研究员、博士生导师
联系方式:+86 2134204318
电子邮件:wangzxin@sjtu.edu.cn
1990.09 –1994.04 浙江大学 机械系,博士
1985.09 –1988.07 浙江大学 科仪系,硕士
1981.09 –1985.07 浙江大学 科仪系,学士
2003.07– 上海交通大学 电气工程系 研究员、博士生导师,曾任系副主任
1999.11–2003.06 上海交通大学 科技处 研究员(2001.8),副处长
1997.11–1999.10 上海交通大学 机械工程学院 副教授,院长助理、副所长
1994.04–1997.10 上海理工大学 机械系 副教授(1995.7),欧姆龙实验室主任
1990.09–1994.04 浙江大学 机械工程系 讲师(1990.9)
期刊论文
(1)Wang Zhixin, Jiang Chuanwen, Ai Qian, etal. The Key Technology of Offshore Wind Farm and Its New Development in China. Renewable and Sustainable Energy Reviews[J].2009,1(1):216-222 SCI
(2)Binkai Jiang, Zhixin Wang. The Key Technologies of VSC-MTDC and Application in China. Renewable & Sustainable Energy Reviews.2016,62(9):297–304 SCI
(3)Jie Wu, Zhi-Xin Wang, Guo-Qiang Wang. The key technologies and development of offshore wind farm in China. Renewable &Sustainable Energy Reviews, 2014,34(6): 453–462 SCI
(4)Liu Hanmin,Wang Zhixin,Cheng Jie,Maly Douglas.Improvement on the cold cranking capacity of commercial vehicle by using supercapacitor and lead-acid battery hybrid[J].IEEE Transactions on Vehicular Technology,2009,58(3):1097-1105 SCI
(5)Jie Wu, Zhi-Xin Wang, Lie Xu, etal. Key technologies of VSC-HVDC and its application on offshore wind farm in China. Renewable & Sustainable Energy Reviews, 2014,36(8):247–255 SCI
(6)Liu Liqun, Wang Zhixin. The development and application practice of wind-solar energy hybrid generation systems in China[J]. Renewable and Sustainable Energy Reviews. 2009,13(6-7):1504-1512 SCI
(7)Li-qun Liu, Zhi-xin Wang, Hua-qiang Zhang, etal. Solar Energy development in China-A review[J]. Renewable and Sustainable Energy Reviews,2010,14(1):301—303 SCI
(8)Huancheng Lin , Zhixin Wang. Virtual-multilevel model predictive control with error feedback for modular multilevel converters. IET Generation, Transmission & Distribution, 2018,12 3):531~539 SCI
(9)H. Lin, Z. Wang, A novel model predictive control strategy of modular multilevel converters using voltage prediction. Electrical Power Syst. Res. 2018, 163:678-685 SCI
(10)Muhammad Ahmad, Zhixin Wang, Yong Zhang. An Improved Fault Current Limiting Circuit for VSC-HVDC Transmission System, International Journal of Electrical Power & Energy Systems.2020,118(6): 105836 DOI:10.1002/2050-7038.12468 SCI
(11)Muhammad Ahmad,Zhixin Wang,Yong Zhang. High Voltage DC Circuit Breaker with Gradual Fault Current Limitation Mechanism for VSC-HVDC Applications. International Transactions on Electrical Energy Systems. 30-May-2020 DOI:10.1002/2050-7038.12468 SCI
