代表性论文: [1]Kunjie Liang, *Hongtao Wang, David Pozo, et al. Power system restoration with large renewable Penetration: State-of-the-Art and future trends[J].International Journal of Electrical Power and Energy Systems,2024,155 [2]Yong Li, *Hongtao Wang, Huiting Yang. A coordinated control strategy for hybrid black start with an LCC HVDC system and an auxiliary synchronous generator. CSEE Journal of Power and Energy Systems, 2024 (Eearly Access), https://ieeexplore.ieee.org/ document/10058859. [3]Kunjie Liang, *Hongtao Wang, Zhenzhi Lin , et al. Distributed load restoration for interdependent transmission-distribution-gas systems considering pipeline gas storage capacity[J].International Journal of Electrical Power and Energy Systems,2023,153 [4]Yong Li, *Hongtao Wang, Huiting Yang. A Predictive Control Method for LCC HVDC Participated Black Start with Commutation Failure Prevention[J]. IEEE Transactions on Power Delivery, 2023, 38(4):2348-2359. [5]Aamir Nawaz, *Hongtao Wang. Risk-aware Distributed Optimal Power Flow in Coordinated Transmission and Distribution System. Journal of Modern Power System and Clean Energy. 2021, 9(3):502-515 [6]Aamir Nawaz, *Hongtao Wang. Distributed Stochastic Security Constrained Unit Commitment for Coordinated Operation of Transmission and Distribution System[J]. CSEE Journal of Power & Energy Systems. 2021, 7(4): 708-718 [7]Jin Zhao; *Hongtao Wang, Qiuwei Wu, et. al. Optimal Generator Start-up Sequence for Bulk System Restoration with Active Distribution Network. 2021, 36(3):2046-2057 [8]Zhao, Jin; *Wang, Hongtao, Qiuwei Wu, et. al. Spatio-Temporal Decomposition and Coordination for Distributed Load Restoration in AC/DC Hybrid System[J]. IEEE trans. on Smart Grid. 2021, 12(2):1685-1698. [9]Zhao, Jin; *Wang, Hongtao, Qiuwei Wu, et. al. Distributed Risk-Limiting Load Restoration for Wind Power Penetrated Bulk System[J]. IEEE trans. on Power Systems. 2020, 35(5):3516-3528 [10]Zhao, Jin; *Wang, Hongtao, Hou, Yunhe, et. al. Robust Distributed Coordination of Parallel Restored Subsystems in Wind Power Penetrated Transmission System[J]. IEEE trans. on Power Systems. 2020, 35(4):3213-3223 [11]Zhao, Jin; Liu, Yao; *Wang, Hongtao, et. al. Receding horizon load restoration for coupled transmission and distribution system considering load-source uncertainty[J]. International Journal of Electric Power & Energy Systems.vol 116, May 2020 [12]Nawaz, Aamir; *Wang, Hongtao, Wu, Qiuwei, et al. TSO and DSO with Large-Scale Distributed Energy Resources: A Security Constrained Unit Commitment Coordinated Solution[J]. International Transactions on Electrical Energy Systems, 2020, 30(3) [13]Zhao, Jin; *Wang, Hongtao, Liu Yutian, et al.Coordinated Restoration of Transmission and Distribution System Using Decentralized Scheme[J]. IEEE Transactions on Power Systems.2019, 34(5):3428-3442. [14]Zhao, Jin; *Wang, Hongtao, Liu, Yutian, et. al. Utility-Oriented On-Line Load Restoration Considering Wind Power Penetration[J], IEEE trans on Sustainable Energy. 2019, 10(2):706-717. [15]*王洪涛,蔺呈倩,杨冬,等. 多直流馈入系统功率调控与机组出力恢复协调优化[J]. 电力自动化设备,2019(9):136-143 [16]蔺呈倩,*王洪涛,赵瑾,杨冬,陈彬.基于可信性理论的含直流落点系统风电与负荷协调恢复优化.电网技术,2019,43(2):410-416 [17]徐迪,*王洪涛. 基于随机潮流和风险价值的含大规模风电系统高风险连锁故障评估.电网技术,2019,43(2):410-416 [18]张旭,*王洪涛.高比例可再生能源电力系统的输配协同优化调度方法[J],2018,电力系统自动化,2019,43(3):67-75 [19]赵瑾,*王洪涛,曹曦.计及风电条件风险价值的负荷恢复双层优化[J]. 中国电机工程学报,2017,37(18):5275-5285 [20]曹曦, *王洪涛.大规模电网源荷协调恢复决策与控制方法.