个人资料:
姓名: 朱介北
职称: 教授/博士生导师
学科专业:电气工程
通讯地址:天津大学电气自动化与信息工程学院26教学楼E区
电子信箱:Jiebei.zhu@tju.edu.cn
主要经历:
(1) 2018.02 - 至今 天津大学 电气自动化与信息工程学院 - 教授
(2) 2017.01 - 2018.02 英国国家电力调度中心 - 调度分析工程师
(3) 2015.11 - 2017.01 英国国家电网公司总部 电网规划策略部 - 高级电力系统工程师
(4) 2013.03 - 2015.11 英国国家电网公司总部 数据与建模部 - 电力系统工程师
(5) 2009.10 - 2012.12 英国University of Strathclyde大学 - 博士
(6) 2008.09 - 2009.10 英国University of Strathclyde大学 - 硕士
(7) 2004.09 - 2008.07 南开大学 - 学士
主要研究方向:
(1) 柔性直流输电技术 VSC-HVDC Tranmission Technology
(2) 风电、光伏新能源发电技术 Renewable Power Generation
(3) 电力电子化电力系统 Power Electronics Dominated Grids
(4) 分布式信息能源系统 Distributed Cyber Energy System
在研项目:在研国家级纵向项目5项,横向项目10余项。
(1) 国家自然科学基金“联合基金项目”:面向新能源集群同步稳定提升的新型构网控制与调控优化关键技术,2024.01-2027.12,项目负责人
(2) 国家自然科学基金面上项目:基于直流系统强度的新型协同式虚拟同步机研发,2019-2022,项目负责人
(3) 国家高层次人才青年项目,2018.02-2024.01,项目负责人
(4) 国家重点研发计划“变革性技术关键科学问题:分布式信息能源系统的智能进化机理和设计”,2019.06-2024.06,课题四负责人
(5) 天津市自然科学基金绿色通道项目“未来电力电子占主导的电网中新一代逆变器的虚拟同步机控制策略的研发“,2019.01-2021.12,项目负责人
(6) 南方电网公司联合项目“光伏集群柔直送出系统构网型控制技术研究”,2022.11-2025.11,课题负责人
(7) 中国华能集团科技项目“基于源荷储互动的智慧楼宇综合能源配置及调控技术研究与应用”,2023.01-2023.12,课题负责人
(8) 国网河北公司科技项目“基于PMU类噪声分析的全网惯量与阻尼态势感知技术”,2021.10~2023.01,项目负责人
(9) 广西电网电力调度控制中心科技项目“新能源高渗透型电网调频性能多维度评估与调控策略研究”,2022.12-2024.12,项目负责人
(10) 国家电网总部科技项目“高渗透率分布式光伏接入电网动态特性及稳定运行控制技术研究”,2021.01-2023.01,课题负责人
(11) 国家电网总部科技项目“新能源高占比电网惯量评估与预警技术研究及应用”,2021.01-2023.01,课题负责人
(12) 国家电网科技项目“以祁韶为例的特高压直流安全高效运行发展策略研究”,2020.01-2020.12,项目负责人
(13) 国家电网总部科技项目“大规模新能源接入对电网低频振荡影响机理研究”,2020.01-2021.12,课题负责人
(14) 国家电网总部科技项目“提升电网安全稳定性的新能源场站快速控制技术研究及实证”,2019.01-2020.12,课题负责人
(15) 国家电网总部科技项目“交直流电网安全稳定控制系统本质安全技术提升研究”,2019.01-2020.12,课题负责人
(16) 国家电网总部科技项目“基于异构硬件平台的含直流和高比例新能源电磁暂态及混合仿真并行技术提升研究”,2019.01-2020.12,课题负责人
代表性学术著作:发表SCI/EI期刊论文100余篇,获ESI高被引论文2篇,总引用2000余次(依据Google Scholar数据显示)。
中文论文:
[1] 朱介北, 朱学科, 陈彬彬, 俞露杰, 聂川杰, 黄伟煌, 郭铸. 基于延时补偿的新能源惯性时间常数确定方法[J]. 电力系统自动化, 2024.
