江全元

江全元

江全元,男,籍貫湖北省黃岡市,博士、原浙江大學城市學院副院長、浙江大學電氣工程學院教授,博士生導師,浙江省重點實驗室(海洋可再生能源電氣裝備與系統技術研究實驗室)副主任,現任浙江大學電力系統自動化研究所副所長、浙江大學工會青工委員、中國電工技術學會電力系統控制與保護專業委員會委員;浙江省傑出青年基金創新團隊項目負責人;教育部“新世紀優秀人才支持計畫”入選者;“浙江大學學術帶頭人後備人才出國研究專項計畫”(簡稱“新星計畫”)首批資助者,2006年7月至2008年6月為美國康奈爾大學訪問學者。

基本介紹

  • 中文名:江全元
  • 國籍:中國
  • 民族:漢族
  • 主要成就:教育部“新世紀優秀人才支持計畫” 
    浙江省傑出青年基金 
    浙江省151人才工程第一層次 
    國家自然科學基金、教育部科技獎評審專家 
    浙江省科技獎和中國電力科學技術獎評審專家 
  • 性別:男
  • 籍貫:湖北省黃岡市
人物經歷,研究領域,獲得榮譽,發表論文,

人物經歷

1997年6月、2000年6月、2003年6月分別獲得華中科技大學學士、碩士和博士學位,2003年7月進入浙江大學任教,2005年12月晉升副教授,2009年12月晉升教授。
長期從事電力系統分析與控制,電力系統最佳化技術等領域的研究工作,先後作為課題負責人承擔多項國家、省部級和橫向項目:1個國家863項目、2個國家自然科學基金、3個國家科技支撐計畫課題、7個省部級項目,3個橫向課題。此外,作為科研骨幹參與國家973課題2個,國家自然科學基金2個,省部級重大項目2個,具有豐富的項目申報、項目組織和項目研究的經驗。
從教以來,指導浙江大學竺可楨學院本科生7名,指導本科生畢業設計40餘名,碩士生16名,協助指導過博士生10餘名、碩士生近20名,有著豐富的指導學生從事高水平科學研究的經驗。其中:1人獲得浙江大學百篇優秀本科生畢業設計論文,4人獲得浙江大學優秀畢業設計論文獎,指導的本科生在EI檢索雜誌《電力系統自動化》上發表論文1篇,並順利保送浙大直博生;指導的本科生項目《基於PC集群的分散式微網能量管理系統的研製》獲得浙江大學2008年國家大學生創新性實驗計畫資助,其中1人報送清華大學研究生,1人保送浙大直博生。所承擔的研究生學位課《電力系統運行分析》獲得浙江大學研究生核心課程建設計畫資助。
在IEEE Trans、IEE、中國科學、中國電機工程學報、電工技術學報、電力系統自動化等國內外學術期刊上發表學術論文80餘篇(其中SCI收錄20餘篇、EI收錄40餘篇);2004年博士學位論文“電力系統次同步振盪的穩定性分析和控制器設計”獲湖北省優秀博士論文;2005年“複雜電力系統的穩定控制與智慧型最佳化理論與方法的研究”獲教育部自然科學獎一等獎;2006年“電力系統的穩定與經濟運行的理論與方法研究”獲浙江省高等學校科研成果獎一等獎;2007年“複雜非線性電力系統的穩定控制與智慧型最佳化理論與方法的研究”獲國家自然科學獎二等獎。2008年“電力信息集成中的若干關鍵技術研究與開發”獲高等學校科學研究優秀成果獎(科學技術)科技進步一等獎。此外,還獲得2004年度和2008年度浙江大學電氣工程學院南瑞繼保獎教金、2007年度和2009年度浙江大學電氣工程學院王國松獎教金、2008年度浙江大學青年崗位能手、2009年度浙江大學電氣工程學院科研先進工作者和青年教師講課比賽三等獎等榮譽。

研究領域

(1)電力系統穩定分析、最佳化、控制與經濟運行; (2)電力系統高性能並行計算;
(3)分散式發電與集中式可再生能源發電;
(4)高速鐵路牽引供電品質研究;
(5)電力系統輸配電柔性交流輸電設備。