(12)Muhammad Ahmad, Zhixin Wang. A hybrid DC circuit breaker with fault current limiting capability for VSC-HVDC transmission system. Energies, 2019,12(12):1-16 SCI
(13)Muhammad Ahmad, Wang Zhixin, Yan Sheng, etal. Comparative Analysis of Two and Four Current Loops for Vector Controlled Dual-Three Phase Permanent Magnet Synchronous Motor. Electronics, 2018, 7(11), 269:1-14 SCI
(14)Muhammad Ahmad1, Zhixin Wang, etal.A hybrid circuit breaker with fault current limiter circuit in a VSC-HVDC application. Protection and Control of Modern Power Systems, 2022,7(4):657-669.DOI:10.1186/s41601-022-00264-9 SCI
(15)Muhammad Ahmad, Zhixin Wang, etal.The coordinated fault current limiting strategy for hybrid multilevel modular converter (MMC) based VSC-HVDC applications. Recent Advances in Electrical & Electronic Engineering, 2021,14(8):DOI:10.2174/2352096514666211125141421 SCI
(16)Muhammad Ahmad, Zhixin Wang,Muhammad Shafique,etal.Significance of fault-current-limiters and parameters optimizing in HVDC circuit breakers for increased capacity of VSC-HVDC transmission networks application. Energy Reports 8(2022):878-892 SCI
(17)Jiawei Dong,Zhixin Wang, etal. Secondary Frequency Regulation and Stabilization Method of Islanded Droop Inverters Based on Integral Leading Compensator. ENERGY Reports 8(2022):1718-1730 SCI
(18)Jiawei Dong,Chunyang Gong, Jun Bao, Lihua Zhu, Yuanjun Hou, Zhixin Wang.Secondary-Frequency and Voltage-Regulation Control of Multi-Parallel Inverter Microgrid System. Energies, 2022, 15(22), 8533; doi:10.3390/en15228533 SCI
(19)Cunyang Gong, Zhili Yao, Hui Chen,Dongmei Huang,XiaoliangWang,Zhixin Wang,ShuaiShi. An optimal coordinated planning strategy for distributed energy station based on characteristics of electric vehicle charging behavior under carbon trading mechanism.International Journal of Electrical Power & Energy Systems.Volume 147, May 2023, 108884.https://doi.org/10.1016/j.ijepes.2022.108884 SCI
(20)Jiawei Dong, Chunyang Gong, Jun Bao, Lihua Zhu,Zhixin Wang. Dynamic virtual resistance-based droop control for seamless transition operation of multi-parallel microgrid inverters. Electrical Engineering, DOI 10.1007/s00202-022-01723-0:1-15 SCI
(21)GU Yuelong, GONG Chunyang, CHEN Hui, ZHANG Jun, WANG Zhixin。Series DC Arc Characteristic and Diagnosis Strategy for Distributed PV Power Generation,Electrotehnica, Electronica, Automatica (EEA),2022,70(4):1-10 EI
