耿 華 副教授,檢測與電子技術研究所。
基本介紹
- 中文名:耿華
- 國籍:中國
- 民族:漢族
- 職稱:清華大學自動化系副教授
人物經歷,教育背景,工作履歷,學術兼職,研究方向,主要貢獻,書籍著作,論文期刊,國際會議論文,獲獎記錄,
人物經歷
教育背景
1999.9 – 2003.7 華中科技大學 電氣與電子工程學院 電氣工程及其自動化專業 獲工學學士學位。
工作履歷
2008.11 – 2010.5 加拿大Ryerson大學 LEDAR實驗室 博士後。
2010.6 – 2012.11 清華大學自動化系 講師。
2012.12 – 至今 清華大學自動化系 副教授。
學術兼職
IEEE高級會員。
IEEE Transactions on Energy Conversion Editor。
IEEE Transactions on Industry Applications Associate Editor。
Chinese Journal of Electrical Engineer Associate Editor。
中國電源學會青年工作委員會主任。
中國自動化學會電氣自動化專委會副秘書長。
中國自動化學會青年工作委員會常務委員。
中國電源學會理事。
北京自動化學會理事。
中國可再生能源學會可再生能源發電併網專委會委員等。
研究方向
1.多能源網路系統智慧型化控制
可再生能源發電系統自主控制
多能源系統協同控制
可再生能源發電系統自主控制
多能源系統協同控制
2.高性能實時仿真技術
多能源網路系統實時仿真方法
多時間尺度高性能實時仿真器
多能源網路系統實時仿真方法
多時間尺度高性能實時仿真器
3.能源網際網路系統評價技術
能源網際網路大數據技術
能源網際網路大數據技術
4.太赫茲檢測技術
低噪聲放大器
太赫茲成像及物質識別
低噪聲放大器
太赫茲成像及物質識別
主要貢獻
1.國家自然科學優秀青年基金項目,61722307:風力發電柔性併網控制理論及關鍵技術,項目負責人,2018.01至2020.12
2.國家自然科學聯合基金重點項目,U1510208:大型風電機組弱聯運行基礎理論及關鍵技術研究,項目負責人,2016.01至2019.12
3.國家自然科學青年基金,61104046:大容量風電場的阻尼特性研究,項目負責人,2012.01至2014.12
4.國際合作:直驅式風電變流器系統的控制技術,項目負責人,2010.07至2012.07
5.校企合作:高壓電能質量治理系統核心技術,項目負責人,2010.9至2014.09
6.國家自然科學基金中英國際交流項目,51711530235:基於學習的多分散式發電單元的協同控制方法研究,項目負責人,2017.04至2019.03
7.國家重點研發計畫項目,2016YFB0900300:分散式光儲發電集群靈活併網關鍵技術及示範,主要參與者,2016.07至2019.06
8.國家自然科學基金中英合作項目,51361135705:含大規模分散式儲能的新能源電力系統穩定分析與控制,主要參與者,2014.01至2016.12
9.南方電網公司重點項目:含儲能的新型配用電系統關鍵技術研究,主要參與者,2016.01至2018.12
10.國家電網公司總部科技項目:集群新能源發電與電網寬頻帶耦合機理及仿真分析實證技術,主要參與者,2016.01至2018.12
11.國家自然科學基金面上項目,61273045:雙饋風電場的電網不對稱故障穿越問題研究,主要參與者,2013.01至2016.12。
2.國家自然科學聯合基金重點項目,U1510208:大型風電機組弱聯運行基礎理論及關鍵技術研究,項目負責人,2016.01至2019.12
3.國家自然科學青年基金,61104046:大容量風電場的阻尼特性研究,項目負責人,2012.01至2014.12
4.國際合作:直驅式風電變流器系統的控制技術,項目負責人,2010.07至2012.07
5.校企合作:高壓電能質量治理系統核心技術,項目負責人,2010.9至2014.09
6.國家自然科學基金中英國際交流項目,51711530235:基於學習的多分散式發電單元的協同控制方法研究,項目負責人,2017.04至2019.03
7.國家重點研發計畫項目,2016YFB0900300:分散式光儲發電集群靈活併網關鍵技術及示範,主要參與者,2016.07至2019.06
8.國家自然科學基金中英合作項目,51361135705:含大規模分散式儲能的新能源電力系統穩定分析與控制,主要參與者,2014.01至2016.12
9.南方電網公司重點項目:含儲能的新型配用電系統關鍵技術研究,主要參與者,2016.01至2018.12
10.國家電網公司總部科技項目:集群新能源發電與電網寬頻帶耦合機理及仿真分析實證技術,主要參與者,2016.01至2018.12
11.國家自然科學基金面上項目,61273045:雙饋風電場的電網不對稱故障穿越問題研究,主要參與者,2013.01至2016.12。
書籍著作
[1]耿華,劉淳,張興,楊耕. 新能源併網發電系統的低電壓故障穿越和控制. 機械工業出版社(“十二五”國家重點圖書,電力電子新技術叢書). 2014年6月.
