2025年6月10日 周二
Home > Archive>Volume 37, Issue 1, 2022 >130-139. DOI:10.19781/j.issn.1673-9140.2022.01.016
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Research on optimal operation of electricity-hydrogen integrated station in electricity market environment
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    Abstract:

    The electricity-to-hydrogen technology provides a new idea for solving the problem of abandoning wind and light. Aiming at the issue of large-scale environmental protection of hydrogen energy, this paper proposes an idea for constructing an electricity-hydrogen integrated station. Based on the function settings of peak shaving and valley filling, renewable energy consumption and hydrogen supply, the power purchase strategies of the integrated station in the main energy and new energy markets are analyzed. Then, taking the minimum total operating cost of the integrated station as the objective function and considering the power balance and constraints of the power-hydrogen system in the integrated station, an optimal operation model of the power-hydrogen integrated station considering the market environment is established. The model can be solved by linear planning. Finally, numerical example results verify that the integrated station proposed in this paper can effectively improve the peak shaving and valley filling capacity of the power grid and the absorbing capacity of renewable energy.

    Reference
    [1] 高久国,赵艳龙,朱司丞,等.考虑光伏并网的电力系统无功优化[J].电测与仪表,2020,57(14):69-73.GAO Jiuguo,ZHAO Yanlong,ZHU Sicheng,et al.Optimal reactive power dispatch considering photovoltaic integration[J].Electrical Measurement & Instrumentation,2020,57(14):69-73.
    [2] 何玉鹏,王杰,董颖华,等.配电网中的分布式光伏系统发电性能仿真[J].中国电力,2021,54(2):127-132.HE Yupeng,WANG Jie,DONG Yinghua,et al.Simulation of operational performance of pv systems in distribution network[J].Electric Power,2021,54(2):127-132.
    [3] 梁伟豪,周潮,涂智豪,等.分布式光伏接入对配电网可靠性影响的快速评估方法[J].供用电,2020,37(2):60-66.LIANG Weihao,ZHOU Chao,TU Zhihao,et al.Fast evaluation method of the impact of distributed photovoltaic access on the reliability of distribution network[J].Distribution & Utilization,2020,37(2):60-66.
    [4] 国家能源局.2019年重点专项监管报告[EB/OL].(2020-07-27).http://zfxxgk.nea.gov.cn/2020-07/27/c_139254469.htm.
    [5] 周兵兵,林宏宇,杨莘博,等.可再生能源多能互补系统多主体效益均衡模型[J].智慧电力,2020,48(1):74-79.ZHOU Bingbing,LIN Hongyu,YANG Shenbo,et al.multi-agent benefit equilibrium model for renewable energy in multi-energy complementary system[J].Smart Power,2020,48(1):74-79.
    [6] 刘德旭,刘艳,潘永旗,等.基于可再生能源发电优先消纳的电力电量平衡模型研究[J].电网与清洁能源,2020,36(1):64-71.LIU Dexu,LIU Yan,PAN Yongqi,et al.Research on power balance model based on priority consumption of renewable energy power generation[J].Power System and Clean Energy,2020,36(1):64-71.
    [7] 白斌,韩明亮,林江,等.含风电和光伏的可再生能源场景削减方法[J].电力系统保护与控制,2021,49(15):141-149.BAI Bin,HAN Mingliang,LIN Jiang,et al.Scenario reduction method of renewable energy including wind power and photovoltaic[J].Power System Protection and Control,2021,49(15):141-149.
    [8] 李虹,刘瑞叶,高挺.考虑风电消纳的电动汽车有序充电策略研究[J].电力科学与技术学报,2017,32(1):16-22.LI Hong,LIU Ruiye,GAO Ting.Research on coordinated charging strategy of electric vehicles considering wind power accommodation[J].Journal of Electric Power Science and Technology,2017,32(1):16-22.
    [9] 李宏仲,房宇娇,肖宝辉.考虑广义储能的区域综合能源系统优化运行研究[J].电网技术,2019,43(9):3130-3138.LI Hongzhong,FANG Yujiao,XIAO Baohui.Research on optimized operation of regional integrated energy system considering generalized energy storage[J].Power System Technology,2019,43(9):3130-3138.