(22)Jiawei Dong,Zhixin Wang,Sheng Yan, Zhidong Wang, Binkai Jiang, Chengzhi Zhu, Chengmin Wang。Research on DC voltage droop strategy based on optimal DC power flow. Journal of Physics: Conference Series 2226 (2022) 012014 doi:10.1088/1742-6596/2226/1/012014 EI
(23)Muhammad Ahmad, Chunyang Gong, Yixin Chen, Zhixin Wang*and Hui Li.The coordinated fault current limiting strategy for hybrid multilevel modular converter (MMC) based VSC-HVDC applications. Recent Advances in Electrical & Electronic Engineering,2021,14(8):DOI:10.2174/2352096514666211125141421 EI
(24) Jiawei Lin,Zhixin Wang, Junyao Chen, etal. Research on Capacity Allocation and Control of Elevator Hybrid Energy Storage Device。Electrotehnica, Electronica, Automatica(EEA),2019,67(4):5-11 EI
(25)Jiang Binkai, Wang Zhixin. Research on an Improved Virtual Synchronous Generator Control Strategy for VSC-HVDC Supplying Power to a Passive Network. IEEJ Transactions on electrical and electronic engineering,2018,13(9):1328-1334
(26)Li Shuang,Wang Zhixin,Wang Guogiang.Fluctuation Voltage Control and Fault-Tolerant Operation of Modular Multilevel Converters with Zero-Sequence Injection[J]. INTERNATIONAL Transactions on Electrical ENERGY SYSTEMS.2014,24(7):944--959 SCI
(27)Li Shuang, Wang Zhixin, Wang Guogiang. Input-Output Linerization and Predictive Current Controller for Offshore Wind farm VSC-HVDC[J]. Przeglad Elektrotechniczny(Electrical Review), ISSN 0033-2097, R.89 NR 1a/2013:230--234 SCI
(28)Li Shuang, Wang Zhixin, Wang Guogiang.Proportional-integral-differential Neural Network Based Sliding-mode Controller for Modular Multi-level High-voltage DC Converter of Offshore Wind Power[J]. Electrical Power Components and Systems.2013,41(4): 427-446 SCI
(29) Jie Wu, Zhi-Xin Wang, Guo-Qiang Wang, Shuang Li & Ding-Guo Wu. Research on Direct Power Control of Modular Multi-level Converter for Power Transmission[J].Electric Power Components and Systems, 2012,40(15):1731-1749 SCI
(30)Li Shuang, Wang Zhixin, Wang Guogiang. Improved Predictive Direct-Power-Control of Offshore VSC-HVDC Converter without PLL Scheme[J]. International Review Of Electrical Engineering (IREE). 2012,7(2):3709-3716 SCI
(31)Shuang Li, Zhixin Wang, Guoqiang Wang, et etc. Pid neural network sliding-mode controller design for three level based vsc-hvdc converter of offshore wind power[J]. Mediterranean Journal of Measurement and Control. 2012, 8(1):359-367 EI
(32)Wang Guoqiang,Wang Zhixin, Li Shuang.Simulation Study of a Modular Multilevel VSC-HVDC System for Offshore Wind Farm. European Transactions on Electrical Power, 2012,22(8):1161-1175 SCI