[2] 李明睿, 朱介北*, 俞露杰, 贾宏杰. 实现新能源最大利用的多数据中心自适应负荷调度算法[J]. 中国电机工程学报, 2024.
[3] 俞露杰,付子玉,朱介北*,李瑞,彭国平,赵成勇. 远海风电DRU-HVDC 送出系统构网控制与启动方法综述[J]. 电力系统自动化, 2024.
[4] 朱介北,王云逸,仲悟之,俞露杰,邓兆顺,赵博文,李斌.基于超级电容的新能源惯量-阻尼-电抗综合模拟控制方案[J].电力系统保护与控制,2023.
[5] 朱介北,刘晓龙,聂川杰,俞露杰,李峰,朱学科,丁炅,贾宏杰.基于自适应滤波器的双馈风机次同步振荡抑制控制方案[J].中国电机工程学报,2023.
[6] 朱介北,刘东昊,李炳森,俞露杰,田娜,贾宏杰.基于CPU工作状态进行温度估算的数据中心服务器功耗模型[J].电力系统自动化,2023.
[7] 丁炅,朱介北,陈彬彬,李云丰,王伟,俞露杰,贾宏杰.基于能量场景变化构建谐振域的风机控制器参数优化方案[J].电力系统自动化,2023.
[8] 朱介北,徐思旸,李炳森,王成山.基于电网专家策略模仿学习的新型电力系统实时调度[J].电网技术,2022.
[9] 朱介北,杨顺坡,俞露杰,贾宏杰.数据中心制冷系统即时消纳可再生能源的建模和变温控制[J].电力系统自动化,2022.
[10] 朱介北,李峰,俞露杰,李霞林,王成山.基于固态变压器的互联交直流微电网功率互济自主控制[J].电网技术,2022.
[11] 朱介北,李峰,俞露杰*,梁纪峰,刘娜,王成山.基于周期搜索的多端柔性直流输电系统非线性下垂控制[J].电力系统自动化,2022.
[12] 邱威,贺静波,樊小伟,许涛,于钊,张剑云,朱介北,刘娜等.应对特高压直流大扰动的稳定措施综述[J].电网技术,2022.
[13] 朱介北,史美琦,张利,葛磊蛟,俞露杰*,邓兆顺,王成山.基于超级电容的海上风电柔直送出系统协调惯量支撑策略[J].电网技术,2022.
[14] 李霞林,王智,郭力,朱琳,张晨,朱介北,富晓鹏,张野,王成山.基于最大估计吸引域的VSC接入弱网下的锁相环同步暂态稳定性分析[J].中国电机工程学报,2022.
[15] 朱介北,王晓南,俞露杰*,刘娜,葛延峰,李霞林,王成山.互联异步电网VSC-HVDC的惯量与阻尼模拟控制策略[J].中国电机工程学报,2022.
[16] 申志鹏,朱介北*,李斌,贾宏杰,王成山.基于柔性直流输电系统的双边惯量和阻尼模拟控制方案[J].高电压技术,2021.
[17] 朱介北,邱威,孙宁,朱学科*,霍超,荀思超.基于序贯蒙特卡洛法的安全稳定控制系统架构可靠性分析[J].电力系统自动化,2021.
[18] 邓兆顺,朱介北*,俞露杰,邱威,曲春辉,贾宏杰,王成山.实现转子转速保护的双馈异步发电机有功输出速降新方案[J].电力系统保护与控制,2021.
[19] 李浩,钟声远,王永真,赵军,李敏霞,朱介北.基于能量与信息耦合的分布式能源系统配置优化方法[J].中国电机工程学报,2020.
[20] 朱介北,周小尧,曾平良,张小平,王成山.英国交直流输电网规划方法及对中国电网规划的启示[J].全球能源互联网,2020.
[21] 李霞林,李志旺,郭力,黄迪,李鹏飞,朱介北,王成山.交直流微电网集群柔性控制及稳定性分析[J].中国电机工程学报,2019.