[J]. 中国电机工程学报,2017,37(6):1666-1675 [21]Cao, Xi; *Wang, Hongtao; Liu, Yutian, et al. Coordinating self-healing control of bulk power transmission system based on a hierarchical top-down strategy. International Journal of Electric Power & Energy Systems. vol 90, September 2017,pages 147-157. [22]王浩,*王洪涛,王春义. 计及冰雪天气影响的风电场短期出力模型. 电力系统保护与控制.2016,44(8):107-114 [23]何成明, *王洪涛,王春义. 风电功率爬坡事件作用下考虑时序特性的系统风险评估. 电力自动化设备. 2016,36(1):35-41 [24]陈彬,*王洪涛,曹曦. 计及负荷模糊不确定性的网架重构后期负荷恢复优化. 电力系统自动化.2016,36(24):1-7 [25]何成明, *王洪涛. 风电场与AGC机组分布式协同实时控制,中国电机工程学报,2015,35(2):302-309 [26]曹曦,*王洪涛,刘玉田. 输电网架恢复的分层协同优化方法[J].中国电机工程学报,2015, 35 (19): 4906-4917. [27]陈彬,*王洪涛. 电力系统恢复过程中的工频过电压动态优化控制[J]. 电力系统自动化.2015,39(14):54-59 [28]李超,*王洪涛. 含大型风电场的弱同步电网协调控制策略. 电力自动化设备. 2015, 35(4):96-103 [29]*Wang, Hongtao; Liu, Xu; Wang, Chunyi. Probabilistic production simulation of a power system with wind power penetration based on improved UGF techniques, Journal of Modern Power Systems and Clean Energy,2013,1(2):183-191 [30]*王洪涛,刘旭,陈之栩,房光华,傅磊.低碳背景下基于改进通用生成函数法的随机生产模拟,电网技术,2013,37(3):597-603 [31]何成明, *王洪涛,孙华东,陈得治.变速风机调频特性分析及风电场时序协同调频控制策略设计,电力系统自动化,2013,37(9) [32]Li Xueting, *Wang Hongtao. Operation Risk Assessment of Wind Farm Integrated System Influenced by Weather Conditions, IEEE General Meeting 2013. [33]*王洪涛,刘雪芳.含风电场群的区域电网两层多阶段电压协调控制方法, 电力系统保护与控制, 2012, 40(22):1-7. [34]He, Chengming; *Wang, Hongtao; Sun, Huadong. Variable Parameters Primary Frequency Control Strategy of DFIG. Asia-Pacific Power and Energy Engineering Conference, Shanghai, March 2012. [35]Xu Liu, *Wang, Hongtao. Power System Probabilistic Cost Production Simulation With Wind Power Penetration Using Universal Generating Function Methods. Asia-Pacific Power and Energy Engineering Conference, Shanghai, March 2012. [36]Liu, Xuefang; *Wang, Hongtao. Area Automatic Voltage Control of Large-scale Wind Farms. Asia-Pacific Power and Energy Engineering Conference, Shanghai, March 2012. [37]Liu, Xu; *Wang, Hongtao. Multi-Area Scale Electric Power and Energy Balance with High Wind Power Penetration Based Stackelberg Decision Theory. IEEE PES ISGT ASIA, 2012 [38]Li, Xueting; *Wang, Hongtao. Stochastic Time Series Reconstruction of Future Wind Farm Output . IEEE PES ISGT ASIA, 2012. [39]He, Chengming; *Wang, Hongtao. Research on Primary Frequency Control Strategy Based on DFIG. IEEE PES ISGT ASIA, 2012. [40]Liu, Xuefang; *Wang, Hongtao. Area Automatic Voltage Control Based on Wind Power Forecasting. IEEE PES Innovative Smart Grid Technologies, 2012 [41]Liu, Xu; *Wang, Hongtao. Power System Probabilistic Cost Production Simulation with Wind Power Penetration Based on Multi-State System Theory. IEEE General Meeting 2012 [42]*王洪涛,何成明. 计及风电预测误差带的调度计划的渐进优化模型,电力系统自动化,2011,35(22):131-135. [43]*Wang, Hongtao, Zhang Yating, Zhou Qinyong. Wind Farm Model with DFIG for Small Signal Stability Study. 2011 4th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, p 303-307, 2011. [44]*Wang, Hongtao; He Chengming; Zhou,Qinyong.The power system dispatching rolling optimization model based on the coordination of day-ahead and within-day wind-power prediction. DRPT 2011 - 2011 4th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, p 698-702, 2011. [45]*Wang, Hongtao,Yutian Liu. Research on the Black Start Field Test of Shandong Power Grid Based on PDCA Cycle. International Conference on Electrical and Control Engineering, ICECE 2010. [46]*Wang, Hongtao, Yutian Liu. Pareto Optimization of Power System Reconstruction Using NSGA-II algorithm. Asia-Pacific Power and Energy Engineering Conference. [47]*王洪涛,袁森,邱夕兆,房光华,王春义,刘玉田.