Representative Thesis: [1] kunjie liang, *hongtao Wang, David Pozo, et al. Power System RESTOTION With Large Renewable Penetration: State-OF-The-Art and FUTURE TRENDS [J] .International of Electrical Power AN D 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 Auxiliefing Synchronous. 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 loadRestaching for interDepPendent transmission-distribution-consider gas Storage CapaCity [J] .intemt Ional 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 Communication Failure Prevention [J]. Delivery, 2023, 38 (4): 2348-2359. [5] Aamir Nawaz, *hongtao Wang. RISK-AWARE Distributed Optimal Power Flow in Coordinald Transmission and Distribution System. Journal of Modern Power System and Clean Energy. 20 21, 9 (3): 502-515 [6] Aamir Nawaz, *hongtao Wang. Distributed Stochastic Security Constrained Unit Commission for COORDINATED Operation of Transmission and Distribution System [J]. CSEE JORNAL O. f 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 RESTOTION 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 LoadRESTON in AC/DC Hybrid System [J]. On Smart Grid. 2021, 12 (2): 1685-1698. [9] zhao, Jin; *Wang, hongtao, qiuwei wu, et. Al. Distributed Risk-Limiting LoastRestaching 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 paradlel Restodd Subsystems in Wind Power Penetrald Transmission System [J]. 2020, 35 (4): 3213-3223 [11] zhao, Jin; liu, yao; *Wang, hongtao, ET. Al. ReceDing Horizon LoadRation for Coupled Transmission and Distribution System Considering Load-Source UNCERTAINTY 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 Commission COORDINATED SOLUTION [J]. Interneta l 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 LoadRestaching Considering Wind Power Penetration [J], IEEE Trans on Sustainable Energy. 2019, 10 (2): 706-717. [15]*Wang Hongtao,蔺 Chengqian,Yang Dong,et al.. Multi -DC feedback into the system power regulation and crew force resumed and coordinated optimization [J]. Power automation equipment,2019 (9): 136-143 [16] 蔺 Chengqian,*Wang Hongtao,Zhao Jin,Yang Dong,Chen Bin. Course based on the theoretical of the DC system system wind power and load coordination and recovery optimization. Power grid technology,2019,43 (2): 410-416 [17] Xu Di,*Wang Hongtao.. Based on random trends and risk value containing large -scale wind power system high -risk chain fault assessment. Power grid technology,2019,43 (2): 410-416 [18] Zhang Xu,*Wang Hongtao. High -proportion of the transmission and distribution associate optimization scheduling method of the renewable energy power system [J],2018,Electricity system automation,2019,43 (3): 67-75 [19] Zhao Jin,*Wang Hongtao,Cao Xi. Double -layer optimization of the risk value of the risk of wind power conditions [J]. China Electrical Engineering Journal,2017,37 (18): 5275-5285 [20] Cao Xi, *Wang Hongtao. Large -scale power grid Yuanhe coordinated and restored decision -making and control methods. [J]. China Electrical Engineering Journal,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. Internetal Journal of Electr IC Power & Energy Systems. VOL 90, September 2017,Pages 147-157. [22] Wang Hao,*Wang Hongtao,Wang Chunyi. Wind power field short -term contribution model affecting the influence of ice and snow weather. Power system protection and control .2016,44 (8): 107-114 [23] He Chengming, *Wang Hongtao,Wang Chunyi. Consider system risk assessment of timing characteristics under the action of wind power power climbing events. Power automation equipment. 2016,36 (1): 35-41 [24] Chen Bin,*Wang Hongtao,Cao Xi. Measure and load blurred mesh reconstruction later load recovery optimization. Electric power system automation .2016,36 (24): 1-7 [25] He Chengming, *Wang Hongtao.,Journal of China Electrical Engineering,2015,35 (2): 302-309 [26] Cao Xi,*Wang Hongtao,Liu Yutian. The layered collaborative optimization method of the recovery of the grid of the transmission grid [J]. China Electrical Engineering Journal,2015, 35 (19): 4906-4917. [27] Chen Bin,*Wang Hongtao. The power frequency overvoltage dynamic optimization control in the recovery of the power system [J]. The automation system automation .2015,39 (14): 54-59 [28] Li Chao,*Wang Hongtao. Weak synchronous power grid coordinated control strategy containing large wind farms. Power automation equipment. 