(33)Wang Guoqiang,Wang Zhixin,Li Shuang,Wu Ding-guo.Trigger Method of Modular Multilevel converter and Application on PWM Rectifier[J]. The Mediterranean Journal of Measurement and Control,2011.Vol.7(3):281-287 EI
(34) Li Shuang, Wang Zhixin,Wang Guoqiang. Feedback Linearization Based Control Strategy of VSC-HVDC Transmission Converters for Offshore Wind Farms.WSEAS Transactions on Systems, 2011,10(2) :49-58 EI
(35) Wang Guoqiang, Wang Zhixin. Nonlinear Control of VSC-HVDC Transmission Converter for Offshore Wind Farm [J], International Review of Electrical Engineering (IREE), vol. 5 n.6, December, 2010, pp. 2882–2889 SCI
(36) Wang Guoqiang, Wang Zhixin,Li Shuang.Control of HVDC-Light Transmission for Offshore Wind Farms Based on Input-Output Feedback Linearization and PSO [J], WSEAS TRANSACTIONS on SYSTEMS .2010.11(9):1109-1119EI
(37) PiaoHaiguo,Wang Zhixin, Zhang Huaqiang. Cooperative PSO Based New Learning Algorithm of PID Neural Network and Simulation Research. The Mediterranean Journal of Measurement and Control,2009,5(2):60—70 EI
(38)Liu Liqun, Wang Zhixin. A variable voltage MPPT control method for photovoltaic generation system,WSEAS Transactions on Circuits and Systems, 2009,8(4):335-349 EI
(39)Piao Haiguo, Wang Zhixin, Zhang Huaqiang。Cooperative-PSO-Based PID Neural Network Integral Control Strategy and Simulation Research with Asynchronous Motor Controller Design。WSEAS TRANSACTIONS ON CIRCUITS AND SYSTEMS,2009,8(8): EI
(40)KONG YIGANG, WANG ZHIXIN。Optimal Power Capturing of Multi-MW Wind Generation System,WSEAS Trans. on SYSTEMS.2008,7(3):125—132 EI
(41)Liu Liqun,WangZhixin. A Rapid MPPT Algorithm Based on the Research of Solar Cell’s Diode Factor and Reverse Saturation Current. WSEAS TRANSACTIONS ON SYSTEMS,2008,7(5):568—579 EI
(42)Wu Dingguo, Wang Zhixin. The Study of Multimode Power Control System for MW Variable-Speed Wind Turbine, WSEAS Transactions on Circuits and Systems, v 7, n 5, May, 2008, p438-444 EI
(43)Yigang Kong, Zhixin Wang, Layered Multi-Mode Optimal Control Strategy for Multi-MW Wind Turbine. Journal of Dong Hua University.2008,25(3):317—323 EI
(44)Yigang Kong,Zhixin Wang, Jianguo Wang. Best Tracking Performance under Plant Uncertainty and Control Energy Constraint.Journal of Donghua University,2007,24(4):529-532 EI
(45)Wu Li, Wang Zhixin. Wind Generator Stabilization with Doubly-Fed Asynchronous Machine[J].Journal of Shanghai Jiao Tong Da Xue, 2007,(2):271—282 EI
