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1981年生,电力系统及其自动化专业,教授,博导,国家自然科学基金“优秀青年基金”获得者。2007年获浙江大学电力系统及其自动化博士学位,以第一作者/通信作者身份在IEEE等期刊上发表SCI论文50余篇,EI论文百余篇,被引用千余次,并获得2013、2016和2018年度IEEE PES General Meeting国际会议最佳论文奖,中国科协百篇优秀科技论文奖,中国电机工程学报特别贡献奖。主持国家自然科学基金项目4项,参与国家自然科学基金重点项目1项(排名第2);作为技术负责人完成863项目“风光流混合供电集成控制系统”并在舟山摘箬山海岛电网中示范应用;担任2017年国家重点研发计划“可再生能源发电基地直流外送系统的稳定控制技术”项目(基础研究类)的课题负责人。 工作经历: 2014–至今,浙江大学,电气工程学院电机系,教授 2010–2014,浙江大学,电气工程学院电机系,副教授 2009–2010,美国中佛罗里达大学,电气与计算机系,博士后 2007–2009,浙江大学,电气工程学院电机系,博士后 寄语学生: 你从这儿获得的最有价值的东西不能只是学位和年龄,而是你分析、思考的能力,研究、发现真理的经验,以及研究者的胸怀。当你有一天改变研究方向,希望依然可以在新的方向上出类拔萃。 学生始终应当把发展独立思考和独立判断的能力放在首位,而不是取得专门的知识。如果一个人掌握了学科的基础,并且学会了独立思考和独立工作,就必定会找到自己的道路,而且比起那种其主要训练在于获得细节知识的人来,他会更好地适应进步和变化。 教学与课程 计算方法 非线性电力系统 研究与成果 名称 描述 url 浙江大学辛焕海等:静态的广义短路比能刻画系统的动态稳定性吗? 学术论文 https://mp.weixin.qq.com/s/IQLIMhJZU_cMEes21gLPCg 电力电子并网装备的同步稳定分析与统一同步控制结构 学术论文 https://mp.weixin.qq.com/s/X4GC5jdBwbwf7gWCm_rg6A 【精彩论文推荐】浙江大学辛焕海等:下垂控制逆变器在大扰动下的暂态行为——稳定性分析与控制 学术论文 https://mp.weixin.qq.com/s/3zr_-ZFLEAMbR5uBN_XMXA 多馈入电力系统稳定性分析与控制:广义阻抗法 学术报告 https://mp.weixin.qq.com/s/gAA7nyJF24J-v3j58QyvpQ 【精彩论文推荐】浙江大学黄林彬辛焕海杨欢等:从频率鲁棒性角度看系统虚拟惯量 学术论文 https://mp.weixin.qq.com/s/dg_1CyoWGT9Sju5yK1SQlA 浙江大学辛焕海等:新能源接入弱电网失稳的广义阻抗解释 学术论文 https://mp.weixin.qq.com/s/QhllhfVpzG5O9aWCnIxARg 变流器广义阻抗判据及其导出机理的适用性探讨 学术论文 https://mp.weixin.qq.com/s/Bj8GwmbtBUYTZK89h5Vi6g 浙江大学辛焕海等:新能源振荡的复电路分析 学术论文 https://mp.weixin.qq.com/s/vlw0b_kIyFMI-oboV3X1bg 电力电子化电力系统的频率惯性与惯性模拟——虚拟同步机稳定性分析及新能源中的应用 学术报告 https://mp.weixin.qq.com/s/0boeVY9moFb-8l2mRtW2WA 浙江大学辛焕海等:以小博大,电力电子装备动稳特性测试可仅在二次侧完成 学术论文 https://mp.weixin.qq.com/s/mG9d_T48o2ZFH55hJvpC6w 教学工作 电气学院本科生课程:《计算方法》 电气学院博士生课程:《非线性电力系统》 实验室介绍 招收对科研感兴趣的电力系统和应用数学方向的研究生和博士后,欢迎垂询。 电力系统稳定分析与新能源控制研究团队共有教师4名,研究生20余名,在甘德强教授的带领下,发表SCI、EI收录论文百余篇,其中在IEEE Transactions期刊上发表论文30余篇,主要研究方向为:电力电子多馈入电力系统稳定性分析与控制,主动配网/微网与新能源并网控制,交直流电网稳定机理、运行和规划。主要成果为: 1)提出高密度新能源机组自组织发电的最小通信拓扑概念、分布式控制结构及其控制策略,提出基于“N-1”通信鲁棒性指标的通信拓扑优化方法。该方面的研究为高密度新能源控制的分布式实现奠定基础,也为新能源机组间通信拓扑优化设计提供指导原则。相关成果曾获得2013年和2016年IEEE PES General Meeting国际会议最佳论文奖,并依托863课题“风光流混合供电集成控制系统”在舟山摘箬山海岛电网示范应用(专项经费2123万):所研制的控制系统成功实现风光储系统的多种协调控制策略,成功实现风光储系统的一次调频、二次调频和无缝切换等多种协调控制策略,使得海岛电网的动态性能指标达到先进水平,突破海岛电网稳定性过于依赖大功率储能(或柴油机)和高速通信的困境,形成微网全新的分布式实时控制模式。 2)初步构建了多馈入电力系统广义短路比指标体系,致力于精确度量受端系统对多设备接入的支撑能力:①提出了刻画直流多馈入系统广义短路比指标,有效克服了CIGRE组织定义的多馈入短路比无法有效衡量交流受端系统电压支撑强度的缺陷,从物理机理和数学形式上实现了单馈入系统和多馈入系统强度的统一刻画。②提出电力电子多馈入电力系统的广义短路比指标,它既是单馈入短路比的推广,也是直流多馈入短路比的扩展,实现了短路比概念在单馈入和多馈入下物理意义及数学形式上的统一、不同类型电力电子多馈入系统短路比定义的统一,也为单馈入系统与多馈入系统电网强度量化指标的统一奠定基础。