2025年4月5日 周六
首页 > 过刊浏览>2024年第39卷第5期 >270-278. DOI:10.19781/j.issn.1673-9140.2024.05.027
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计及发电容量充裕度的容量市场多能源定价模型
作者:
作者单位:

(1.广西电网有限责任公司电力调度控制中心,广西 南宁 530023;2.中国南方电网有限责任公司电力调度控制中心,广东 广州 510663)

通讯作者:

陈明媛(1983—),女,博士,高级工程师,主要从事调度专业现货市场管理主要研究方向为电力市场机制、电力系统稳定控制,鲁棒控制等方面的研究;E?mail:ytfscdjy@126.com

中图分类号:

TM863

基金项目:

广西电网有限责任公司科技项目(046000KK52222033)


A multi‑energy pricing model for capacity markets considering generating capacity adequacy
Author:
Affiliation:

(1.Power Dispatching Control Center, Guangxi Power Grid Co.,Ltd., Nanning 530023, China; 2.Dispatching Power Dispatching Control Center, China Southern Power Grid Co., Ltd., Guangzhou 510663, China)

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    摘要:

    随着风、光、水等可再生能源发电高比例并入电力系统,可再生能源发电的低成本使传统火电机组的成本回收受到极大挑战,导致火电机组退出容量市场越来越多。但可再生能源发电依赖于天气,在负荷高峰时段,其无法保证发电容量的充裕度,而容量市场的合理定价机制是解决该问题的关键。对此,提出了计及容量市场定价机制及电能需求的多能源交易模型。首先,在容量市场层面给出了传统火电机组、风电机组、光伏发电、水电、储能的分时段负荷需求和容量特性的定价模型,并将其作为主问题;其次,在电能交易层面给出了以日现货交易市场的火电、风电、光伏发电、水电和储能的联合优化调度模型,并将其作为子问题;然后,通过主问题、子问题的迭代求解,给出了火力发电、风电、光伏发电、水电和储能的容量定价机制;最后,以某实际电网数据为例,进行多场景仿真验证,证明了所提方案的合理性和有效性。

    Abstract:

    With the high proportion of renewable energy generation such as wind, solar, and hydro power integrated into the power system, the low cost of renewable energy generation poses a significant challenge to the cost recovery of traditional thermal power units, resulting in an increasing number of thermal power units exiting the capacity market. Additionally, as renewable energy generation primarily depends on weather conditions, it cannot guarantee sufficient generation capacity during peak load periods. A reasonable pricing mechanism in the capacity market is crucial to address this issue. In response, a multi-energy trading model that considers both the capacity market pricing mechanism and electricity demand is proposed. Firstly, a pricing model that accounts for the load demand and capacity characteristics of traditional thermal power units, wind turbines, photovoltaic (PV) power generation, hydropower, and energy storage at different time intervals is presented for the capacity market level, serving as the main problem. Secondly, a joint optimization scheduling model for thermal power, wind power, PV power, hydropower, and energy storage in the daily spot market is introduced at the electricity trading level, serving as the sub-problem. Then, based on this, through iterative solutions to the main and sub-problems, a capacity pricing mechanism for thermal power, wind power, PV power, hydropower, and energy storage is proposed. Finally, multi-scenario simulations are conducted using an actual power grid as an example, demonstrating the rationality and effectiveness of the proposed scheme.