論文期刊
[1]Xinze Xi, Hua Geng, Geng Yang, Fei Gao. Two-Level Damping Control for DFIG-based Wind Farm Providing Synthetic Inertial Service. IEEE Trans. On Industry Application. (Early Access)
[2]ShaoKang Ma, Hua Geng, Lu Liu, Geng Yang, Bikash C. Pal. Grid-Synchronization Stability Improvement of Large Scale Wind Farm During Severe Grid Fault. IEEE Trans. On Power System. (Early Access)
[3]Shulong Tan, Hua Geng, Geng Yang. Equivalent synchronous generator model of current controlled power converter for small signal stability studies of modern power system. Journal of Modern Power Systems and Clean Energy. (Early Access)
[4]Hua Geng, Xinze Xi, Lu Liu, Geng Yang, Jin Ma. Hybrid Modulated Active Damping Control for DFIG based Wind Farm Participating in Frequency Response. IEEE Trans. On Energy Conversion. (Early Access)
[5]Hua Geng, Xinze Xi, Geng Yang. Small-Signal Stability of Power System Integrated with Ancillary Controlled Large-scale DFIG based Wind Farm. IET Renewable Power Generation, 2017, 11(8): 1191-1198.
[6]Hua Geng, Shuzhen Li, Chao Zhang etc. Hybrid Communication Topology and Protocol for Distributed-Controlled Cascaded H-Bridge Multilevel STATCOM. IEEE Trans. on Industry Application, 2017, 53(1): 576-584.
[7]Shulong Tan, Hua Geng, Geng Yang. Impedance-matching-based Control for Resonance Damping of Microgrid with Multiple Grid-Connected-Converters. Journal of Power Electronics 2016, 16(6): 2338-2349.
[8]Liran Zheng, Hua Geng, Geng Yang. Fast and Robust Phase Estimation Algorithm for Heavily Distorted Grid Conditions. IEEE Trans. on Industrial Electronics, 2016, 63(11): 6845-6855.
[9]Ruiqi Li, Hua Geng, Geng Yang. Fault ride-through of renewable energy conversion systems during voltage recovery. Journal of Modern Power Systems and Clean Energy, 2016, 4(1): 28-39.
[10]X. Xi, Hua Geng, G. Yang. Enhanced Model of the DFIG-based Wind Farm for Small-Signal Stability Studies of Weak Power System, IET Renewable Power Generation, 2014, 8(7): 765-774.
[11]Shuai Xiao, Hua Geng, Geng Yang. Nonlinear Pitch Control of Wind Turbines for Tower Load Reduction. IET Renewable Power Generation, 2014, 8(7): 786-794.
[12]Hua Geng, Geng Yang. Linear and Nonlinear Schemes Applied to Pitch Control of Wind Turbines. The Scientific World Journal, 2014, 10: 1-9.