遵循PDCA循环的山东电网黑启动试验研究,电力系统自动化设备.2010,30(2):145-149 [48]*王洪涛,刘玉田. 基于NSGA-II的多目标输电网架最优重构.电力系统自动化,2009,33(23):14-18 [49]*王洪涛, 刘玉田, 邱夕兆. 基于多agent的电力系统主从递阶恢复决策. 电力系统自动化,2006,30(15):5-9 [50]*王洪涛, 刘玉田. 电力系统恢复的主从递阶决策模型及其优化算法. 中国电机工程学报.2007,27(1):8-13 [51]*Wang, Hongtao; Liu Yutian. Power system restoration collaborative grid based on grid computing environment. 2005 IEEE Power Engineering Society General Meeting, San Francisco, USA, 2005, Vol 2:2985-2990 [52]*Wang, Hongtao, Liu Yutian. Hierarchical Case-Based Decision Support system for Power System Restoration. 2004 IEEE Power Engineering General Meeting, Danver, USA, 2004,Vol 1:1115-1119 [53]*王洪涛, 刘玉田, 邱夕兆. 基于分层案例推理的黑启动决策支持系统. 电力系统及其自动化,2004,28(11):49-52 [54]*Wang, Hongtao, Liu Yutian. Generator Field Overvoltages Due to Energizing Lines. 2002 International Conference on Power System Technology, Kunming, China, 2002. [55]*王洪涛, 刘玉田等. 空载线路合闸对发电机励磁回路的影响. 中国电力,2002,35(7):31-34 [56]*王洪涛, 刘玉田等. 电网互联对山东电网低频振荡模式的影响.中国电力,2004,37(6):12-15 [57]Bin Chen; *Wang, Hongtao; Zhongkang Wei,Chunyi Wang. Sustained Overvoltage Control Considering Power System Restoration Dynamic Process.2014 2nd International Conference on Energy Research and Power Engineering, ERPE 2014, Dalian, Liaoning, May 2014. [58] Hao Wang, *Wang, Hongtao, Hao Gong. A REGION-BASED METHOD FOR HIGH-RISK WIND POWER RAMP EVENTS DETECTION . The 4th IET Renewable Power Generation Conference. Beijing, China, Oct. 2015. [59]Wang, Hao; *Wang, Hongtao, Yingzhe Jia. A Method for Estimating Wind Power Ramps During Ice Storm. IEEE Region 10 Conference(IEEE TENCON 2015), Macau, China, Nov. 2015. [60]Teng, Wei, *Wang, Hongtao, Yingzhe Jia. Construction and Control Strategy Research of Black Start Unit Containing Wind Farm. IEEE Region 10 Conference, Macau, China, Nov. 2015. [61]Tong, Xinyuan; *Wang, Hongtao. Spinning Reserve Model in Response to Wind Power Ramp Events at Sub-Hourly Time-scale[C]. The 5th international conference on Electric Utility Deregulation and Restructuring and Power Technologies , Changsha China,Nov. 2015. [62]Wang Hao; *Wang, Hongtao. Load Recovery Optimization with Wind Farms Based on Uncertain Bi-level Programming, 2021 6th Asia Conference on Power and Electrical Engineering (ACPEE), 2021, pp. 320-324. [63]Zhai Shibo; *Wang, Hongtao, Shan Yuechen; Zhang Xiang, Optimal Generator Start-up Sequence with Active Distribution Networks Considering Recovery Path, 2021 IEEE 4th International Conference on Electronics Technology (ICET), 2021, pp. 472-478. [64] Liu, S., Chen, C., Jiang, Y., Lin, Z., *Wang, Hongtao. Bi-Level Coordinated Power System Restoration Model Considering the Support of Multiple Flexible Resources. IEEE Transactions on Power Systems, 2022, early access. [65] Zhang, X., *Wang, Hongtao, Shan, Y., and Zhai, S. Hierarchical Modeling of Cyber-physical Power System for State Evolution Analysis, Proceedings - 2022 7th Asia Conference on Power and Electrical Engineering, ACPEE 2022, Pages 1153-1157.
著作: 1)刘玉田, 王洪涛, 叶华. 电力系统恢复理论与技术.科学出版社,2014.3 2)姚良忠,徐箭,赵大伟,周明,王洪涛,林振智. 高比例可再生能源电力系统优化运行. 科学出版社, 2021.11 3)Hongtao Wang. Chapter “Power system security, reliability, restoration and resiliency” in Book “Encyclopedia of Electrical and Electronic Power Engineering”, Elsevier, Nov. 15, 2022.