    参考文献
    [1] 段声志,陈皓勇,郑晓东,等.碳市场背景下发电商竞价策略及电力市场均衡分析[J].电测与仪表,2022,59(5):33-41. DUAN Shengzhi,CHEN Haoyong,ZHENG Xiaodong,et al.Bidding strategy of electricity generation and electricity market equilibrium analysis under the background of carbon market[J].Electrical Measurement & Instrumentation,2022,59(5):33-41.
    [2] 陈艺华,张炜,张成刚,等.新型电力系统中促进新能源消纳的电力现货市场交易机制研究[J].智慧电力,2022,50(2):97-104. CHEN Yihua,ZHANG Wei,ZHANG Chenggang,et al.Electricity spot market trading mechanism for promoting renewable energy integration in new power system[J].Smart Power,2022,50(2):97-104.
    [3] 李佩樾,王致杰,金珈辉.能量及调频市场下含储联盟体的竞价行为分析[J].电力科学与技术学报,2023,38(3):14-23. LI Peiyue,WANG Zhijie,JIN Jiahui.The analysis of the bidding behavior of alliance containing energy storage in the energy and regulation markets[J].Journal of Electric Power Science and Technology,2023,38(3):14-23.
    [4] 汤旸,刘翊枫,王静,等.电力市场售电公司最优购售电量决策模型及其应用[J].电力科学与技术学报,2022,37(4):3-12. TANG Yang,LIU Yifeng,WANG Jing,et al.Optimal decision model and application of electricity purchasing and selling of electricity retailer in electricity market[J].Journal of Electric Power Science and Technology,2022,37(4):3-12.
    [5] ZHUO Z Y,ZHANG N,HOU Q C,et al.Backcasting technical and policy targets for constructing low-carbon power systems[J].IEEE Transactions on Power Systems,2022,37(6):4896-4911.
    [6] 吴瑊,米增强,张勋奎,等.系统友好型“无火电” 能源大基地构建研究[J].中国电机工程学报,2023,43(5):1706-1719. WU Jian,MI Zengqiang,ZHANG Xunkui,et al.Research on the construction of a system-friendly "No thermal power" energy base[J].Proceedings of the CSEE,2023,43(5):1706-1719.
    [7] WU Z Y,WANG J X,ZHONG H W,et al.Sharing economy in local energy markets[J].Journal of Modern Power Systems and Clean Energy,2023,11(3):714-726.
    [8] 黄宁馨,程兰芬,禤培正,等.多主体梯级水电参与日前市场的联盟竞价策略与收益分配[J].电网与清洁能源,2022,38(10):158-166. HUANG Ningxin,CHENG Lanfen,XUAN Peizheng,et al.Alliance bidding strategy and benefit distribution of multi-operator cascade hydropower participating in day-ahead market[J].Power System and Clean Energy,2022,38(10):158-166.
    [9] ZHAO F,ZHENG T X,LITVINOV E.Constructing demand curves in forward capacity market[J].IEEE Transactions on Power Systems,2018,33(1):525-535.
    [10] 廖望,刘东,巫宇锋,等.考虑源荷不确定性及用户响应行为的电力系统低碳经济调度[J].中国电机工程学报,2024,44(3):905-918. LIAO Wang,LIU Dong,WU Yufeng,et al.Low-carbon economic dispatch of power system considering source-load uncertainties and users response behavior[J].Proceedings of the CSEE,2024,44(3):905-918.
    [11] MEDINA S V,AJENJO U P.Performance improvement of artificial neural network model in short-term forecasting of wind farm power output[J].Journal of Modern Power Systems and Clean Energy,2020,8(3):484-490.
    [12] 吴永斌,张建忠,袁正舾,等.风电场风功率异常数据识别与清洗研究综述[J].电网技术,2023,47(6):2367-2380. WU Yongbin,ZHANG Jianzhong,YUAN Zhengxi,et al.Review on identification and cleaning of abnormal wind power data for wind farms[J].Power System Technology,2023,47(6):2367-2380.
    [13] WANG S,ZHENG N K,BOTHWELL C D,et al.Crediting variable renewable energy and energy storage in capacity markets:effects of unit commitment and storage operation[J].IEEE Transactions on Power Systems,2022,37(1):617-628.
    [14] 尚楠,张翔,宋艺航,等.适应清洁能源发展和现货市场运行的容量市场机制设计[J].电力系统自动化,2021,45(22):174-182. SHANG Nan,ZHANG Xiang,SONG Yihang,et al.Design of capacity market mechanism adapting to clean energy development and spot market operation[J].Automation of Electric Power Systems,2021,45(22):174-182.