[13]Hua Geng, Cong Liu, Geng Yang. LVRT Capability of DFIG based WECS under Asymmetrical Grid Fault Condition. IEEE Trans. on Industrial Electronics, June 2013, 60(6): 2495-2509.
[14]Hua Geng, Jianbo Sun, Shuai Xiao, Geng Yang. Modeling and Implementation of an All Digital Phase-Locked-Loop for Grid-Voltage Phase Detection. IEEE Trans. on Industrial Informatics, May 2013, 9(2): 772-780.
[15]Shuai Xiao, Hua Geng, Honglin Zhou, Geng Yang. Analysis of the control limit for rotor-side converter of doubly fed induction generator-based wind energy conversion system under various voltage dips, IET Renewable Power Generation, 2013, 7(1): 71-81.
[16]Shuai Xiao, Geng Yang, Honglin Zhou, Hua Geng. A LVRT Control Strategy based on Flux Linkage Tracking for DFIG-based WECS, IEEE Trans. on Industrial Electronics, 2013, 60(7): 2820-2832.
[17]Zhong Zheng, Geng Yang, Hua Geng, Coordinated Control of a Doubly-Fed Induction Generator-Based Wind Farm and a Static Synchronous Compensator for Low Voltage Ride-through Grid Code Compliance during Asymmetrical Grid Faults. Energies, 2013, 6(9): 4660-4681.
[18]H. Zhou, S. Xiao, G. Yang, H. Geng. Modeling and control for a bidirectional buck-boost cascade inverter, IEEE Transactions on Power Electronics, 2012, 27(3): 1401-1413.
[19]Hua Geng, David Xu, Bin Wu, Geng Yang. Active Damping for PMSG based WECS with DC Link Current Estimation. IEEE Trans. on Industrial Electronics, 2011, 58(4):1110-1119.
[20]Hua Geng, David Xu, Bin Wu. A Novel Hardware-Based All-Digital Phase-Locked Loop Applied to Grid-Connected Power Converters. IEEE Trans. on Industrial Electronics, 2011, 58(5):1737-1745.
[21]Hua Geng, David Xu, Bin Wu and Wei Huang. Direct voltage control for a stand-alone wind-driven self-excited induction generator with improved power quality. IEEE Trans. on Power Electronics, Aug. 2011, 26(8): 2358-2368.
[22]Hua Geng, Geng Yang, David Xu and Bin Wu. Unified Power control for PMSG based WECS during different grid situations. IEEE Trans. on Energy Conversion, Sept. 2011, 26(3): 822-830.
[23]Hua Geng, David Xu, Bin Wu and Geng Yang. Active Islanding Detection for Inverter-Based Distributed Generation Systems with Power Control Interface. IEEE Trans. on Energy Conversion, Dec. 2011, 26(4): 1063-1072.
[24]Hua Geng, David Xu. Stability Analysis and Improvements for Variable-speed Multi-pole Permanent Magnet Synchronous Generator based Wind Energy Conversion System. IEEE Trans. on Sustainable Energy, Oct. 2011, 2(4): 459-467.
[25]Hua Geng, David Xu, Bin Wu and Geng Yang. Comparison of oscillation damping capability in three power control strategies for PMSG-based WECS. Wind Energy, 2011, 14(3):389-406.
[26]H. Zhou, G. Yang, J. Wang, H. Geng. Control of a hybrid high-voltage DC connection for large doubly fed induction generator-based wind farms. IET Renewable Power Generation, 2011, 5(1): 36-47.
[27]Hua Geng, Geng Yang. Output Power Control for Variable-Speed Variable-Pitch Wind Generation Systems. IEEE Trans. on Energy Conversion, 2010, 25(2):494-502.
[28]Hua Geng, Geng Yang. Robust pitch controller for output power levelling of variable-speed variable-pitch wind turbine generator systems. IET Renewable Power Generation, 2009, 3(2): 168-179.