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]*Wang Hongtao,Liu Xu,Chen Zhixu,Fang Guanghua,Fu Lei. Based on the random production simulation of improving the common generation function method under the background of low carbon background,Grid Technology,2013,37 (3): 597-603 [31] He Chengming, *Wang Hongtao,Sun Huadong,Chen Dezhi. Analysis of the frequency adjustment characteristic analysis of the transmission fan and the wind field sequential collaborative frequency adjustment control strategy design,Electricity system automation,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]*Wang Hongtao,Liu Xuefang. Two -layer multi -stage voltage coordination control method of the regional power grid containing the wind farm group, Power system protection and control, 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 Conferenta, SHANGHAI, March 2012. [35] xu liu, *Wang, hongtao. Power System Probabilistic Cost Production Simulation with Wind Power Penetration UNIVERALTING FUNCTION METHODS. ASIA-POCIC PO PO PO PO PO PO PO PO PO PO PO WER 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]*Wang Hongtao,He Chengming. Grade optimization model of the scheduling plan of the wind power prediction error zone,Electricity system automation,2011,35 (22): 131-135. [43]*Wang, hongtao, zhang yating, zhou qinyong. Wind Farm Model with DFIG FOR SIGNAL Stability Study. 2011 4th International Conference on Electric Utility Dereguale Structulaing and Power TechNologies, p 303-307, 2011. [44]*Wang, hongtao; he chengming; zhou,qinyong.the Power System Dispatch Rolling Optimization Model Based on the Coordination of Day-AHEAD and Within-Power Predict 201. 1 -2011 4th Internal Conference on Electric Utility Deregueering and Restructulaing and Power TechNologies, p 698-702, 2011. [45]*Wang, hongtao,Yutian Liu. Research on the Black Start Field of SHANDONG POWER GRID BASED on PDCA Cycle. INTERNATIONAL Conference on Electrical and Control Ineering, 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]*Wang Hongtao,Yuan Sen,Qiu Xizhao,Fang Guanghua,Wang Chunyi,Liu Yutian.,Electricity system automation equipment .2010,30 (2): 145-149 [48]*Wang Hongtao,Liu Yutian. The optimal reconstruction of multi-target transmission grid based on NSGA-II.,2009,33 (23): 14-18 [49]*Wang Hongtao, Liu Yutian, Qiu Xizhao. Based on the Multi -Agent Electricity System Master Cross -order Decision. Electricity Automation,2006,30 (15): 5-9 [50]*Wang Hongtao, Liu Yutian. The main slam -level decision -making model and its optimization algorithm of the recovery of the power system.,27 (1): 8-13 [51]*Wang, hongtao; liu Yutian. Power System RESTATION 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 design support system for power system restoration. 2004 IEEE Power Engineering Meeting, danver, USA, 2004,VOL 1: 1115-1119 [53]*Wang Hongtao, Liu Yutian, Qiu Xizhao. Black startup decision support system based on layered case reasoning. Power system and automation,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]*Wang Hongtao, Liu Yutian, etc. The impact of the empty load line gates on the motivation circuit of the generator. China Electricity,2002,35 (7): 31-34 [56]*Wang Hongtao, Liu Yutian, etc. The impact of the power grid connection on the low -frequency oscillating mode of Shandong Grid. China Electricity,2004,37 (6): 12-15 [57] bin Chen; *Wang, hongtao; zhongkang wei,Chunyi Wang. Sustaind Overvoltage Control Considering Power System RESTATION DYNAMIC PROCESS.2014 2nd International Conference On Energy 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., China, Oct. 2015. [59] wang, hao; *Wang, hongtao, Yingzhe Jia. A Method for Estimating Wind Power Ramps During Ice Storm. IEEEEEENON 10 Conference (IEEEEE TENCON 2015), macau, China, Nov. 2015. [60] teng, wei, *Wang, hongtao, Yingzhe Jia. Construction and Control Strategy Research of Black Start Unit Conference 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 D EREGULATION 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 Coordined Power System RESTATION MODEL CONSIDERING The Support of Multiple Flexible Resources., 2022, Early Access. [65] zhang, x., *Wang, hongtao, shan, Y., And zhai, s. Hierarchical Modeling of Cyber-Power Power System for State Evolution Analysis, Proceedings -2022 7th Asia Conference on Power and Electrical Engineering, Acpee 2022, Pages 1153-1157.
Works: 1) Liu Yutian, Wang Hongtao, Ye Hua. The theoretical and technical of the power system recovery theory. Science Press,2014.3 2) Yao Liangzhong,Xu Jian,Zhao Dawei,Zhou Ming,Wang Hongtao,Lin Zhenzhi. The high -proportion of renewable energy power system optimizes operation. Science Press, 2021.11 3) Hongtao Wang. Chapter "Power System Security, Reliability, RESTREION and Resiliation "in Book" Encyclopedia of Electrical and Electronic Power Engineering ", Elsevier, Nov. 15, 2022.
Award: (1) Ultra -high -voltage grid recovery strategy and plan preferred. The first prize of science and technology progress in Shandong Province in 2010. (2) Intermittent multi -source combined power generation system simulation analysis and scheduling control key technology and engineering application. (3) Study on the security and stability of the connection between Shandong Power Grid and neighboring network. (4) Shandong Power Grid Black Starting Plan. 2004 Shandong Province Science and Technology Progress Third Prize. (5) Research and countermeasures of large -scale wind power acceptance capabilities based on safety and stability and wind power performance. Shandong Power Science and Technology First Prize.