广义短路比是多电力电子设备/直流/新能源基地多点并网系统稳定性分析理论的重要组成部分,其灵敏度与系统的薄弱点密切相关,可为直流/新能源发电基地的运行、落点规划、电网规划和振荡抑制控制器选址等实际电网规划和运行问题提供理论支撑和设计指导。 3)初步构建了多变流器多同步机耦合系统的动态相互作用及稳定性分析方法体系,提出了用于分析三相变流器并网系统稳定性的广义阻抗概念,以及基于广义阻抗的分析和控制方法。所提出的方法有效解决了传统阻抗分析方法中处理耦合项的难题,即无论在DQ坐标系还是在其他坐标系中,除了一些特殊的频段外,变流器和电网的阻抗矩阵无法同时相似对角化或合同对角化,导致阻抗分析方法或遇到因忽略耦合项而丧失分析准确性的问题,或因使用广义奈奎斯特判据而丧失阻抗法便捷性的问题。广义阻抗判据适应于分析轻型直流、风机、光伏等并网的小干扰稳定性问题,可直观解释变流器接入弱电网时的振荡机理,具有推广到分析电力电子多馈入电力系统稳定性的潜力,为后续解决弱电网下大规模新能源并网的动态稳定问题奠定坚实的基础。 1、教师团队名单 甘德强(1966),男,浙江大学求是特聘教授,博士生导师,主要研究方向为交直流电力系统稳定分析与控制。担任John Wiley公司出版的国际期刊European Transactions on Electrical Power主编(2007-2016)。2003年获教育部自然科学奖二等奖;2004年度入选教育部跨世纪优秀人才培养计划;2007年获国家自然科学进步二等奖。 辛焕海(1981),男,浙江大学教授,博士生导师,电机系主任,主要研究方向为交直流系统稳定分析与控制、主动配网/微网分布式控制。以第一作者/通信作者身份在IEEE和IET等期刊上发表SCI论文30余篇,他引100余次,总影响因子超过60,获得2013、2016年IEEE PES GM和2014年WeGAT国际会议的最佳论文奖。主持国家自然科学基金项目3项,作为技术骨干(排名前3)完成863主题项目“海流能发电与海岛新能源供电关键技术”示范工程项目。入选浙江省151人才工程第三层次培养人员。 汪震(1976),男,浙江大学教授,主要研究方向为交直流电系统稳定分析与控制。 2、毕业学生 博士生:胡朝阳辛焕海于洋黄伟吴迪陈琳冯冬涵兰洲谭海云庄晓丹陈建华雷金勇王康刘梅招屠竞哲阎博王冠楠宋晓喆卢泽汉章美丹边巧燕刘云洪敏章雷其刘云章枫董炜王冠中 硕士生:黄蕾施展武王希舟陈鑫李蕾江南葛清樊冬梅赵静波刘佳宇王珂吴莹赵逸岚赵睿李丽娜李潮吴晶莹兴胜利杨正清展肖娜叶丽雅乐程毅戴蕾思曹勇何小良李培凯李子恒黄锐甘青山

研究领域

高比例新能源与电力电子化电力系统稳定分析与控制 电力系统稳定性数据驱动分析与智能感知技术

近期论文

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中文期刊论文: [1]辛焕海,章枫,于洋,甘德强,徐谦.多馈入直流系统广义短路比:定义与理论分析,中国电机工程学报,2016,36(3):633-647.[PDF] [2]辛焕海,董炜,袁小明,甘德强,等.电力子多馈入系统的广义短路比,中国电机工程学报,2016,36(22):6013-6027.[PDF] [3]辛焕海,李子恒,董炜,章雷其,黄伟,邢玉辉,王康.三相变流器并网系统的广义阻抗及稳定判据,中国电机工程学报,2017,37(5):1277-1292.[PDF] [4]董炜,辛焕海,李子恒,甘德强,袁小明,黄伟,王康.变流器并网系统振荡与原-对偶复电路分析,中国电机工程学报,2017,37(22):6500-6515.[PDF] [5]董炜,潘秋萍,雷金勇,谢欢,辛焕海,吴浩.BPA与DIgSILENT动态模型的比较与数据转换,电力系统自动化,2016,40(8):140-146.[PDF] [6]黄林彬,章雷其,辛焕海,胡家兵,甘德强.下垂控制逆变器的虚拟功角稳定机理分析,电力系统自动化,2016,40(12):116-123.[PDF] [7]章雷其,黄林彬,黄伟,辛焕海,胡家兵.提高下垂控制逆变器虚拟功角暂态稳定性的控制方法,电力系统自动化,2017,41(12):56-62.[PDF] [8]蒙志全,辛焕海,董炜,等.控制系统扰动下并网变流器广义阻抗测量方法,中国电机工程学报,2018.[PDF] [9]辛焕海,甘德强,鞠平.多馈入系统广义短路比:多样化新能源场景,中国电机工程学报,2020.[PDF] [10]杨超然,宫泽旭,辛焕海,董炜等,变流器并网系统复电路分析与广义阻抗判据适用性探讨,中国电机工程学报,2020.[PDF] [11]黄林彬,辛焕海,鞠平,胡家兵,电力电子并网装备的同步稳定分析与统一同步控制结构,电力自动化设备,2020.[PDF] [12]高晖胜,辛焕海,黄林彬等.新能源电力系统的共模频率分析及其特征量化,电机工程学报,2021.[PDF] [13]袁辉,辛焕海,王冠中等.含SVG的新能源多馈入系统振荡分析和广义短路比计算,电力系统自动化,2021.[PDF] 英文期刊论文: [55]Linbin Huang,Huanhai Xin*,et al.,Damping Effect of Virtual Synchronous Machines Provided by a Dynamical Virtual Impedance,IEEE Trans.on Energy Conversion,2020.[PDF] [54]Chaoran Yang,Linbin Huang*,Huanhai Xin,et al.,Placing Grid-Forming Converters to Enhance Small Signal Stability of PLL-Integrated Power Systems,IEEE Trans.on Power Systems,accepted,2020.