[29]奚鑫澤,耿華,楊耕. 含主動軸系扭振阻尼的併網雙饋風電場慣量控制方法. 電工技術學報.(已錄用)
[30]楊文韜,耿華,肖帥,楊耕. 最大功率跟蹤控制下大型風電機組的軸系扭振分析及抑制方法,清華大學學報(自然科學版).(已錄用)
[31]楊文韜,耿華,肖帥,楊耕. 大型風電機組的比例-積分-諧振獨立變槳距控制策略,電力自動化設備.(已錄用)
[32]譚樹龍,楊耕,耿華. 不平衡工況下鏈式STATCOM的運行極限分析. 電力自動化設備, 2015, 35(1): 44-49.
[33]鄭重,楊耕,耿華.配置STATCOM的DFIG風電場在不對稱電網故障下的控制策略.中國電機工程學報,2013,33(19):27-38.
[34]肖帥, 楊耕, 耿華. 抑制載荷的大型風電機組滑模變槳距控制. 電工技術學報, 2013, 28 (7): 145-150.
[35]肖帥, 孫建波, 耿華, 吳艦. 基於FPGA實現的可變模全數字鎖相環. 電工技術學報. 2012, 27(4):153-158.
[36]耿華, 許德偉, 吳斌, 楊耕. 永磁直驅變速風電系統的控制及穩定性分析. 中國電機工程學報. 2009, 33:68-75.
[37]耿華, 楊耕. 變速變槳距風電系統的功率水平控制. 中國電機工程學報. 2008, 28(25): 130-137.
[2]ShaoKang Ma, Hua Geng, Lu Liu, Geng Yang, Bikash C. Pal. Grid-Synchronization Stability Improvement of Large Scale Wind Farm During Severe Grid Fault. IEEE Trans. On Power System. (Early Access)
[3]Shulong Tan, Hua Geng, Geng Yang. Equivalent synchronous generator model of current controlled power converter for small signal stability studies of modern power system. Journal of Modern Power Systems and Clean Energy. (Early Access)
[4]Hua Geng, Xinze Xi, Lu Liu, Geng Yang, Jin Ma. Hybrid Modulated Active Damping Control for DFIG based Wind Farm Participating in Frequency Response. IEEE Trans. On Energy Conversion. (Early Access)
[5]Hua Geng, Xinze Xi, Geng Yang. Small-Signal Stability of Power System Integrated with Ancillary Controlled Large-scale DFIG based Wind Farm. IET Renewable Power Generation, 2017, 11(8): 1191-1198.
[6]Hua Geng, Shuzhen Li, Chao Zhang etc. Hybrid Communication Topology and Protocol for Distributed-Controlled Cascaded H-Bridge Multilevel STATCOM. IEEE Trans. on Industry Application, 2017, 53(1): 576-584.
[7]Shulong Tan, Hua Geng, Geng Yang. Impedance-matching-based Control for Resonance Damping of Microgrid with Multiple Grid-Connected-Converters. Journal of Power Electronics 2016, 16(6): 2338-2349.
[8]Liran Zheng, Hua Geng, Geng Yang. Fast and Robust Phase Estimation Algorithm for Heavily Distorted Grid Conditions. IEEE Trans. on Industrial Electronics, 2016, 63(11): 6845-6855.
[9]Ruiqi Li, Hua Geng, Geng Yang. Fault ride-through of renewable energy conversion systems during voltage recovery. Journal of Modern Power Systems and Clean Energy, 2016, 4(1): 28-39.
[10]X. Xi, Hua Geng, G. Yang. Enhanced Model of the DFIG-based Wind Farm for Small-Signal Stability Studies of Weak Power System, IET Renewable Power Generation, 2014, 8(7): 765-774.
[11]Shuai Xiao, Hua Geng, Geng Yang. Nonlinear Pitch Control of Wind Turbines for Tower Load Reduction. IET Renewable Power Generation, 2014, 8(7): 786-794.
[12]Hua Geng, Geng Yang. Linear and Nonlinear Schemes Applied to Pitch Control of Wind Turbines. The Scientific World Journal, 2014, 10: 1-9.