Patent 1) Invention patent: Black Starting Auxiliary Decision Support System/Training System and Method。Patent number: ZL 200810014125.4。 Inventor: Wang Hongtao, Liu Yutian 2) Invention patent: DC support to determine the maximum load in the recovery process of the weak end system。Patent Number: ZL 201010588379.4。 Inventor: Wang Hongtao, Liu Yutian 3) Invention patent: The design method of the additional frequency controller of the dual feeder transmission unit。Patent number: ZL 201210045545.5。 Inventor: Wang Hongtao, Liu Yutian 4) Invention patent: Wind power field voltage control method coordinated by multi -non -merit source。Patent number: ZL201210045967.2。 Inventor: Wang Hongtao, Liu Yutian 5) Invention patent: The parameter of the wind farm side damping controller based on a wide -area measurement signal measuring signal。Patent number: ZL201210046145.6 Inventor: Wang Hongtao, Liu Yutian 6) Invention patent: Multi -time and short navigation recovery auxiliary decision support system。Patent number: ZL 201310198881.8。 Inventor: Wang Hongtao, Liu Yutian, Cao Xi 7) Invention patent: a wind power field grid -connected capacity determination method of voltage constraint。Patent Number: ZL 201510493790.6 Inventor: Wang Chunyi, Wang Hongtao, Cao Zenggong, Gong Hao 8) Application of invention patents: layered collaborative control and dynamic decision -making method of large -scale power grid recovery。Patent number: 201510980702.5 Inventor: Wang Hongtao, Cao Xi, Liu Yutian 9) Invention patent: a security and efficiency evaluation method and system for a wind power access to the grid。Patent number: 201510734481.3 Inventor: Wang Hongtao, Gong Hao, Wang Chunyi, Li Guanglei 10) Invention patent: High -proportion renewable energy power system transmission and distribution target level joint analysis method。Patent number: 201810465163.5 Inventor: Wang Hongtao,Zhang Xu,Tang Liang,Sun Chenjun,Wang Zhuoran 11) Invention patent: The optimization method and system。Patent number: 201811070039.5 Inventor: Wang Hongtao,蔺 Chengqian,Liu Yutian,Yang Dong,Ma Huan,Wang Chunyi 12) Invention patent: HVDC supports the stability analysis method of DC control system under the recovery method of the end system。Patent number: 201811070111.4 Inventor: Wang Hongtao,Zhao Jin,Ye Hua,Liu Yutian,Yang Dong,Ma Huan,Zhao Kang. 13) Invention patent: Multi -level coordination and restoration control technology of high -voltage DC stations。Patent Number: 201811117536.6 Inventor: Wang Hongtao,Hu Haizhou,Li Changgang,Yang Dong,Ma Huan,Zhao Kang. 14) Invention patent: The adaptive assessment method and system of the DC power grid to the DC system recovery。Patent number: 201811101801.1 Inventor: Wang Hongtao; Yang Shandong; Liu Yutian; Yang Dong; Ma Huan; Zhao Kang. 15) Invention patent: High -proportion wind power grin risk assessment method and system。Patent number: 201810955790.7 Inventor: Wang Hongtao; Xu Di; Tang Liang; Sun Chenjun; Wang Zhuoran. 16) Invention patent: Comprehensive control method of multiple feedback in the DC system power recovery phase to ensure voltage safety。Patent number: 2019110059517 Inventor: Wang Hongtao; Yang Shandong; Liu Yutian; Yang Dong; Ma Huan; Zhao Kang. 17) Invention patent: a kind of transmission and distribution collaborative load restoration optimization control method and system. Patent number: 2020108486723, Inventor: Wang Hongtao, Zhao Jin 18) Invention patent: Comprehensive control method and system for multiple feedback in the DC system power recovery phase to ensure voltage safety,Patent number: 2019110059517, Inventor: Wang Hongtao,Yang Shandong,Liu Yutian, Yang Dong, Ma Huan, Zhao Kang. 19) Invention patent: High -proportion renewable energy power system transmission and distribution target level joint analysis method,Patent Number: 2018104651635, Inventor: Wang Hongtao,Zhang Xu,Tang Liang,Sun Chenjun,Wang Zhuoran. 20) Invention patent: Multi -DC feedback based on integer linear planning into the power network recovery partition method and system,Patent number: 2020108016249, Inventor: Wang Hongtao,Liang Kunjie,Li Changgang, Yang Dong, Ma Huan, Zhao Kang. 21) International Invention Patent (South Korea): Comprehensive control methods and systems for the power recovery phase of the DC system power recovery stage,Patent number: 10-2551927number Inventor: Wang Hongtao,Yang Shandong,Liu Yutian, Yang Dong, Ma Huan, Zhao Kang. 22)Invention patent: an orderly black start method and system for a new energy power generation unit,Application number or patent number: 202211164015.2 Inventor: Wang Hongtao,Liu Yutian, Fan Xuemei, Li Yong |