英文论文:
[1] J.B. Zhu, J. Ding, S.Q. Bu, C.J. Nie, L.J. Yu*, C.Y. Chung, C.D. Booth, H.J Jia, "Resonance Area-Based PMSG Controller Optimization Under Energy Scenario Variations", IEEE Transactions on Power Systems, 2023.
[2] J.B. Zhu, Z.P. Shen, L.J. Yu*, S.Q. Bu, X.L. Li, C.Y. Chung, C.D. Booth, H.J Jia, C.S. Wang, "Bilateral Inertia and Damping Emulation Control Scheme of VSC-HVDC Transmission Systems for Asynchronous Grid Interconnections", IEEE Transactions on Power Systems, 2023.
[3] F. Li, J.B. Zhu*, L.J. Yu*, S.Q. Bu, H.R. Zhao, Y. Xu, J.M. Guerrero, C.S. Wang, "An Imbalance-Status-Enabled Autonomous Global Power-Sharing Scheme for Solid-State Transformer Interconnected Hybrid AC / DC Microgrids ", IEEE Transactions on Smart Grid, 2023.
[4] J.B. Zhu, Z.P. Shen*, L.J. Yu*, S.Q. Bu, X.L. Li, C.Y. Chung, C.D. Booth, H.J. Jia, C.S. Wang, "Bilateral Inertia and Damping Emulation Control Scheme of VSC-HVDC Transmission Systems for Asynchronous Grid Interconnections", IEEE Transactions on Power Systems, 2023.
[5] X.L. Li, Z. Wang, Y.X. Liu, Z.G. Wang, L. Zhu, L. Guo, J.B. Zhu, C.S. Wang, " The Largest Estimated Domain of Attraction and its Applications for Transient Stability Analysis of PLL Synchronization in Weak-Grid-Connected VSCs", IEEE Transactions on Power Systems, 2023.
[6] Q. Xiao, H. Wang, Y. Jin, H.J. Jia, Y.F. Mu, J.B. Zhu, Submodule Capacitance Monitoring Approach for the MMC with Asymptotically Converged Error, IEEE Transactions on Industrial Electronics, 2023.
[7] J.B. Zhu, X.N. Wang, J.B. Zhao, L.J. Yu*, S.X. Li*, Y.W. Li, J.M. Guerrero, C.S. Wang, "Inertia Emulation and Fast Frequency-droop Control Strategy of a Point-to-point VSC-HVDC Transmission System for Asynchronous Grid Interconnection", IEEE Transactions on Power Electronics, 2022.
[8] Z.P. Shen, J.B. Zhu*, L.J. Ge*, S.Q. Bu, J.B. Zhao, C.Y. Chung, X.L. Li, C.S. Wang, "Variable-Inertia Emulation Control Scheme for VSC-HVDC Transmission Systems", IEEE Transactions on Power Systems, 2022.
[9] L.J. Yu, L. Xu, J.B. Zhu*, R. Li, "Impedance modelling and stability analysis of diode-rectifier based HVDC connected offshore wind farms", IEEE Transactions on Power Delivery, 2021.
[10] J.B. Zhu, W. Hung, C.S. Wang, C.D. Booth, "Synthetic Inertia Control Strategy for Doubly-Fed Induction Generator Wind Turbine Generators Using Lithium-ion Supercapacitors," IEEE Transactions on Energy Conversion, vol. 33, No. 2, June 2018.
[11] J.B. Zhu, CD Booth, GP Adam, AJ Roscoe, CG Bright, "Inertia emulation control strategy for VSC-HVDC transmission systems", IEEE Transactions on Power Systems, vol. 28, no. (2), 1277-1287, 2013.
[12] J.Q. Luo, S.Q. Bu, J.B. Zhu, C. Y. Chung, "Modal Shift Evaluation and Optimization for Resonance Mechanism Investigation and Mitigation of Power Systems Integrated with FCWG", IEEE Transactions on Power Systems, 2021.