獲得榮譽

從2000年至今,發表學術論文150餘篇,其中SCI檢索論文50餘篇,EI檢索論文90餘篇,其中以第一作者或通訊作者在國際權威期刊IEEE Transactions on Power Systems上發表(含接收)論文21篇、IEEE Transactions on Energy Conversion論文1篇、IEEE Transactions on Smart Grid論文3篇。SCI論文SCI引用302次,他引275次,單篇最高他引57次;中文論文在中國知網(CNKI)上單篇最高引用130次。獲得授權發明專利17項,合作出版著作2本。長期從事電力系統分析與控制,電力系統最佳化技術、新能源併網與儲能套用技術等領域的研究工作,先後作為課題負責人承擔國家自然科學基金、國家973、863課題、國家科技支撐計畫課題、國家電網公司、南方電網公司等國家和企業橫向項目30餘項。工作以來,所獲得的主要榮譽和獎勵有:
2004年博士學位論文“電力系統次同步振盪的穩定性分析和控制器設計”獲湖北省優秀博士論文;
2005年“複雜電力系統的穩定控制與智慧型最佳化理論與方法的研究”獲教育部自然科學獎一等獎;
2006年“電力系統的穩定與經濟運行的理論與方法研究”獲浙江省高等學校科研成果獎一等獎;
2007年“複雜非線性電力系統的穩定控制與智慧型最佳化理論與方法的研究”獲國家自然科學獎二等獎;
2008年“電力信息集成中的若干關鍵技術研究與開發”獲高等學校科學研究優秀成果獎(科學技術)科技進步一等獎;
2014年“輸變電工程立項決策模型研究”獲中國能源建設集團有限公司科技進步獎三等獎;
2014年“特高壓入湘電網安全穩定控制技術研究”獲國網湖南省電力公司科學技術進步獎一等獎。
2004年度和2008年度浙江大學電氣工程學院南瑞繼保獎教金;
2007年度和2009年度浙江大學電氣工程學院王國松獎教金;
2008年度浙江大學青年崗位能手;
2009年度浙江大學電氣工程學院科研先進工作者;
2009年度浙江大學電氣工程學院青年教師講課比賽三等獎;
2011年度浙江大學優秀班主任;
2011年浙江大學優秀共產黨員;
2012年浙江大學優秀共產黨員標兵;
2012年浙江省教育工委優秀共產黨員;
2012年浙江省第一屆五星級青年教師。

