, 張建亞,“非正弦反電勢五相永磁電機開路故障容錯控制研究”, 中國電機工程學報, 2023, 43(05): 1984-1992. [35] 張曦, 王濤*, 陳緻君, 劉闖,“永磁伺服電機複合模型預測控制”, 電機與控制應用,2023, 50(04): 8-15. [36] 陳緻君, 王濤*, 劉闖, 朱姝姝,“具有共模電壓抑制能力的PMSM混合模型預測控制”, 電機與控制應用, 2022, 49(9): 8-16. [37] 王濤,諸自強*,年珩,“非理想電網下雙饋風力發電系統運行技術綜述”,電工技術學報, 2019,35(3): 455-471. [38] 年珩*,王濤,程鵬,“适應實際電網阻抗特性的DFIG不平衡電壓解耦補償技術”,電力系統自動化,2015, 39(23): 49-57. [39] 李華陽,王濤,林環城,陳金濤,龔黎明,諸自強*,“基于高頻注入的PMSM無傳感器控制誤差分析”,微特電機, 2013, 41(11): 64-70. [40] Lingling Guo, Kai Wang*, Tao Wang, Ruiwu Cao, Feng Li, “Open-Circuit Fault Diagnosis for Dual Three-Phase Permanent Magnet Machine Considering Non-Ideal Condition”, IEEE Trans. Ind. Electron. (在投) [41] Zhiyuan Chai, Chuang Liu*, Tao Wang, Xuezhong Zhu, “Comprehensive Performance Improvement of SRG by Turn-on Angle Optimization Using Linear Normalized Model”, IEEE Trans. Power Electron. (在投) | |||||||||||||||||||||||||
承擔項目 | |||||||||||||||||||||||||
1.主持項目: 1)國家自然科學基金青年基金,負責人,2023-2025 2)ag真人百家家乐平台新教師工作啟動基金項目,負責人,2021-2023 3)中央高校基本科研業務費項目,負責人,2021-2023 4)江蘇省“雙創博士”項目,負責人,2021-2023 5)廣東華芯微特合作項目“基于華芯微特國産MCU芯片的電機控制軟件算法開發及技術服務”,負責人,2022-2024 6)思源清能合作項目“構網型儲能變流器關鍵技術及應用開發”,負責人,2022-2023 7)浙江巨邦集團合作項目“直流變壓器設計與控制”,負責人,2021-2023 8)教育部産學合作協同育人項目“航空永磁起動發電機控制開發教學實驗平台”,負責人,2021-2023 9)施耐德電氣合作項目“高性能伺服系統”,課題負責人,2020-2021 2.作為核心人員參與項目: 1)國家自然科學基金聯合重點項目“永磁無軸輪緣推進電機系統研究”,2023-2026 2)國家重點研發計劃“面向礦用超低速大轉矩永磁直驅系統樣機研制與測試平台建設”,2023-2025 3)英國工程和自然科學研究委員會項目“基于模型預測控制的永磁風電機組控制技術”,2018-2020 4)青海省重大科技專項“多能源互補發電聯合運行關鍵技術研究與示範”,2017-2018 5)國家重點研發計劃“基于電力電子變壓器的交直流混合可再生能源技術研究”,2016-2018 6)浙江省電力公司科技項目“新能源場群建模”,2016-2017 7)浙江省電力公司科技項目“含高滲透率分布式電源的配電網多重電能質量綜合分析與控制”,2016-2017 8)四川省電力公司科技項目“多種新能源發電設備的仿真建模、高性能控制及故障穿越研究”,2015-2016 9)日本富士電機合作項目“雙饋風力發電機組低電壓穿越試驗系統設計”,2015-2016 10)國家863計劃“海流能發電與海島新能源供電關鍵技術”,2013-2015 |