[13] Y. Hu, S.Q. Bu, S.J. Yi, J.B. Zhu, J.Q. Luo, Y.L. Wei, "A Novel Energy Flow Analysis and its Connection with Modal Analysis for Investigating Electromechanical Oscillations in Multi-Machine Power Systems", IEEE Transactions on Power Systems, 2021.
[14] P.F. Li, L. Guo, X.L. Li, H.D. Wang, L. Zhu, F. Gao, J.B. Zhu, C.S. Wang, "Reduced-order Modeling and Comparative Dynamic Analysis of DC Voltage Control in DC Microgrids Under Different Droop Methods", IEEE Transactions on Energy Conversion, 2021.
[15] J.B. Zhu, S.X. Li, L.J. Yu, S.Q. Bu, Y.J. Li, Z.S. Deng, Y.Z. Wang, H.J. Jia, C.S. Wang, D. Liu, "Coherence Analysis of System Characteristics and Control Parameters for Hybrid HVDC Transmission Systems Based on Small-signal Modeling", IEEE Journal of Emerging and Selected Topics in Power Electronics, 2021.
[16] J.B. Zhu, Z.P. Shen, S.Q. Bu, X.L. Li, C.D. Booth, W. Qiu, H.J. Jia, C.S. Wang, "Coordinated Flexible Damping Mechanism with Inertia Emulation Capability for MMC-MTDC Transmission Systems", IEEE Journal of Emerging and Selected Topics in Power Electronics, 2021.
[17] X.L. Li, L. Guo, D. Huang, P. Li, L. Zhu, J.B. Zhu, Y.Z. Wang, C.S. Wang, "A Reduced RLC Impedance Model for Dynamic Stability Analysis of PI Controller Based DC Voltage Control of Generic Source-Load Two-terminal DC Systems", IEEE Journal of Emerging and Selected Topics in Power Electronics, 2021.
[18] J.Q. Luo, S.Q. Bu, J.B. Zhu, "A Novel PMU-based Adaptive Coordination Strategy to Mitigate Modal Resonance between Full Converter-based Wind Generation and Grids", IEEE Journal of Emerging and Selected Topics in Power Electronics, 2021.
[19] S.Y. Zhong, X.Y. Wang, J. Zhao, W.J. Li, H. Li, Y.Z. Wang, S. Deng, J.B. Zhu, "Deep reinforcement learning framework for dynamic pricing demand response of regenerative electric heating", Applied Energy, 2021.
[20] S.W. Xia, S.Q. Bu, X. Zhang, Y. Xu, B. Zhou, J.B. Zhu, "Model reduction strategy of doubly-fed induction generator-based wind farms for power system small-signal rotor angle stability analysis", Applied Energy, vol. 222, pp. 608-620, 2018.
[21] L.J. Yu, S.H. Miao, J.B. Zhu*, Self-Synchronization Control of Offshore Wind Turbines Connected with DRU-HVDC, CSEE Journal of Power and Energy Systems, 2023.
[22] Y.B. Che, J.J. Jia, J.B. Zhu*, J.H. Zhou, "Automatic-coordinated Transitioning Control Scheme for PV-MVDC System under Grid Unbalanced Conditions", International Journal of Electrical Power & Energy Systems, vol. 119, pp. 105896, July 2020.
[23] J.B. Zhu, S.Q. Bu, X.L. Li, V. Terzija, E. Muljadi, "Security and Optimization Rule-based Coordinated Generator Simultaneous Tap Changing Dispatch Scheme for Transmission Voltage Regulation," International Journal of Electrical Power and Energy Systems, vol. 114, Jan. 2019.
[24] R.Q. Li, J.B. Zhu*, Q.T. Hong, C.D. Booth, A. Dysko, A. Roscoe, H. Urdal, "Impact of low (zero) carbon power systems on power system protection: a new evaluation approach based on a flexible modelling and hardware testing platform", IET Renewable Power Generation, vol. 14, no. 5, 2020.