發表論文

Jiang Quanyuan, Xue Meidong, Geng Guangchao, Energy Management of Microgrid in Grid-connected and Stand-alone Modes,IEEE Transactions on Power Systems, 2013, 28(3): 3380-3389. (57)
  1. Jiang Qunayuan, Li Xingpeng, Wang Bo, Wang Haijiao, PMU-Based Fault Location Using Voltage Measurements in Large Transmission Networks,IEEE Transactions on Power Delivery, 2012, 27(3): 1644-1652. (29)
  2. Jiang Quanyuan, Gong Yuzhong, Wang Haijiao, A Battery Energy Storage System Dual-Layer Control Strategy for Mitigating Wind Farm Fluctuations,IEEE Transactions on Power Systems, 2013, 28(3): 3263-327. (28)
  3. Jiang Quanyuan, Hong Haisheng, Wavelet-based Capacity Configuration and Coordinated Control of Hybrid Energy Storage System for Smoothing out Wind Power Fluctuations,IEEE Transactions on Power Systems, 2013, 28(2): 1363-1372. (25)
  4. Jiang Quanyuan, Wang Haijiao, Two-Time-Scale Coordination Control for a Battery Energy Storage System to Mitigate Wind Power Fluctuations,IEEE Transactions on Energy Conversion, 2013, 28(1): 52-61. (24)
  5. Jiang Quanyuan, Geng Guangchao, A Reduced-Space Interior Point Method for Transient Stability Constrained Optimal Power Flow,IEEE Transactions on Power Systems, 2010,25(3): 1232-1240. (14)
  6. Jiang Quanyuan, Huang Zhiguang, An Enhanced Numerical Discretization Method for Transient Stability Constrained Optimal Power Flow,IEEE Transactions on Power Systems, 2010, 25(4): 1790-1797. (13)
  7. Jiang Quanyuan, Zhou Boran, Zhang Mingze, Parallel Augment Lagrangian Relaxation Method for Transient Stability Constrained Unit Commitment,IEEE Transactions on Power Systems, 2013, 28(2): 1140-1148. (10)
  8. Jiang Quanyuan,Chiang Hsiao-Dong, Guo Chuangxin, Cao Yijia, Power-current hybrid rectangular formulation for interior-point optimal power flow,IET Generation, Transmission & Distribution, 2009, 3(8), 748-756. (9)
  9. Jiang Quanyuan, Geng Guangchao, Guo Chuangxin, Cao Yijia, An Efficient Implementation of Automatic Differentiation in Interior Point Optimal Power Flow,IEEETransactions on Power Systems, 2010, 25(1): 147-155. (8)
  10. Jiang Quanyuan, Cao Yijia, Cheng Shijie, A genetic approach to design a HVDC supplementary subsynchronous damping controller,IEEE Transactions on Power Delivery, 2005, 20(2): 1059-1064. (6)
  11. Jiang Qunayuan, Wang Bo, Li Xingpeng, An Efficient PMU-Based Fault-Location Technique for Multiterminal Transmission Lines,IEEE Transactions on Power Delivery, 2014, 29(4): 1675-1682. (6)
  12. Jiang Quanyuan, Xu Kai, A Novel Iterative Contingency Filtering Approach to Corrective Security-Constrained Optimal Power Flow,IEEE Transactions on Power Systems, 2014, 29(3): 1099-1109. (4)
  13. Jiang Quanyuan, Zou Zhenyu, Wang Zhiyong, Cao Yijia,Design of UPFC controller in largescale power systems based on immune genetic algorithm,Transactions of the Institute of Measurement and Control, 2006, 28(1): 15-25. (4)
  14. Jiang Quanyuan, Han ZhenXiang,Solvability identification and feasibility restoring of divergent optimal power flow problems,Science in China Series E-Technological Sciences, 2009, 52(4):944-954. (2)
  15. Jiang Quanyuan, Cheng Shijie, Cao Yijia,Lyapunov stability analysis of turbine-generator including shaft system,International Journal of Electrical Power & Energy systems, 2003, 25(9): 741-746. (2)
  16. Jiang Quanyuan, Wang Yun, Geng Guangchao, A Parallel Reduced-Space Interior Point Method With Orthogonal Collocation for First-Swing Stability Constrained Emergency Control,IEEE Transactions on Power Systems, 2014, 29(1): 84-92. (1)
  17. Jiang Quanyuan, Huang Zhiguang, Xu Kai, Contingency filtering technique for transient stability constrained optimal power flow,IET Generation, Transmission & Distribution, 2013, 7(12), 1536-1546. (1)