获奖: (1)超高压电网恢复策略与方案优选.2010年度山东省科技进步一等奖. (2)间歇式多源联合发电系统仿真分析与调度控制关键技术及工程应用.2014年国家电网公司科技进步二等奖. (3)山东电网与邻网互联的安全稳定性研究. 2004 年度山东省科技进步二等奖. (4)山东电网黑启动方案. 2004年度山东省科技进步三等奖. (5) 基于安全稳定与风电效能的大规模风电接纳能力研究与对策. 山东电力科学技术一等奖.
专利 1)发明专利:黑启动辅助决策支持系统/训练系统及其方法。专利号:ZL 200810014125.4。 发明人:王洪涛,刘玉田 2)发明专利:直流支援弱受端系统恢复过程中最大负荷的确定方法。专利号:ZL 201010588379.4。 发明人:王洪涛,刘玉田 3)发明专利:双馈变速风电机组的附加频率控制器设计方法。专利号:ZL 201210045545.5。 发明人:王洪涛,刘玉田 4)发明专利:多无功源分层协调的风电场电压控制方法。专利号:ZL201210045967.2。 发明人:王洪涛,刘玉田 5)发明专利:基于广域测量信号的风电场侧阻尼控制器的参数整定方法。专利号:ZL201210046145.6 发明人:王洪涛,刘玉田 6)发明专利:多时空导航式恢复辅助决策支持系统。专利号:ZL 201310198881.8。 发明人:王洪涛,刘玉田,曹曦 7)发明专利:一种考虑电压约束的风电场并网容量确定方法。专利号:ZL 201510493790.6 发明人:王春义,王洪涛,曹增功,公昊 8)申请发明专利:大规模输电网架恢复的分层协同控制与动态决策方法。专利号:201510980702.5 发明人:王洪涛,曹曦,刘玉田 9)发明专利:一种风电接入电网的安全与效能评估方法及系统。专利号:201510734481.3 发明人:王洪涛, 公昊,王春义,李广磊 10)发明专利:高比例可再生能源电力系统输配协调调度目标级联分析法。专利号:201810465163.5 发明人:王洪涛,张旭,唐亮,孙辰军,王卓然 11)发明专利:计及多馈入直流参与的机组恢复顺序优化方法及系统。专利号:201811070039.5 发明人:王洪涛,蔺呈倩,刘玉田,杨冬,马欢,王春义 12)发明专利:HVDC支援受端系统恢复方式下直流控制系统稳定性分析方法。专利号:201811070111.4 发明人:王洪涛,赵瑾,叶华,刘玉田,杨冬,马欢,赵康. 13)发明专利:高压直流换流站多层级协调恢复控制技术。专利号:201811117536.6 发明人:王洪涛,胡海周,李常刚,杨冬,马欢,赵康. 14)发明专利:交直流电网对直流系统恢复的适应性评估方法及系统。专利号:201811101801.1 发明人:王洪涛;杨善栋;刘玉田;杨冬;马欢;赵康. 15)发明专利:高比例风电并网的连锁故障风险评估方法及系统。专利号:201810955790.7 发明人:王洪涛;徐迪;唐亮;孙辰军;王卓然. 16)发明专利:多馈入直流系统功率恢复阶段保证电压安全性的综合控制方法。专利号:2019110059517 发明人:王洪涛;杨善栋;刘玉田;杨冬;马欢;赵康. 17)发明专利:一种输配协同负荷恢复优化控制方法及系统. 专利号:2020108486723, 发明人:王洪涛,赵瑾 18) 发明专利:多馈入直流系统功率恢复阶段保证电压安全性的综合控制方法及系统,专利号:2019110059517, 发明人:王洪涛,杨善栋,刘玉田,杨冬,马欢,赵康. 19) 发明专利:高比例可再生能源电力系统输配协调调度目标级联分析法,专利号:2018104651635, 发明人:王洪涛,张旭,唐亮,孙辰军,王卓然. 20) 发明专利:基于整数线性规划的多直流馈入电网恢复分区方法及系统,专利号:2020108016249, 发明人:王洪涛,梁坤杰,李常刚,杨冬,马欢,赵康. 21)国际发明专利(韩国):多馈入直流系统功率恢复阶段保证电压安全性的综合控制方法及系统,专利号:10-2551927号 发明人:王洪涛,杨善栋,刘玉田,杨冬,马欢,赵康. 22)发明专利:一种新能源发电单元的有序黑启动方法及系统,申请号或专利号:202211164015.2 发明人:王洪涛,刘玉田,范学美,李勇 |
