Research on Capacity Allocation of Wind-Solar-hydrogen Storage Microgrid based on HOMER

Huanjun Yang

doi:10.54691/gfeh2935

Authors

Huanjun Yang

DOI:

https://doi.org/10.54691/gfeh2935

Keywords:

Microgrid; Hydrogen Fuel Cell; HOMER; Multienergy Complementation.

Abstract

Due to the significant volatility of wind and photovoltaic power generation, they also exhibit significant disturbances during grid connection, resulting in a decrease in the utilization rate of renewable energy. As a new type of renewable energy, hydrogen energy has the advantages of clean and efficient, easy storage, and convenient transportation, which can be used as a secondary carrier to improve the utilization rate of renewable energy. Based on the HOMERPRO software, a grid connected microgrid system for wind, solar, and hydrogen storage has been built. Selecting a certain region in Northeast China, with the lowest net present value total cost as the objective function, this study investigates hydrogen production systems at different time periods, compares and analyzes various microgrid capacity configurations, and concludes that the economy and availability of wind and solar hydrogen storage systems are the strongest.

Downloads

Download data is not yet available.

References

[1] Yu Kaixuan. Research on the Optimal Configuration of Isolated Wind/Solar/Hydrogen/Storage Micro - Grid Based on MOBASDE Algorithm[D]. Taiyuan University of Technology, 2022.

[2] Lian Chao, Jiang Yijun, Chen Meng, et al. Research on the Power Supply Configuration of Micro - Grid Based on HOMER Simulation[C]//Zhejiang Electric Power Society, Shanghai Society of Electrical Engineering, Jiangsu Society of Electrical Engineering, Zhejiang Society of Electric Machinery and Power. Excellent Papers of Zhejiang Electric Power Society in 2013. China Electric Power Press, 2013: 6.

[3] Tian Cong. Research on the Optimization of Hybrid Energy Storage System Based on Wind and Solar Energy[D]. Jilin University, 2022.

[4] Chen Weirong, Fu Wangxuan, Han Ying, et al. Optimal Configuration of Wind - Solar - Hydrogen Multi - Energy Complementary Micro - Grid Considering the Demand Side[J]. Journal of Southwest Jiaotong University, 2021, 56(03): 640 - 649.

[5] Wang Kanhong, Zhao Zhengtong, Luo Jinghui. Two - Stage Optimal Matching Analysis of Wind - Solar - Hydrogen - Storage System[J]. Science Technology and Engineering, 2020, 20(26): 10790 - 10794.

[6] Luo Yun, Guo Yongxi, Yang Bo. Capacity Optimization Simulation of Wind - Solar - Biogas - Storage Micro - Grid Based on HOMER[J]. Hongshui River, 2018, 37(03): 37 - 41 + 45.

[7] Kong Lingguo. Research on the Optimal Configuration and Coordinated Control Strategy of Wind - Solar - Hydrogen Integrated Energy System[D]. North China Electric Power University (Beijing), 2017.

[8] Zuo Chong, Jia Yan, Mengkeqilao, et al. Research on the Optimal Capacity Configuration of Wind - Solar - Storage Complementary Power Generation System Based on HOMER Simulation[J]. Inner Mongolia Electric Power, 2023, 41(01): 21 - 25.