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TY - JOUR T1 - Energetic macroscopic representation control method for a hybrid-source energy system including wind, hydrogen, and fuel cell AU - Yuan, Tiejiang AU - Dong, Xiaoshun AU - Chen, Xiangping AU - Cao, Wenping AU - Hu, Juan AU - Liu, Chuang
Tiejiang Yuan 1, Xiaoshun Dong 2, Xiangping Chen 3, Wenping Cao 1, 4, Juan Hu 5, Chuang Liu A wind turbine, a hydrogen energy storage system, and a proton exchange membrane fuel cell are utilized in the system to balance the load and supply.
Request PDF | On May 5, 2023, Ling Hao and others published Optimal Configuration of Energy Storage Capacity in Wind-Storage Joint Frequency Regulation | Find, read and cite
Layout Optimization of Pre-Manufactured Hydrogen Energy Storage Power Station Based on Surrogate Method About Yuan Tiejiang Search "202150000715059045" Search "Yuan Tiejiang" ( 116024) About
Chen Liang, Peng Wang, Xiaoqing Han, Wenping Qin, Yanbing Jia, Tiejiang Yuan: Battery Energy Storage Selection Based on a Novel Intermittent Wind Speed Model for Improving Power System Dynamic Reliability. IEEE Trans. Smart Grid 9 (6): 6084-6094 view
Energy Storage Science and Technology ›› 2013, Vol. 2 ›› Issue (3): 294-299. doi: 10.3969/j.issn.2095-4239.2013.03.016 • Application technology • Previous Articles Next Articles An analysis for the need of a battery energy storage system in tracking wind
This paper proposes a technique for power system planners and operators to select or commit power capacity and energy capacity of battery energy storage system (BESS)
The invention relates to a site selection method for a battery energy storage power station. The battery energy storage power station is respectively connected to different power grid nodes of a windpower system, and the wind power consumption capacity of the system under different site selection schemes is analyzed and evaluated through a wind power
As for the selection of energy storage, a supercapacitor [18][19][20], battery [21][22][23], and hydrogen energy storage [24] can all be used as inertia sources to coordinate with the DFIG.
@inproceedings{Meiting2016AnalysisOE, title={Analysis on Economic Benefit of Energy Storage in Auxiliary Service of Wind Power}, author={Ma Meiting and Yuan Tiejiang and Chen Guangyu and Cai Gaolei and Peng Shengjiang and Zhang Zengqiang}, year
5) Rui Li, Laijun Chen*, Tiejiang Yuan, Chunlai Li. Optimal dispatch of zero-carbon-emission micro Energy Internet integrated with non-supplementary fired compressed air energy storage system, Journal of Modern Power Systems and Clean Energy,2016,4(4
Tiejiang Yuan''s 10 research works with 62 citations and 1,824 reads, including: The assessment of "Electrified Changji Project" based on evolutional game theory
Hydrogen Energy System Planning Framework for Unified Energy System ZHANG Hong,YUAN Tiejiang,TAN Jie,KAI Saijiang,ZHOU Zhuan.Hydrogen Energy System Planning Framework for Unified Energy System[J].Proceedings of the CSEE,2022(1):83-94.
CAO Xinhui,CHE Yong,SI Zheng,KAI Saijiang,ZHOU Zhuan,YUAN Tiejiang tegrated Planning of Optimal Sizing and Siting of Energy Storage Plants Across Wide Area[J].Electric Power,2022,55(7):110-120. Authors: CAO Xinhui CHE Yong SI Zheng 1.
Tiejiang YUAN xjuytj@163 Chunlai LI lichunlai0216@163 1 Department of Electrical Engineering air energy storage system (AA-CAES) and non-supple-mentary fired compressed air energy
YUAN Tiejiang, CHE Yong, SUN Yili, et al. Optimized proportion of energy storage capacity in wind-storage system based on timing simulation and GA algorithm[J]. High Voltage Engineering, 2017, 43 (7): 2122-2130.
Newer version: GB/T 36558-2023. BASIC DATA. Standard ID. GB/T 36558-2018 (GB/T36558-2018) Description (Translated English) General technical requirements for electrochemical energy storage system in power system. Sector / Industry. National Standard (Recommended) Classification of Chinese Standard.
(1)Chen Liang, Peng Wang, Xiaoqing Han, Wenping Qin, Yanbing jia, Tiejiang Yuan. Battery Energy Storage Selection Based on a Novel Intermittent Wind Speed Model for Improving Power System Dynamic Reliability[J]. IEEE Transactions on Smart Grid
, Tiejiang YUAN, Chunlai LI To utilize heat and electricity in a clean and integrated manner, a zero-carbon-emission micro Energy architecture is proposed by incorporating non-supplementary fired compressed air energy storage (NSF-CAES) hub. A typical
Tiejiang Yuan (M''11) received the M.Sc. and Ph.D. degrees in power systems from Xinjiang University, Urumqi, China, in 2009 and 2012, respectively. He is a Professor
This paper comprehensively needs to investigate the cost of energy storage system (ESS), the cost of equivalent charging and discharging, the economic benefits, and other factors to consider, aiming at comprehensive benefit maximization, setting the operation mode and configuration method of wind farm ESS when adapting to
This paper proposes a technique for power system planners and operators to select or commit power capacity and energy capacity of battery energy storage
Using genetic algorithm to take Xinjiang power grid as an example for simulation verification, the results show that the large-scale application of energy storage on the side of new
Battery Energy Storage Selection Based on a Novel Intermittent Wind Speed Model for Improving Power System Dynamic IEEE Transactions on Smart Grid ( IF 8.960) Pub Date : 2018-11-01 10. Chen Liang, Peng Wang, Xiaoqing Han,
Huaguang Yan 1, Wenda Zhang 2,*, Jiandong Kang 1 and Tiejiang Yuan 2 1 China Electric Power Research Institute Co., Ltd ering the advantages of hydrogen energy storage in large-scale, cross
Corpus ID: 113390057 Wind farm battery energy storage technology based on power dispatching @article{Tiejiang2012WindFB, title={Wind farm battery energy storage technology based on power dispatching}, author={Yuan Tiejiang}, journal={Chinese Journal of
Li Guojun, Yuan Tiejiang, Sun Yima, Chen Guangyu, Shengwei Mei. Life cycle economic evaluation of wind power-hydrogen energy storage and coal chemical multi-energy coupling system [J]. Transactions of China Electrotechnical Society, 2017, 32(21): 132–142.
Optimal dispatch of zero-carbon-emission micro Energy Internet integrated with non-supplementary fired compressed air energy storage system To utilize heat and electricity in a clean and integrated manner, a zero-carbon-emission micro Energy Internet (ZCE-MEI) architecture is proposed by incorporating non-supplementary fired compressed air
Energy Storage Control Strategy to Eliminate Risk of New Energy Grid-Connected Operation. CAO Xinhui1, FU Lin1, GAO Lingyu2, KAI Saijiang3, LI Zhongzheng1, YUAN
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