(46)Li Wu, Z.X.Wang,Junji Tamura. Stabilization of Wind Farm Output with Doubly-fed Asynchronous Machine. WSEAS TRANSACTIONS on CIRCUITS and SYSTEMS, 2007,6(2):222—227 EI
(47)Yigang Kong, Zhixin Wang, Jianguo Wang. Best Tracking Performance under Plant Uncertainty and Control Energy Constraint.Journal of Donghua University,2007,24(4):529-532,538 EI
(48)Yigang Kong,Zhixin Wang. Modeling and Analyzing the Hydraulic Variable –pitch Mechanism for a Variable-speed Wind Turbine. Wind Engineering,2007,31(5):341—352 10165443,EI
(49)王志新,吴杰,徐烈,等.大型海上风电场并网VSC-HVDC变流器关键技术[J].中国电机工程学报,2013,33(19):14—26EI
(50)王国强,王志新.粒子群与PIDNN控制器在VSC-HVDC中的应用[J].中国电机工程学报,2011,31(3):8-13 EI
(51)王国强,王志新,李爽.模块化多电平变流器的直接功率控制研究[J].中国电机工程学报,2012.32(6):64-71 EI
(52)李爽,王志新,王国强.基于改进粒子群算法的PIDNN控制器在VSC-HVDC中的应用[J].中国电机工程学报,2013,33 (3): 14-21. EI
(53)李爽,王志新,王国强,等.三电平海上柔性直流输电变流器的PID神经网络滑模控制研究[J]. 中国电机工程学报,2012,32(4):20—28 EI
(54)江斌开,王志新,包龙新,等.连接无源网络的VSC-HVDC优化虚拟同步机控制策略研究[J]. 中国电机工程学报,2018,38(22):6542-6549 EI
(55)江斌开,王志新,邹建龙,等.计及不平衡功率最优分配的多点直流电压斜率控制策略研究[J]. 中国电机工程学报, 2017,37(12):3383—3390 EI
(56)林环城,王志新.基于逆向预测的模块化多电平变流器模型预测控制策略[J]. 中国电机工程学报,2017,37(17):5098—5106 EI
(57)林环城, 王志新.基于模型预测控制的模块化多电平变流器新型混合控制策略[J]. 中国电机工程学报, 2016,36(7):1877-1884 EI
(58)孔屹刚,王志新.大型风电机组模糊滑模鲁棒控制器设计与仿真[J].中国电机工程学报,2008,28(14):136—141 EI
(59)董家伟,龚春阳,包俊,朱国忠,王志新.事件触发改进一致性算法的孤岛运行多逆变器微电网系统分布式二次调频方法。中国电机工程学报,1-15[2023-04-02] EI
(60)李爽,王志新,王国强.基于P-DPC的海上风电HVDC-Light变流器控制研究[J].电工技术学报,2013.28(2):264-270EI
(61)吴杰,王志新.多端柔直系统的改进下垂控制策略研究[J].电工技术学报,2017,32(20):241—250 EI
(62)姚志力,王志新.考虑负荷特性的区域冷热电联供系统站网协同优化设计方法.电工技术学报,2021,36(5):65-77EI
(63)朴海国,王志新.风电机组偏航FUZZY-PID合成矢量控制系统仿真研究[J]。电工技术学报,2009,24(3):183-188,202 EI
(64)李菁,王志新,严胜,等.计及舒适度的家庭能量管理系统优化控制策略,太阳能学报,2020,41(10):51-58 EI
(65)林嘉伟,王志新,严胜,等.光伏水泵提水系统功率补偿控制策略研究.太阳能学报,2021,42(3):323-330 EI
(66)林嘉伟,王志新,张永.独立直流微电网中考虑不同容量的分布式储能系统能量控制策略。电力自动化设备,2020,40(10):139-146 EI
(67)王金健,王志新.一种具有限流能力的新型混合式高压直流断路器拓扑。电力自动化设备,2019,39(10):143-149 EI
(68)董家伟,王志新,朱国忠,等.孤岛运行下垂逆变器二次调频方法.电力自动化设备,2022,42(05):40-46 EI
(69)陈奕新,王志新,林环城,等.适用于弱交流系统的MMC-HVDC模型预测控制策略。电力自动化设备,2020,40(01):80-86 EI
(70)姚志力,王志新,等.计及电动汽车充电负荷特性的区域多能源站规划设计。电网技术,2022,46(9): 3304-3314 EI
(71)姚志力,王志新.计及风光不确定性的综合能源系统两层级协同优化配置方法。电网技术,2020,44(12):4521-4529 EI
(72)张永明,林嘉伟,王志新,等.计及DCM的电动汽车充电机LLC谐振变换器参数设计与优化.电力系统保护与控制,2020,48(2):150-156 EI
(73)张永明,姚志力,王志新,等。基于配电网概率潮流计算的电动汽车充电站规划策略。电力系统保护与控制,2019,47(22):9--16 EI
(74)江斌开,王志新。基于VSC-MTDC的平均值建模与控制策略,电机与控制学报,2018,21(3):1-8 EI
(75)林环城,王志新。基于模型预测控制的模块化多电平变流器桥臂能量控制策略。电力自动化设备,2018,38(4):44-51 EI