[13]Hua Geng, Cong Liu, Geng Yang. LVRT Capability of DFIG based WECS under Asymmetrical Grid Fault Condition. IEEE Trans. on Industrial Electronics, June 2013, 60(6): 2495-2509.
[14]Hua Geng, Jianbo Sun, Shuai Xiao, Geng Yang. Modeling and Implementation of an All Digital Phase-Locked-Loop for Grid-Voltage Phase Detection. IEEE Trans. on Industrial Informatics, May 2013, 9(2): 772-780.
[15]Shuai Xiao, Hua Geng, Honglin Zhou, Geng Yang. Analysis of the control limit for rotor-side converter of doubly fed induction generator-based wind energy conversion system under various voltage dips, IET Renewable Power Generation, 2013, 7(1): 71-81.
[16]Shuai Xiao, Geng Yang, Honglin Zhou, Hua Geng. A LVRT Control Strategy based on Flux Linkage Tracking for DFIG-based WECS, IEEE Trans. on Industrial Electronics, 2013, 60(7): 2820-2832.
[17]Zhong Zheng, Geng Yang, Hua Geng, Coordinated Control of a Doubly-Fed Induction Generator-Based Wind Farm and a Static Synchronous Compensator for Low Voltage Ride-through Grid Code Compliance during Asymmetrical Grid Faults. Energies, 2013, 6(9): 4660-4681.
[18]H. Zhou, S. Xiao, G. Yang, H. Geng. Modeling and control for a bidirectional buck-boost cascade inverter, IEEE Transactions on Power Electronics, 2012, 27(3): 1401-1413.
[19]Hua Geng, David Xu, Bin Wu, Geng Yang. Active Damping for PMSG based WECS with DC Link Current Estimation. IEEE Trans. on Industrial Electronics, 2011, 58(4):1110-1119.
[20]Hua Geng, David Xu, Bin Wu. A Novel Hardware-Based All-Digital Phase-Locked Loop Applied to Grid-Connected Power Converters. IEEE Trans. on Industrial Electronics, 2011, 58(5):1737-1745.
[21]Hua Geng, David Xu, Bin Wu and Wei Huang. Direct voltage control for a stand-alone wind-driven self-excited induction generator with improved power quality. IEEE Trans. on Power Electronics, Aug. 2011, 26(8): 2358-2368.
[22]Hua Geng, Geng Yang, David Xu and Bin Wu. Unified Power control for PMSG based WECS during different grid situations. IEEE Trans. on Energy Conversion, Sept. 2011, 26(3): 822-830.
[23]Hua Geng, David Xu, Bin Wu and Geng Yang. Active Islanding Detection for Inverter-Based Distributed Generation Systems with Power Control Interface. IEEE Trans. on Energy Conversion, Dec. 2011, 26(4): 1063-1072.
[24]Hua Geng, David Xu. Stability Analysis and Improvements for Variable-speed Multi-pole Permanent Magnet Synchronous Generator based Wind Energy Conversion System. IEEE Trans. on Sustainable Energy, Oct. 2011, 2(4): 459-467.
[25]Hua Geng, David Xu, Bin Wu and Geng Yang. Comparison of oscillation damping capability in three power control strategies for PMSG-based WECS. Wind Energy, 2011, 14(3):389-406.
[26]H. Zhou, G. Yang, J. Wang, H. Geng. Control of a hybrid high-voltage DC connection for large doubly fed induction generator-based wind farms. IET Renewable Power Generation, 2011, 5(1): 36-47.
[27]Hua Geng, Geng Yang. Output Power Control for Variable-Speed Variable-Pitch Wind Generation Systems. IEEE Trans. on Energy Conversion, 2010, 25(2):494-502.
[28]Hua Geng, Geng Yang. Robust pitch controller for output power levelling of variable-speed variable-pitch wind turbine generator systems. IET Renewable Power Generation, 2009, 3(2): 168-179.