[25] J.B. Zhu, J. Guerrero, W. Hung, C.D. Booth, G.P. Adam, "A Generic Inertia Emulation Controller for Multi-terminal VSC-HVDC Transmission Systems", IET Renewable Power Generation, vol. 8, no. 7, pp. 740-748, 2014.
[26] J.B. Zhu, Z.S. Deng, L.J. Yu, S.X. Li, C.H. Qu, W. Qiu, G.P. Adam, C.D. Booth, "A DC chopper-based fast active power output reduction scheme for DFIG wind turbine generators", IET Renewable Power Generation, 2021.
[27] J.B. Zhu, C. D. Booth, G. P. Adam, A. J. Roscoe, " Coordinated direct current matching control strategy for multi-terminal DC transmission systems with integrated wind farms", Electric Power Systems Research, vol. 124, pp 55-64, July 2015.
[28] S. Zhong, J. Zhao, W. Li, H. Li, S. Deng, Y. Li, S. Hussain, X. Wang, J.B. Zhu, "Quantitative analysis of information interaction in building energy systems based on mutual information", Energy, vol. 214, pp. 118867, 2021.
[29] X.Y. Wang, H. Li, Y.Z. Wang, J. Zhao, J.B. Zhu, S.Y. Zhong, Y. Li, "Energy, exergy, and economic analysis of a data center energy system driven by the CO2 ground source heat pump: Prosumer perspective", Energy Conversion and Management, 2021.
[30] H. Li, S. Zhong, Y. Wang, J. Zhao, M. Li, F. Wang, J.B. Zhu, "New understanding on information’s role in the matching of supply and demand of distributed energy system", Energy, vol. 206, pp. 118036, 2020.
[31] H. Li, J. Zhao, M. Li, S.Y. Zhong, F. Wang, F. He, J.B. Zhu, "Determining the economic design radiation for a solar heating system through uncertainty analysis", Solar Energy, vol. 195, pp. 54-63, 2020.
[32] Y. Li, L. Ma, W.J. Xu, Q. Zhu, W.J. Li, J. Zhao, J.B. Zhu, "Multi-external-chamber coaxial borehole heat exchanger: Dynamic heat transfer and energy consumption analysis", Energy Conversion and Management, 207, 112519, 2020.
[33] S.Q. Bu, X. Zhang, J.B. Zhu, X. Liu, "Comparison Analysis on Damping Mechanisms of Power Systems with Induction Generator Based Wind Power Generation," International Journal of Electrical Power & Energy Systems, vol. 97, pp. 250-261, April 2018.
[34] Y.J. Li, S. Liu, J.B. Zhu, X. Yuan, Z. Xu, K. Jia, "Novel MTDC droop scheme with decoupled power control for enhancing frequency stabilities of weak AC systems", IET Renewable Power Generation, vol. 14, no. 11, pp. 2007-2016, 2020.
[35] L.J. Ge, Y.L. Li, S.X. Li*, J.B. Zhu, J. Yan. "The evaluation on the situation awareness effects for smart distribution networks under the novel design of indicator framework and hybrid weighting method", Frontiers in Energy, early access, 2020.
[36] X.L. Li, P.F. Li, L. Guo, J.B. Zhu, "Flexible Control of DC Interlinked Multiple Microgrids Cluster", IET Generation Transmission & Distribution, vol. 13, no. 11, pp. 2088-2101, 2018.
[37] M. Yu, A.J. Roscoe, A. Dyśko, C.D. Booth, R.Ierna, J.B. Zhu, H. Urdal, "Instantaneous Penetration Level Limits of Non-synchronous Devices in the British Powe r System," IET Renewable Power Generation, vol. 11, no. 8, pp. 1211-1217, Sep 2017.
[38] H. Urdal, R. Ierna, J.B. Zhu, C. Ivanov, A. Dahresobh, D. Rostom, "System strength considerations in a converter dominated power system," IET Renewable Power Generation, vol. 9, no. 1, pp. 10-17, 2015.