(76)林环城,王志新。MMC功率运行区域分析及环流切换控制策略研究。电力自动化设备,2018,38(8):31-37 EI
(77)吴杰,王志新.混合直流输电系统功率同步控制研究.电机与控制学报,2017,21(7):1-10 EI
(78)江斌开,王志新,陆斌锋,史莉。基于P-DPC的多端直流输电控制策略,电力自动化设备,2016,36(2):11—16 EI
(79)林环城,王志新,史莉,陆斌锋。基于分层控制的模块化多电平变流器模型预测控制方法,高电压技术,2016,42(1):143-152 EI
(80)段建民,王志新,王承民,等。考虑碳减排效益的可再生电源规划,电网技术,2015,39(1):11—15 EI
(81)王志新,林环城,陆斌锋,张超.脉振高频电压注入PMSM凸极特性实验检测研究.电机与控制学报,2015,19(3):20-24 EI
(82)李爽,王志新,吴杰.采用基频零序分量注入的MMC换流器故障容错控制研究.电力系统保护与控制,2014,42(17):1—7 EI
(83)吴杰,王志新,王国强,陆贤锋,邹建龙. 电压源型直流输电变流器系统中电网侧变流器的反步法控制.控制理论与应用,2013,30(11):1408--1413EI
(84)王国强,王志新,李爽. 基于反步法的海上风场并网轻型直流输电变流器控制[J],太阳能学报,2012.23(6):1054-1059 EI
(85)李爽,王志新,王国强. VSC-HVDC海上风电输电变流器预测电流控制策略研究。太阳能学报,2012,33 (9): 1516-1523EI
(86)王国强,王志新,张华强,郑健,杨兴武,邵峥达.基于DPC的海上风场VSC -HVDC变流器控制策略.电力自动化设备,2011,31(7):115—119 EI
(87)王国强,王志新,张雪燕.海上风电场柔性直流输电变流器的无源性控制策略研究。电力自动化设备,2011,31(8):11-15 EI
(88)黄川,王志新,王国强。基于MMC的海上风电场柔性直流输电变流器仿真。电力自动化设备,2011,31(11):23—27 EI
(89)孔屹刚,王杰,顾浩,王志新,徐大林.基于风剪切和塔影效应的风力机风速动态建模.太阳能学报,2011,32(8):1237—1243 EI
(90)刘立群,王志新,顾临峰.基于改进模糊法的分布式风光互补发电系统MPPT控制[J].电力系统保护与控制,2011,15(39):70-74 EI
(91)刘立群,王志新,张华强。部分遮蔽光伏发电系统模糊免疫MPPT控制。电力自动化设备,2010,30(7):96—99 EI
(92)孔屹刚,徐大林,顾浩,王志新,陈建华.大型风力机液压变桨机构建模分析.太阳能学报.2010, 31(2):210-215 EI
(93)朴海国,王志新。基于CPSO的PID神经网络及偏航电机控制策略研究.电机与控制学报, 2010,14(9):58—62 EI
(94)孔屹刚,徐大林,顾浩,王志新,陈建华.大型风电机组脉动风场建模与数值仿真.太阳能学报.2010,(2) EI
(95)孔屹刚,徐大林,顾兆丹,王志新,陈建华.水平轴风力机变桨载荷分析与计算.江苏大学学报2010,31(6):635-639 EI
(96)孔屹刚,顾浩,王杰,王志新,徐大林.基于风剪切和塔影效应的大型风力机载荷分析与功率控制.东南大学学报,2010,40(suppl.1):228-233 EI
(97)朴海国,王志新.风电机组智能模糊偏航矢量控制系统研究.太阳能学报,2009,30(4):481—487 EI
(98)李响,王志新,刘文晋.海上风电柔性直流输电变流器的研究与开发。电力自动化设备,2009,29(2):10-14,20 EI
(99)刘立群,王志新.PV系统变电压MPPT算法及其仿真研究.华南理工大学学报,2009,37(2):140-146EI
(100)朴海国,王志新,张华强。基于合作粒子群算法的PID神经网络非线性控制系统。控制理论与应用,2009,26(12):1-5 Ei
(101)刘立群,王志新.基于二极管品质因子和暗电流研究的MPPT算法。太阳能学报,2009,30(9):194-201 EI
(102)孔屹刚,王志新.风电机组可靠性建模和动态过程分析[J].太阳能学报,2008,29(6):652-656EI
(103)朴海国,王志新.风电机组偏航控制系统的新型算法—V_HC研究.太阳能学报,2008,29(8):1028—1033 EI
(104)王泽鲲,龚春阳,包俊,朱国忠,王志新.基于高频注入的主动式智慧建筑直流系统串联型电弧故障检测方法。 太阳能学报。2023,44(4):398-406 EI
(105)夏潇,龚春阳,包俊,朱国忠,王志新.宽增益高效率LLC谐振变换器拓扑,电力系统保护与控制,2023,51(3):99-107
(106)夏潇,龚春阳,包俊,朱国忠,陈辉,王志新.基于三次谐波的宽增益直流变换器,高电压技术, https://doi.org/10.13336/j.1003-6520.hve.20220298
专著、教材
(1)王志新,李兵,王秀丽等编著.电力新技术概论.北京:中国电力出版社,2023.9
(2)王志新,罗文广编著.电机控制技术(第2版).北京:机械工业出版社,2020.11
(3)王志新,李小海,罗文广等编著.电机控制技术.北京:中国电力出版社,2020.4
(4)王志新,陈伟华,熊立新等编著.高能效电机与电机系统节能技术.北京:中国电力出版社,2017
(5)王志新,王承民,李旭光等译.绿色可再生能源与电力系统接入.北京:中国电力出版社,2013
(6)王志新编著.海上风力发电技术.北京:机械工业出版社,2012
(7)王志新,罗文广编著.电机控制技术.北京:机械工业出版社,2011