[29]奚鑫澤,耿華,楊耕. 含主動軸系扭振阻尼的併網雙饋風電場慣量控制方法. 電工技術學報.(已錄用)
[30]楊文韜,耿華,肖帥,楊耕. 最大功率跟蹤控制下大型風電機組的軸系扭振分析及抑制方法,清華大學學報(自然科學版).(已錄用)
[31]楊文韜,耿華,肖帥,楊耕. 大型風電機組的比例-積分-諧振獨立變槳距控制策略,電力自動化設備.(已錄用)
[32]譚樹龍,楊耕,耿華. 不平衡工況下鏈式STATCOM的運行極限分析. 電力自動化設備, 2015, 35(1): 44-49.
[33]鄭重,楊耕,耿華.配置STATCOM的DFIG風電場在不對稱電網故障下的控制策略.中國電機工程學報,2013,33(19):27-38.
[34]肖帥, 楊耕, 耿華. 抑制載荷的大型風電機組滑模變槳距控制. 電工技術學報, 2013, 28 (7): 145-150.
[35]肖帥, 孫建波, 耿華, 吳艦. 基於FPGA實現的可變模全數字鎖相環. 電工技術學報. 2012, 27(4):153-158.
[36]耿華, 許德偉, 吳斌, 楊耕. 永磁直驅變速風電系統的控制及穩定性分析. 中國電機工程學報. 2009, 33:68-75.
[37]耿華, 楊耕. 變速變槳距風電系統的功率水平控制. 中國電機工程學報. 2008, 28(25): 130-137.
國際會議論文
[1]Shulong Tan, Hua Geng, Geng Yang.Stability Analysis and Improvement of LCL-Converters Based Microgrid. Renewable Power Generation conference, 2015.
[2]Xinze Xi, Hua Geng, Geng Yang. Stochastic subspace identification based modelling scheme for small-signal stability analysis of wind power integrated power system. Renewable Power Generation conference, 2015.
[3]Yang Wentao, Geng Hua, Xiao Shuai, Yang Geng. Nonlinear Individual Pitch Control of Large Wind Turbines for Blade Load Reduction, Renewable Power Generation conference, RPG 2015, 2015.
[4]Yang Wentao, Geng Hua, Xiao Shuai, Yang Geng. Linear Interpolation Model Predictive Control of Large Wind Turbines for Blade Asymmetric Fatigue Loads Mitigation, 17th European Conference on Power electronics and Applications, EPE 2015, Geneva, Switzerland, 2015.
[5]Xinze Xi, Hua Geng, Geng Yang. et al. Small-signal stability analysis and PHIL experiment validation of power system with WECS voltage/frequency ancillary control. IEEE Industrial Electronics Annual Conference, 2015.
[6]Haisang Wu, Wei Liu, Yingjie Chen, Hua Geng, Xiaofeng Sun, Geng Yang. Situation of Technology on Charging Optimization of Li-ion Power Battery.2015 Conference of China Power Supply Society, CCPSS2015, Shenzhen China, 2015.
[7]Shulong Tan, Geng Yang, Hua Geng, et al. Investigation of harmonic properties of a typical nonlinear load in an AC power-electronics-based micro-grid. Future Energy Electronics Conference, IFEEC2015, Taipei, 2015.
[8]Shulong Tan, Geng Yang, Hua Geng. A framework for stability analysis of micro-grid consisting of multiple grid-connected-converters.Electronics and Application Conference and Exposition,PEAC2014, Shanghai China, 2014.(Excellent paper, top 3%)
[9]Shulong Tan, Geng Yang, Hua Geng, et al. A resonance suppression method for a multiple grid-connected-converter system with LCL filter.Electronics and Application Conference and Exposition,PEAC2014, Shanghai China, 2014.
[10]Ruiqi Li, Geng Hua, Yang Geng. Asymmetrical high voltage ride through control strategy of grid-side converter for grid-connected renewable energy equipment. Electronics and Application Conference and Exposition,PEAC 2014, Shanghai China, 2014.