  18. Jiang Quanyuan, Jiang Han,OpenMP-based parallel transient stability simulation for large-scale power systems,Science China-Technological Sciences, 2012, 55(10):2837-2846. (1)
  19. Jiang Quanyuan, Chiang Hsiao-dong,Sequential feasible optimal power flow: theoretical basis and numerical implementation,European Transactions on Electrical Power, 2010, 20(6):695-709. (0)
  20. Jiang Quanyuan, Huang Zhiguang, Guo Chuangxin, Chiang Hsiao-dong,A new model of phase shifter for its efficient integration in interior point optimal power flow,European Transactions on Electrical Power, 2010, 20(4):505-517. (0)
  21. Jiang Quanyuan, Guo Chuangxin, Cao Yijia,Design of self-adaptive single neuron facts controllers based on genetic algorithm,Advances in Neural Networks - isnn 2006, PT 2, Proceedings, 2006, 3972: 1332-1337. (0)
  22. Cao Yijia, Wang GZ;Jiang Quanyuan, Han Zhenxiang, A neighborhood evolving network model,Physics Letters A, 2006, 349(6): 462-466. (17)
  23. Zou Zhenyu,Jiang Quanyuan, Cao Yijia, Wang Huifang,Normal form analysis of interactions among multiple SVC controllers in power systems,Iee Proceedings-generation Transmission and Distribution, 2005, 152(4): 469-474. (14)
  24. Li Ying, Cao Yijia, Liu Zhaoyan, Liu Yi,Jiang Quanyuan,Dynamic optimal reactive power dispatch based on parallel particle swarm optimization algorithm,Computers & Mathematics with Applications, 2009, 57(11-12):1835-1842. (11)
  25. Zou Zhenyu,Jiang Quyuan, Cao Yijia, Wang Huifang,Application of the normal forms to analyze the interactions among the multi-control channels of UPFCs,International Journal of Electrical Power & Energy Systems, 2005, 27(8): 584-593. (8)
  26. Geng Guangchao,Jiang Quanyuan, A Two-Level Parallel Decomposition Approach for Transient Stability Constrained Optimal Power Flow,IEEE Transactions on Power Systems, 2012, 27(4): 2063-2073. (7)
  27. Wang Haijiao, Chen Zhe,Jiang Quanyuan, Optimal control method for wind farm to support temporary primary frequency control with minimised wind energy cost,IET Renewable Power Generation, 2015, 9(4): 350-359. (4)
  28. Zou Zhenyu,Jiang Quanyuan, Zhang Pengxiang, Cao Yijia,Application of multi-objective evolutionary algorithm in coordinated design of PSS and SVC controllers,Computational Intelligence and Security, PT 1, Proceedings, 2005, 3801: 1106-1111. (4)
  29. Qi Jun, Jiang Quanyuan, Wang Guangzeng, Cao Yijia,Wide-area time-delay robust damping control for power system,European Transactions on Electrical Power, 2009, 19(7):899-910. (3)
  30. Geng Guangchao, Ajjarapu Venkataramana,Jiang Quanyuan, A Hybrid Dynamic Optimization Approach for Stability Constrained Optimal Power Flow,IEEE Transactions on Power Systems, 2014, 29(4): 2138-2149. (3)
  31. Xu Lizhong, Yang Guangya, Xu Zhao, Bao ZheJing,Jiang Quanyuan, Cao Yijia, Ostergaard Jacob,A co-ordinated dispatch model for electricity and heat in a Microgrid via particle swarm optimization,Transactions of the Institute of Measurement and Control, 2013, 35(1): 44-55. (3)
  32. Wang Zhiyong, Guo Chuangxin,Jiang Quanyuan, Cao Yijia,A fault diagnosis method for transformer integrating rough set with fuzzy rules,Transactions of the Institute of Measurement and Control, 2006, 28(3):243-251. (3)
  33. Liu Yunfei,Jiang Quanyuan, Two-Stage Parallel Waveform Relaxation Method for Large-Scale Power System Transient Stability Simulation,IEEE Transactions on Power Systems, 2016, 31(1): 153-162. (2)
  34. Gong Yuzhong,Jiang Quanyuan, Baldick Ross, Ramp Event Forecast Based Wind Power Ramp Control With Energy Storage System,IEEE Transactions on Power Systems, 2016, 31(3): 1831-1844. (2)
  35. Zhou Boran, Geng Guangchao,Jiang Quanyuan, Hierarchical Unit Commitment With Uncertain Wind Power Generation,IEEE Transactions on Power Systems, 2016, 31(1):94-104. (1)