(8)王志新编著.现代风力发电技术及工程应用.北京:电子工业出版社,2010
(9)王志新编著.火电厂监控信息系统SIS及应用.北京:中国电力出版社,2009
(10)王志新,金寿松编著。制造执行系统MES及应用。北京:中国电力出版社,2006
(11)王志新,张华,葛宜远编著。现代注塑机控制技术。北京:中国轻工业出版社,2001
拥有的发明专利
(1)适用于柔性直流输电系统的直流限流器拓扑结构(A novel dc limiter topology for flexible dc transmission system),PCT/CN2019/094781
(2)采用双馈异步发电机的风电场稳定运行控制方法.专利号:ZL200710036783.9
(3)基于风向标和输出功率的风力机偏航控制方法.专利号:ZL200710037310.0
(4)大型海上风力发电场监控系统.专利号:ZL200710045170.1
(5)适应天气状况的变电压光伏系统最大功率跟踪控制方法.专利号:ZL200810033999.4
(6)带前馈补偿的双馈风力发电机鲁棒控制方法.专利号:ZL200810040140.6
(7)海上风电柔性直流输电变流器控制系统.专利号:ZL200810038541.8
(8)柔性直流输电变流器的电流控制方法及装置.专利号:ZL20081 0038542.2
(9)三电平直流升压变换器电流峰值控制的双梯形波补偿方法.专利号:ZL200810038543.7
(10)基于系统变流器的移动应急电源.专利号:ZL201010520529.8
(11)离网型风光互补路灯系统.专利号:ZL201010523563.0
(12)光伏移动应急供电系统及其方法.专利号:ZL200910310477.9
(13)海上风电场并网的轻型直流输电实验系统.专利号:ZL201010225976.0
(14)海上风电场轻型直流输电系统变流器的控制方法.专利号:ZL201010247958.2
(15)基于主从结构的微电网预同步控制方法.专利号:ZL201410854429.7
(16)基于分时电价的家庭能效管理方法.专利号:ZL201510435714.X
(17)单相两级光伏并网系统的控制方法.专利号:ZL201410727803.7
(18)基于智能家居控制系统的NAT穿透方法.专利号:ZL201510080442.6
(19)模块化多电平变流器桥臂间能量平衡控制方法.专利号:ZL201510373934.4
(20)用于多端柔直输电系统的改进协调控制方法.专利号:ZL201610053415.4
(21)计及不平衡功率最优分配的直流电压控制器及系统.专利号:ZL201510435691.2
(22)适用于VSC-MTDC系统的控制器装置.专利号:ZL201510137472.6
(23)适用于VSC-HVDC系统的建模方法及同步样机.专利号:ZL201410768664.2
(24)模块化多电平变流器模型预测控制方法.专利号:ZL201510117469.8
(25)模块化多电平变流器桥臂能量均衡控制方法.专利号:ZL201610044717.5
(26)适合中小容量分布式电源接入的电网模拟器控制方法.专利号:ZL201510434654.X
(27)基于变压器变比可调的宽输入LLC谐振变换器的调控方法.专利号:ZL201610549806.5
(28)电网模拟装置的控制方法.专利号:ZL201510705228.5
(29)功率单元损耗计算方法.专利号:ZL 201610546731.5
(30)模块化多电平变流器损耗估算方法.专利号:ZL 201510375500.8
(31)适用于智能家居控制系统的新型网络通讯方法.专利号:ZL201510435695.0
(32)模块化多电平变流器逆向模型预测控制方法.专利号:ZL201610566297.7
(33)适用于VSC-HVDC系统的平均值建模与控制方法.专利号:ZL201610578719.2
(34)基于储能电池的电梯能量回收系统及方法.专利号: ZL201810236750.7
(35)模块化多电平变流器模型预测控制的滚动优化方法和系统.专利号:ZL201710697579.5
(36)家庭能量管理系统与方法.专利号:ZL201810069900.X
(37)一种用于水泵系统的光伏市电补偿装置及控制方法.专利号:ZL201810415787.6
(38)一种基于虚拟同步发电机控制的频率电压无差调节方法.专利号:ZL2018104428666
(39)直流微电网并联储能电池荷电状态均衡控制方法及装置.专利号:ZL2019101708462
(40)主动式光伏组串电弧故障检测方法及系统.专利号:ZL202010559723.0
(41)一种便携式太阳能照明装置.专利号:ZL201110307896.4
(42)一种带温度检测的锂电池充电控制方法及其充电器.专利号: ZL201210416467.5
(43)一种基于Z源逆变器的通用实验装置.专利号:ZL201210409305.9
(44)一种用于微电网的防逆流保护控制方法.专利号:ZL201310252615.9
(45)用于智能家居的电能采集模块.专利号:2015100543587
(46)一种通用变流器产品的试验系统及方法.专利号:ZL201110319716.4
(47)卸荷系统及应用该卸荷系统的模块化多电平风电变流器.专利号:ZL201210304261.3
(48)一种检测海上风电柔性直流输电变流器特性的试验系统.专利号:ZL201210083456.X
(49)一种用于开关特性测试仪的固定装置.专利号:ZL2013100974860
(50)多电平变流器子模块及其制作的逆变电路、MMC拓扑.专利号:ZL2015100168204