    [15] 皇甫奋宇,李晓鹏,李岩,等.现货环境下的储能容量成本回收机制研究[J].电力系统保护与控制,2023,51(12):37-46. HUANGFU Fenyu,LI Xiaopeng,LI Yan,et al.A cost recovery mechanism of storage capacity in the context of the power spot market[J].Power System Protection and Control,2023,51(12):37-46.
    [16] 卢治霖,尚楠,张妍,等.发电企业参与容量市场的纳什—主从博弈模型[J].电力系统自动化,2023,47(16):94-102. LU Zhilin,SHANG Nan,ZHANG Yan,et al.Nash-stackelberg game model for power generation enterprises participating in capacity market[J].Automation of Electric Power Systems,2023,47(16):94-102.
    [17] 国雪健,李思远,朱秋萍,等.基于均衡模型的寡头电力市场容量机制研究[J].电力系统保护与控制,2021,49(24):121-131. GUO Xuejian,LI Siyuan,ZHU Qiuping,et al.Capacity mechanisms of the oligopoly electricity market based on an equilibrium model[J].Power System Protection and Control,2021,49(24):121-131.
    [18] 王凤学,欧阳森,辛曦.计及保供电交易模式和容量市场的用户侧储能优化配置[J].高电压技术,2023,49(7):2785-2795. WANG Fengxue,OUYANG Sen,XIN Xi.Optimal configuration of user-side energy storage considering power supply transaction mode and capacity market[J].High Voltage Engineering,2023,49(7):2785-2795.
    [19] 王永明,陈宇星,殷自力,等.基于大数据分析的电力用户行为画像构建方法研究[J].高压电器,2022,58(10):173-179+187. WANG Yongming,CHEN Yuxing,YIN Zili,et al.Research on construction method of power user behavior portrait based on big data analysis[J].High Voltage Apparatus,2022,58(10):173-179+187.
    [20] 陈灏,田琳,盛剑胜,等.考虑风险规避和需求响应的电力市场可再生能源综合交易决策研究[J].电力科学与技术学报,2023,38(1):27-34. CHEN Hao,TIAN Lin,SHENG Jiansheng,et al.Research on comprehensive trading decision of renewable energy in power market considering the risk aversion and demand response[J].Journal of Electric Power Science and Technology,2023,38(1):27-34.
    [21] 陈熙,程瑜,丁肇豪.低碳驱动的长时储能容量补偿机制[J].电力系统自动化,2023,47(7):32-41. CHEN Xi,CHENG Yu,DING Zhaohao.Low-carbon-driven capacity payment mechanism of long-term energy storage[J].Automation of Electric Power Systems,2023,47(7):32-41.
    [22] 高松,黄河,李妍,等.适应随机序贯决策的分布式储能优化规划方法[J].高电压技术,2022,48(11):4385-4392. GAO Song,HUANG He,LI Yan,et al.Optimization programming method for distributed energy storage suitable for stochastic sequential decision-making[J].High Voltage Engineering,2022,48(11):4385-4392.
    [23] 夏清,杨知方,赖晓文,等.基于分时容量电价的新型电力现货市场设计[J].电网技术,2022,46(5):1771-1779. XIA Qing,YANG Zhifang,LAI Xiaowen,et al.Electricity market design based on temporal pricing of renewable capacity[J].Power System Technology,2022,46(5):1771-1779.
    [24] FANG X,HU Q R,BO R,et al.Redesigning capacity market to include flexibility via ramp constraints in high-renewable penetrated system[J].International Journal of Electrical Power & Energy Systems,2021,128:106677.
    [25] 王蓓蓓,亢丽君,苗曦云,等.考虑可信度的新能源及需求响应参与英美容量市场分析及思考[J].电网技术,2022,46(4):1233-1247. WANG Beibei,KANG Lijun,MIAO Xiyun,et al.Analysis and enlightenment of renewable energy and demand response participating in UK and US capacity markets considering capacity credibility[J].Power System Technology,2022,46(4):1233-1247.
    [26] PAND?I? K,PAND?I? H,KUZLE I.Coordination of regulated and merchant energy storage investments[J].IEEE Transactions on Sustainable Energy,2018,9(3):1244-1254.
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陈明媛,莫 东,刘起兴,等.计及发电容量充裕度的容量市场多能源定价模型[J].电力科学与技术学报,2024,39(5):270-278.
CHEN Mingyuan, MO Dong, LIU Qixing, et al. A multi‑energy pricing model for capacity markets considering generating capacity adequacy[J]. Journal of Electric Power Science and Technology,2024,39(5):270-278.

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