[pdf] [53]Linbin Huang,Huanhai Xin,et al.,H-infinity Control of Grid-connected Converters:Design,Objectives and Decentralized Stability Certificates,IEEE Trans.on Smart Grid,2020.[pdf] [52]Linbin Huang,Huanhai Xin*,Zhiyi Li,Ping Ju,Hui Yuan and Guanzhong Wang,Identification of Generalized Short-Circuit Ratio for On-Line Stability Monitoring of Wind Farms,IEEE Trans.on Power Systems.[pdf]. [51]Linbin Huang,Huanhai Xin*,et al.,Transient Stability Analysis and Control Design of Droop-Controlled Voltage Source Converters Considering Current Limitation,IEEE Trans.on Smart Grid,2019.[pdf] [50]Luyao Xu,Huanhai Xin*,et al.,Symmetric Admittance Modeling for Stability Analysis of Grid-Connected Converters,IEEE Trans.on Energy Conversion,2019. [49]Linbin Huang,Huanhai Xin*,Di Wu,Zhen Wang,Grid-Synchronization Stability Analysis and Loop Shaping for PLL-based Power Converters With Different Reactive Power Control,IEEE Trans.on Smart Grid,2020,11(1):501-516.[pdf] [48]Guanzhong Wang,Huanhai Xin*,Di Wu,Data-driven Arbitrary Polynomial Chaos-based Probabilistic Load Flow Considering Correlated Uncertainties,IEEE Trans.on Power Systems,2019,34(3):3274-3276. [47]Hui Yuan,Huanhai Xin*,Di Wu,Zhen Wang,Stability Analysis and Enhancement of PMSG based WTs in Weak grids During Severe Voltage Sags,IEEE Trans.on Energy Conversion,early access. [46]Wei Dong,Huanhai Xin,*Di Wu,Small Signal Stability Analysis of Multi-Infeed Power Electronic Systems Based on Grid Strength Assessment,IEEE Trans.on Power Systems,early access[pdf]. [45]Y.Guo,Q.Wu,H.Gao,X.Chen,J.Ostergaard,H.Xin,MPC-based Coordinated Voltage Regulation for Distribution Networks with Distributed Generation and Energy Storage System,IEEE Trans.on Sustainable Energy,early access[pdf] [44]Linbin Huang,Hunahai Xin*,Zhen Wang,Damping Low-Frequency Oscillations Through VSC-HVDC Stations Operated as Virtual Synchronous Machines,IEEE Trans.on Power Electronics,2019,34(6):5803-5818. [43]Peng Shi,Chongxi Jiang,Deqiang Gan,Huanhai Xin,et al.,New Value Set Approach for Robust Stability of Power Systems with Wind Power Penetration,IEEE Trans.Sustainable Energy,2019. [42]Yun Liu,Y.Li,Hoay Beng Gooi,Ye Jian,Huanhai Xin and Xichen Jiang.ADMM Based Distributed Robust Energy Management of Multi-Microgrid System in the Real-Time Energy Market,IEEE Trans.on Sustainable Energy,accepted. [41]Feng Zhang,Huanhai Xin*,Di Wu,Zhen Wang,Deqiang Gan,Assessing Strength of Multi-infeed LCC-HVDC Systems using Generalized Short Circuit Ratio,IEEE Trans.on Power Systems,2019,34(1):467-480.