  36. Bao Zhejing,Jiang Quanyuan, Yan Wenjun, Cao Yijia,Stability of the spreading in small-world network with predictive controller,Physics Letters A, 2010, 374(13-14): 1560-1564. (1)
  37. Wang Shaobu,Jiang Quanyuan, Cao Yijia,WAMS-based monitoring and control of Hopf bifurcations in multi-machine power systems,Journal of Zhejiang University-science A, 2008, 9(6): 840-848. (1)
  38. Guo Chuangxin,Jiang Quanyuan, Cao Yijia,Controlling chaotic oscillations via nonlinear observer approach,Chaos Solitons & Fractals, 2007, 34(3): 1014-1019. (1)
  39. Chen Weihua,Jiang Quanyuan, Cao Yijia,Low voltage risk assessment in power system using neural network ensemble,Advances in Neural Networks - ISNN 2006, PT 2, PROCEEDINGS, 2006, 3972: 1416-1421. (1)
  40. Chen Weihua,Jiang Quanyuan, Wang Zhiyong, Cao Yijia,Risk assessment of cascading outages in power systems using fuzzy neural network,ADVANCES IN NEURAL Networks - isnn 2006, PT 2, Proceedings, 2006, 3972: 1422-1427. (1)
  41. Li Yongjie, Geng Guangchao,Jiang Quanyuan,An Efficient Parallel Krylov-Schur Method for Eigen-Analysis of Large-Scale Power Systems,IEEE Transactions on Power Systems, 2016, 31(2):920-930. (0)
  42. Zhu Zexaing, Geng Guangchao,Jiang Quanyuan,Power System Dynamic Model Reduction Based on Extended Krylov Subspace Method,IEEE Transactions on Power Systems, 2016, 31(6): 4483-4494. (0)
  43. Zhou Boran, Geng Guangchao,Jiang Quanyuan, Hydro-Thermal-Wind Coordination in Day-Ahead Unit Commitment,IEEE Transactions on Power Systems, 2016, 31(6): 4626-4637. (0)
  44. Ma Junchao, Geng Guangchao,Jiang Quanyuan, Two-Time-Scale Coordinated Energy Management for Medium-Voltage DC Systems,IEEE Transactions on Power Systems, 2016, 31(5): 3971-3983. (0)
  45. Geng Guangchao,Jiang Quanyuan, Sun Youxain, Parallel Transient Stability-Constrained Optimal Power Flow Using GPU as Coprocessor,IEEE Transactions on Smart Grid, 2017, 8(3): 1436-1445. (0)
  46. Li, Yongjie, Geng Guangchao,Jiang Quanyuan, A Parallel Contour Integral Method for Eigenvalue Analysis of Power Systems,IEEE Transactions on Power Systems, 2017, 32(1): 624-632. (0)
  47. Zhu Zexiang, Geng Guangchao,Jiang Quanyuan, Multi-Scenario Parameter Estimation for Synchronous Generation Systems,IEEE Transactions on Power Systems, 2017, 32(3): 1851-1859. (0)
  48. Chen Xiaogang, Yi Yonghui, Wang Wei,Jiang Quanyuan, Guo Chuangxin, Cao Yijia,Mixed nonlinear dynamic voltage phasor tracing method based on WAMS/SCADA,Journal of Zhejiang University-science A, 2009, 10(6): 868-876. (0)
  49. Li Zhihao, Yao Guoqiang, Geng Guangchao,Jiang Quanyuan, An Efficient Optimal Control Method for Open-Loop Transient Stability Emergency Control,IEEE Transactions on Power Systems, 2017, PP(99): 1-1. (early access)
  50. Li Zhihao, Geng Guangchao,Jiang Quanyuan, Transient Stability Emergency Control Using Asynchronous Parallel Mixed-integer Pattern Search,IEEE Transactions on Smart Grid, 2017, PP(99): 1-1. (early access)
  51. Li Yongjie, Geng Guangchao,Jiang Quanyuan, A Parallelized Contour Integral Rayleigh-Ritz Method for Computing Critical Eigenvalues of Large-scale Power Systems,IEEE Transactions on Smart Grid, 2017, PP(99): 1-1.(early access)
  52. Jiang Quanyuan, Cao Yijia, Cheng Shijie, A genetic approach to mixed H-2/H-infinity robust control design for SMES,Engineering Intelligent Systems for Electrical Engineering and Communications,2005, 13(1): 37-43.
  53. Guo, Cuangxin;Jiang, Quanyuan; Xiu, C, Recent developments on applications of neural networks to power systems operation and control: An overview,International Symposium on Neural Networks (ISSN 2004), Dalian, 2004, 3174: 188-193.
  54. Lu Jingui, Du Jie, Liu Zhijian, Xu Lizhong,Jiang Quanyuan, Guo Chuangxin, Cao Yijia,Local higher-order Volterra filter multi-step prediction model of chaotic time series,ACTA PHYSICA SINICA, 2009, 58(9): 5997-6005.

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