(51)一种通用变流器产品的试验系统及方法.专利号:ZL201110319716.4
(52)卸荷系统及应用该卸荷系统的模块化多电平风电变流器.专利号:ZL201210304261.3
(53)仿鱼形吊舱推进器.专利号:ZL200510030439.X
编写的技术标准
(1)国家标准。高原光伏发电设备检验规范。GB/T 42006-2022。2022.10.12
(2)国家标准。高原110kV变电站交流回路系统现场检验方法。GB/T34925-2017.2017-11-01发布 2018.05.01
(3)国家标准。特殊环境条件高原电工电子产品 第2部分:选型和检验规范。GB/T 20626.2-2018
(4)国家标准。特殊环境条件高原电工电子产品 第3部分:雷电 污秽 凝露的防护要求。GB/T 20626.3-2022
(5)国家能源局行业标准。高原光伏水泵提水系统.NB/T 10198-2019
(6)团体标准。分布式光伏电站运行安全与能效评估技术规范。上海市节能工程技术协会团标(送审稿,2022.11)。
(7)团体标准。金山区屋顶分布式光伏开发工作规范。上海市金山区光伏应用协会团标,T/SHPVA0001-2022.2022.8.10
(8)团体标准.智慧建筑直流能源系统应用技术规程。上海市节能环保服务业协会团标T/SEESA016-2022.2022.11.18
主持国际学术会议
(1)会议主席
1)Asia Power and Electrical Technology Conference,November 11-13,2022,Shanghai, China
2)The 5th International Conference on Power and Renewable Energy,September 12-14,2022,Shanghai, China
3)The 3rd International Conference on Sustainable Energy Engineering, May 24-26,2019,Shanghai, China
4)Asia Conference on Energy and Environment Engineering, International Conference on Power and Smart Grid, January 19-21,2018,Shanghai, China,
5)4th International Conference on Sustainable Energy Engineering, May 23-25,2020,Beijing, China
(2)会议共同主席
6)The 7th International Conference on Power and Renewable Energy,September 23-26,2022,Shanghai, China
7)The 6th International Conference on Power and Renewable Energy,September 24-27,2021,Shanghai, China
8)The 2nd Asia Conference on Energy and Environment Engineering,June 8-10, 2019, Hiroshima, Japan
9)The 8th International Conference on Power and Renewable Energy,September 22-25,2023,Shanghai, China
10)Asia Power and Electrical Technology Conference,November17-19,2023,Shanghai, China
(1)含风电场电网的协同建模与平稳控制.国家自然科学基金重点项目
(2)大型海上风电场并网柔性直流输电变流器关键技术研究.国家自然科学基金面上项目
(3)考虑气候特征的系统运行性能通用评估方法.国家重点研发计划项目
(4)故障电流抑制的协调配合方法.国家重点研发计划项目
(5)户用光伏智能微电网关键技术研究与示范.国家863计划项目
(6)间歇式电源并网规划与随机全过程分析技术研究与开发.国家863计划项目
(7)基于直流微网技术的智慧建筑能源系统应用示范.上海市科委项目
(8)分布式光伏电站智能评估与能效提升关键技术研究及应用示范.上海市科委项目
(1)风能与光伏发电电力变换与传输关键技术及应用.中国石油和化工自动化行业科学技术进步奖一等奖,2016 排名第1
(2)智能电网用户端关键技术及应用.中国石油和化工自动化行业科学技术进步奖一等奖,2015 排名第1
(3)柔性直流输电变流器关键技术及应用.上海市技术发明奖二等奖,2014 排名第1
(4)高渗透率分布式光伏并网关键技术.2013年上海市科技进步奖二等奖,2013 排名第3
(5)大量新能源接入下的电力系统柔性及灵活性资源优化规划关键技术.中国电力奖技术进步奖二等奖,2019 排名第2
(6)MW级高性能光伏并网发电装置的研发与产业化.江苏省科技进步奖二等奖, 2011年 排名第3
(7) MW级双馈风电机组功率控制关键技术.中国发明创业奖,2011,排名第1
中国机械工业青年科技专家 |
机械工业部,1995 |
机械工业部跨世纪人才 |
机械工业部,1995 |
中国电力行业专家 |
中国电力教育协会,2022年 |
上海市水力发电工程学会 |
副理事长 |
上海市新能源协会专家委员会 |
委 员 |
ENERGIES GUEST EDITOR |
期刊客座编辑 |
REVIEWER |
期刊审稿人 |
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