[pdf] [40]Peikai Li,Yun Liu,Huanhai Xin*,et al.,A Robust Distributed Economic Dispatch Strategy of Virtual Power Plant under Cyber-Attacks,IEEE Trans.on Industrial Infomatics,2018,14(10):4343-4352.[pdf]. [39]Yun Liu,Hoay Beng Gooi,Huanhai Xin,A Distributed Transactive Energy Management Framework for Multi-Microgrid System Considering Cyber Security,IEEE Trans.on Smart Grid,early access. [38]Linbin Huang,Huanhai Xin*,Huan Yang,Zhen Wang,Huan Xie,Interconnecting Weak AC Systems by Multi-terminal VSC-HVDC Links with A Unified Virtual Synchronous Control,IEEE Journal of Emerging and Selected Topics in Power Electronics,accepted. [37]Linbin Huang,Huanhai Xin*,Leiqi Zhang,Zhen Wang,Jiabing Hu,'An Enhanced P-F Droop Control for Improving Synchronous Stability of Voltage Source Converters With Current Saturation,'IEEE Trans.on Smart Grid,acceptted. [37]Linbin Huang,Huanhai Xin,Zhen Wang,Kuayu Wu,'Synchronization and Frequency Regulation of DFIG-based Wind Turbine Generators with Synchronized Control',IEEE Trans.on Energy Conversion,accepted.[pdf] [35]Linbin Huang,Huanhai Xin*,et al.,A Virtual Synchronous Control for Voltage Source Converters Utilizing Dynamics of DC-Link Capacitor to Realize Self-Synchronization,IEEE Journal of Emerging and Selected Topics in Power Electronics,2017,5(4):1565-1577.[pdf] [34]Guoyue Zhang,Chaoyong Li,Donglian Qi,Huanhai Xin*,'Distributed Estimation and Control of Autonomous Microgrid',IEEE Trans.on Power Systems,2017,32(2):989-998.[pdf] [33]Yun Liu,Zhihua Qu,Huanhai Xin*,Deqiang Gan,'Distributed Real-Time Optimal Power Flow Control in the Smart Grid,'IEEE Trans.on Power Systems,2017,32(5):3403-3414.[pdf] [32]Jinghao Zhou,Peng Shi,Deqiang Gan,Ying Xu,Huanhai Xin,Huan Xie,'Large-Scale Power System Robust Stability Analysis Based on Value Set Approach',IEEE Trans.on Power Systems,2017,32(5):4012-4023.[pdf] [31]J.Li,H.Xin,W.Wei,et al.,'Decentralized Conic Optimization of Reactive Power Considering Uncertainty of Renewable Energy Sources,'IET Renewable Power Generation,2016,10(9):1348-1355.[pdf] [30]Y.Liu,H.Xin*,D.Gan,Z.Qu,'An Attack-Resilient Cooperative Control Strategy of Multiple Distributed Generators in Distribution Networks,'IEEE Trans.on Smart Grid,accepted,2016,7(6):2923-2932.[pdf] [29]J.Li,H.Xin,W.Wei,W.Dai'Communication-Efficient Distributed Strategy for Reactive Power Optimization Considering the Uncertainty of Renewable Generation,'IET Generation,Transmission and Distribution,vol.10,no.15,pp.3681-3690,2016.