[11]Xinze Xi, Hua Geng, Geng Yang. Small signal stability of weak power system integrated with inertia tuned large scale wind farm. 2014 IEEE Innovative Smart Grid Technologies - Asia, ISGT Asia 2014, Kuala Lumpur, 2014. (Best student paper, top 3%)
[12]Yang Wentao, Geng Hua, Xiao Shuai, Yang Geng. Application of Multirate Sampling Approach in Pitch Control of Wind Generator Systems, 33rd Chinese Control Conference, CCC 2014, Nanjing, China, 2014.
[13]Hua Geng, Qing Lv, Geng Yang. Harmonic mitigation performance of the power inverter based DG in a AC microgrid.2014 IEEE 23rd International Symposium on Industrial Electronics, ISIE 2014, Istanbul, 2014.
[14]Shuai Xiao,Geng Yang,Hua Geng. Nonlinear pitch control design for load reduction on wind turbines.7th International Power Electronics Conference, IPEC-Hiroshima - ECCE Asia 2014, Hiroshima, 2014.
[15]Xinze Xi, Hua Geng, Geng Yang. Modelling of the DFIG based wind farms for small signal stability analysis of weak power grids.2nd IET Renewable Power Generation Conference, RPG 2013, Beijing, China, 2013.
[16]Yunlu Guo, Hua Geng, Geng Yang. LVRT Capability and Improved Control Scheme of PMSG-based WECS during Asymmetrical Grid Fault. 2013 IEEE Industrial Electronics Society Annual Conference, IECON 2013. Vienna, Austria, 2013: 5294-5299.
[17]H. Geng, G. Yang. Ride-through and grid support of the DFIG based wind farm during asymmetrical faults.2013 IEEE ECCE-Asia, 3-6 June 2013, Melbourne, Australia.
[18]Zheng Z, Yang G,Geng H. High voltage ride-through control strategy of grid-side converter for DFIG-basedWECS.IEEE Industrial Electronics Society Annual Conference. Vienna, Austria, 2013: 5280-5285.
[19]Zheng Z, Yang G,Geng H.Capability of asymmetrical grid faults ride-through for DFIG-based Wind turbines, 38th Annual Conference on IEEE Industrial Electronics Society, IECON 2012, pp 3533-3540, Montreal, QC, 2012.
[20]Zheng Z, Yang G, Geng H. Short circuit current analysis of DFIG-type WG with crowbar protection under grid faults. 2012 IEEE International Symposium on Industrial Electronics, 2012:1072 - 1079.
[21]Xiao S, Yang G, Geng H. Analysis of the control limit of crowbar-less LVRT methods for DFIG-based wind power systems under asymmetrical voltage dips. 2011 IEEE PES Innovative Smart Grid Technologies Asia, 2011:1 - 7.
[22]C.K. Wan,G. Yang,H. Geng,T.S. Zhang. Control methods of a cascade power regulation system for smart grid.2011 IEEE Power and Energy Society's Innovative Smart Grid Technologies Conference, Perth, WA, 2011. (Best poster paper, top 1%)
[23]Hua Geng, Geng Yang, David Xu and Bin Wu. Model Predictive Control for Transformerless Shunt Hybrid Power Filters. IPEC 2010.
[24]Hua Geng, David Xu, Bin Wu, Geng Yang. Comparison of active frequency drifting islanding detection methods for different DG interface controls. PEDG 2010.
[25]Hua Geng, David Xu, Bin Wu, Geng Yang. Active damping for torsional vibrations in PMSG based WECS. The 25th Annual IEEE Applied Power Electronics Conference & Exposition, California, USA, Feb., 2010.
獲獎記錄
2017年國家自然科學基金優秀青年基金。
2016年教育部(教指委)青年教師電子技術基礎課程競賽全國一等獎、華北地區一等獎。
2014年台達環境與教育基金會“中達青年學者獎”。
2013年中國電源學會“青年獎”。
2013年入選“北京高校青年英才計畫”。
IEEE會議最佳/優秀論文獎4次。
IET會議最佳論文獎1次。