    [10] 王振浩,杨璐,田春光,等.考虑风电消纳的风电—电储能—蓄热式电锅炉联合系统能量优化[J].中国电机工程学报,2017,37(S1):137-143.WANG Zhenhao,YANG Lu,TIAN Chunguang,et al.Energy optimization for combined system of wind-electric energy storage-regenerative electric boiler considering wind consumption[J].Proceedings of the CSEE,2017,37(S1):137-143.
    [11] 张儒峰,姜涛,李国庆,等.考虑电转气消纳风电的电—气综合能源系统双层优化调度[J].中国电机工程学报,2018,38(19):5668-5678+5924.ZHANG Rufeng,JIANG Tao,LI Guoqing,et al.Bi-level optimization dispatch of integrated electricity-natural gas systems considering P2G for wind power accommodation[J].Proceedings of the CSEE,2018,38(19):5668-5678+5924.
    [12] 许志恒,张勇军,陈泽兴.考虑P2G备用服务的电—气联合网络风电消纳及低碳效益分析[J].电力科学与技术学报,2020,35(3):36-45.LIANG Ji,ZUO Yi,ZHANG Yuzhuo,et al.The benefit on wind power accommodation and low carbon effects of integrated electricity and gas network considering reserve service of P2G facilities[J].Journal of Eiectric Power Science and Technology,2020,35(3):36-45.
    [13] 张翔,陈政,马子明,等.适应可再生能源配额制的电力市场交易体系研究[J].电网技术,2019,43(8):2682-2690.ZHANG Xiang,CHEN Zheng,MA Ziming,et al.Study on electricity market trading system adapting to renewable portfolio standard[J].Power System Technology,2019,43(8):2682-2690.
    [14] 刘佳楠,熊宁,朱文广,等.电力市场环境下风光储联合运行优化策略[J].电力科学与技术学报,2017,32(1):11-15.LIU Jianan,XIONG Ning,ZHU Wenguang,et al.Research on optimal strategy of wind-PV-ES hybrid operation in electricity market[J].Journal of Eiectric Power Science and Technology,2017,32(1):11-15.
    [15] 李健强,余光正,汤波,等.考虑风光利用率和含氢能流的多能流综合能源系统规划[J].电力系统保护与控制,2021,49(14):11-20.LI Jianqiang,YU Guangzheng,TANG Bo,et al.Multi-energy flow integrated energy system planning considering wind and solar utilization and containing hydrogen energy flow[J].Power System Protection and Control,2021,49(14):11-20.
    [16] QADRDAN M,ABEYSEKERA M,CHAUDRY M,et al.Role of power-to-gas in an integrated gas and electricity system in Great Britain[J].International Journal of Hydrogen Energy,2015,40(17):5763-5775.
    [17] CLEGG S,MANCARELLA P.Integrated electrical and gas network flexibility assessment in low-carbon multi-energy systems[J].IEEE Transactions on Sustainable Energy,2016,7(2):718-731.
    [18] 滕云,王泽镝,金红洋,等.用于电网调节能力提升的电热氢多源协调储能系统模型[J].中国电机工程学报,2019,39(24):7209-7217.TENG Yun,WANG Zedi,JIN Hongyang,et al.A model and coordinated optimization for the multi-energy storage system of electricity heat hydrogen to regulation enhancement of power grid[J].Proceedings of the CSEE,2019,39(24):7209-7217.
    [19] 卫志农,张思德,孙国强,等.计及电转气的电—气互联综合能源系统削峰填谷研究[J].中国电机工程学报,2017,37(16):4601-4609.WEI Zhinong,ZHANG Side,SUN Guoqiang,et al.Power-to-gas considered peak load shifting research for integrated electricity and natural-gas energy systems[J].Proceedings of the CSEE,2017,37(16):4601-4609.
    [20] 邓浩,陈洁,焦东东,等.风氢耦合并网系统能量管理控制策略[J].高电压技术,2020,46(1):99-106.DENG Hao,CHEN Jie,JIAO Dongdong,et al.Control strategy for energy management hybrid grid-connected system of wind and hydrogen[J].High Voltage Engineering,2020,46(1):99-106.
    [21] 国家发展改革委,工业和信息化部,国家能源局.中国制造2025-能源装备实施方案[EB/OL].(2016-06-20).http://www.gov.cn/xinwen/2016-06/20/content_5083796.htm.
    [22] 金红洋,滕云,冷欧阳,等.基于源荷不确定性状态感知的无废城市多能源协调储能模型[J].电工技术学报,2020,35(13):2830-2842.JIN Hongyang,TENG Yun,LENG Ouyang,et al.Multi-energy coordinated energy storage model in zero-waste cities based on situation awareness of source and load uncertainty[J].Transactions of China Electrotechnical Society,2020,35(13):2830-284.
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顾玖,王晨磊,解大.电力市场环境下的电—氢一体化站优化运行[J].电力科学与技术学报英文版,2022,37(1):130-139. GU Jiu, WANG Chenlei, XIE Da. Research on optimal operation of electricity-hydrogen integrated station in electricity market environment[J]. Journal of Electric Power Science and Technology,2022,37(1):130-139.

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