[pdf] [28]H.Xin,L.Huang,L.Zhang,Z.Wang*,J.Hu,'Synchronous Instability Mechanism of P-f Droop-Controlled Voltage Source Converter Caused by Current Saturation,'IEEE Trans.on Power Systems,2016,31(6):5206-5207.[pdf] [27]Hong M,Xin H,Liu W,et al.,Critical Short Circuit Ratio Analysis on DFIG Wind Farm with Vector Power Control and Synchronized Control,Journal of Electrical Engineering&Technology,2016,11(2):320-328.[pdf] [26]Z.Wang,Q.Bian,H.Xin*,D.Gan,K.Wong,'Distributionally Robust Coordinated Reserve Scheduling with CVaR-based Wind Power Reserve Requirements,'IEEE Trans.on Sustainable Energy,vol.7,no.2,pp.625-636,2016.[pdf] [25]H.Xin,R.Zhao,L.Zhang,Z.Wang*,K.Wong,W.Wei.'A Decentralized Hierarchical Control Structure and Self-optimizing Control Strategy for F-P Type DGs in Island Microgrids,'IEEE Trans.on Smart Grid,vol.7,no.1,pp.3-5,2016.[pdf] [24]Y.Liu,H.Xin*,Z.Wang,D.Gan,'Control of Virtual Power Plant in Microgrids:A Coordinated Approach based on PVs and Controllable Loads,'IET Generation,Transmission&Distribution,vol.9,no.10,pp.921-928,2015.[pdf] [23]Q.Bian,H.Xin*,Z.Wang,D.Gan,'Distributionally Robust Solution to the Reserve Scheduling Problem with Partial Information of Wind Power',IEEE Trans.on Power Systems,vol.30,no.5,pp.2822-2823,2015.[pdf] [22]H.Xin,L.Zhang,Z.Wang*,D.Gan,'Control of Island AC Microgrids Using a Fully Distributed Approach',IEEE Trans.on Smart Grid,vol.6,no.2,pp.943-945,2015.[pdf] [21]H.Xin*,Y.Liu,Z.Qu,'Distributed Control and Generation Estimation Method for Integrating High-Density Photovoltaic,'IEEE Trans.on Energy Conversion,vol.29,no.4,pp.988-996,2014.[pdf] [20]Z.Lu,Z.Wang*,H.Xin,K.Wong,'SSSA of a Synchronized Control-based Micro-grid Under Multiple Operating Conditions',Journal of Clean Energy,vol.2,no.3,pp.244-255,2014.[pdf] [19]H.Xin*,Z.Lu,Y.Liu,Z.Wang,D.Gan,'A Center-free Control Strategy for the Coordination of Multiple Photovoltaic Generators,'IEEE Trans.on Smart Grid,1262-1269,2014.[pdf] [18]Y.Liu,H.Xin*,T.Yang,'Power control strategy for photovoltaic system based on the Newton quadratic interpolation,'IET Renewable Power Generation,vol.8,no.6,pp.611-620,2014.[pdf] [17]H.Xin*,D.Gan,N.Li,C.Dai,'A Virtual Power Plant Based Distributed Control Strategy for Multiple Distributed Generators,'IET Control Theory&Applications,vol.7,no.1,pp.90-98,2013.[pdf] 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