发明专利:
[1] 一种基于模型预测的多端口自主光伏系统构网型控制方法, ZL202311092293.6
[2] 一种并网逆变器瞬态稳定区域改善控制方法及系统, ZL202310900322.0
[3] 基于固态变压器的交直流混合电网及其协调控制方法, ZL202011523266.6
[4] 基于柔性直流输电系统的自适应虚拟惯量控制系统及方法, ZL202110566220.0
[5] 一种基于柔性直流输电互联两区域电网的控制系统及方法, 202011061121.9
[6] 一种实现数据中心即时消纳光伏发电的变温控制方法, 202110388093.X
[7] 一种双馈风机有功功率输出速降控制系统及方法, 202010947807.1
[8] 基于柔性直流输电系统的自适应虚拟惯量控制系统及方法, CN202110566220.0
[9] 美国专利 Photovoltaic Power Generation Virtual Inertia Compensation System and Method Based on Super Capacitor Energy Storage, 17/183,174
[10] 美国专利 Fast Active Power Output Reduction System of Doubly-fed Induction Generator and Method Thereof, 17/308,929
[11] 一种基于多端混合直流输电系统的自适应电压下垂控制系统及方法,CN112510751A
[12] 一种基于固态变压器的交直流混合电网及其自主功率协调控制方法,CN112653203A
[13] 一种以二氧化碳为工质的机柜冷却系统及方法,CN111609580A
[14] 一种基于深度强化学习的电网安全运行策略智能优化方法, CN202111330875.4
[15] 柔性直流输电系统的双边惯量阻尼模拟控制系统及方法, CN202110957092.2
[16] 附加阻尼控制器的双馈风机次同步振荡抑制方法, CN202110042444.1
[17] 一种多微网平衡单元系统架构及控制协调方法, CN202011213718.0
资质与荣誉:
(1) 日内瓦国际发明金奖3项(特许金奖1项)、银奖1项
(2) 天津市政府科学技术进步二等奖(个人排名第1)
(3) 中国安全生产协会安全科技进步一等奖(个人排名第2)
(4) 中国电工技术学会科学技术二等奖(个人排名第1)
(5) 中国能源研究会能源创新二等奖(个人排名第1)
(6) 中国可再生能源学会科学技术奖二等奖(个人排名第1)
(7) 国家海外高层次青年人才入选者
(8) IET Fellow 英国工程技术学会会士
(9) 天津市“领军人才”
(10) IEEE PES China “Distinguished Young Engineer” 杰出青年工程师
(11) 天津市创新人才推进计划“优秀青年科技人才”
(12) 中国电机工程学会高级会员
(13) 中国电工技术学会高级会员
(14) IEEE Senior Member
(15) 天津大学“教工示范岗”
(16) 天津大学优秀毕设指导教师
(17) Chartered Engineer of UK Engineering Council, 英国工程理事会“特许工程师”
(18) 中国政府海外自费留学生奖学金
社会服务:
(1) 期刊 IEEE Transactions on Power Systems - 编委Associate Editor
(2) 期刊 IEEE Power Engineering Letters - 编委Associate Editor
(3) 期刊《全球能源互联网》编委
(4) 期刊《电力系统保护与控制》青年编委
(5) 天津市电机工程学会 – 常务理事,及“新型能源系统及装备专委会” – 副主任委员
(6) 中国电力科学研究院期刊中心 - “会议活动组”组长
(7) 中国电源学会“电力电子化电力系统及装备专委会” - 委员
(8) 中国电机工程学会电力系统专委会“电力系统分析与控制学术工作组” - 委员
(9) 中国电工技术学会能源智慧化专业委员会 - 党组成员、委员
(10) 中国能源研究会新型电力系统专业委员会 - 委员
(11) IEEE PES China “DC Transmission and Distribution System Simulation” Technical Council - 副秘书长
(12) IEC国际电工委员会TC 8/SC 8A 可再生能源接入电网技术分委会 - 技术专家
(13) SCI期刊 IET Renewable Power Generation - 编委Associate Editor
(14) SCI期刊 IET Energy Systems Integration - 编委Associate Editor
(15) IET国际特许工程师 - 中国区面试官