基于条件风险价值的虚拟电厂优化运行与收益分配

李新聪; 黄滢; 李振坤; 袁明翰; 季亮

doi:10.19725/j.cnki.1007-2322.2023.0263

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基于条件风险价值的虚拟电厂优化运行与收益分配

智能电网 | 更新时间：2025-12-11

- 基于条件风险价值的虚拟电厂优化运行与收益分配
- Optimal Operation and Profit Allocation of Virtual Power Plants Based on Conditional Value-at-risk
- 现代电力 2025年第6期页码：1170-1181
- 作者机构：
  
  1. 国网上海市电力公司经济技术研究院, 上海市徐汇区,200233
  2. 上海电力大学电气工程学院, 上海市杨浦区,200090
  3. 国网上海市电力公司, 上海市杨浦区,200090
- 作者简介：
  
  [ "李新聪(1990)，男，硕士，高级工程师，研究方向为配电网规划和配电自动化，E-mail：362067003@qq.com" ]
  [ "黄滢(1999)，女，硕士研究生，研究方向为配电网优化运行、虚拟电厂，E-mail：2116506020@qq.com" ]
  [ "李振坤(1982)，男，博士，教授，博士生导师，研究方向为配电网规划及运行控制、分布式电源并网及微电网、主动配电网技术等，E-mail：lzk021@163.com" ]
  [ "袁明翰(1987)，男，硕士，高级工程师，研究方向为电网规划，E-mail：yuan49545@126.com" ]
  [ "季亮(1985)，男，博士，副教授，研究方向为电力系统保护与控制，E-mail：jihome2002@sina.cn" ]
- 基金信息：
  
  国家自然科学基金资助项目（52177098）;国家电网有限公司科技项目（SGSHJY00GPJS2100193）。
- DOI：10.19725/j.cnki.1007-2322.2023.0263
  中图分类号：
- 纸质出版：2025
- 稿件说明：
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李新聪, 黄滢, 李振坤, 等. 基于条件风险价值的虚拟电厂优化运行与收益分配[J]. 现代电力, 2025,(6):1170-1181.

LI Xincong, HUANG Ying, LI Zhenkun, et al. Optimal Operation and Profit Allocation of Virtual Power Plants Based on Conditional Value-at-risk[J]. 2025, (6): 1170-1181.
李新聪, 黄滢, 李振坤, 等. 基于条件风险价值的虚拟电厂优化运行与收益分配[J]. 现代电力, 2025,(6):1170-1181. DOI： 10.19725/j.cnki.1007-2322.2023.0263.

LI Xincong, HUANG Ying, LI Zhenkun, et al. Optimal Operation and Profit Allocation of Virtual Power Plants Based on Conditional Value-at-risk[J]. 2025, (6): 1170-1181. DOI： 10.19725/j.cnki.1007-2322.2023.0263.

摘要

虚拟电厂(virtual power plant，VPP)作为解决可再生能源并网的技术途径，可有效帮助各类分布式能源参与电力市场交易并提高整体竞争力与经济性。为此文中提出了一种聚合多类分布式能源的VPP运营策略及其内部成员的收益分配方法。首先，构建了由风电机组、燃气机组、储能设备和可中断负荷组成的VPP优化运行模型，并运用条件风险价值理论对不确定因素风险进行量化处理，得到了不同风险水平下VPP的运营策略和收益；接着，基于内部各成员的风险水平、收益贡献和成员吸引力，采用权重系数改进Shapley值法，提出了适用于多个成员的VPP收益分配模型；最后，以某VPP为研究对象进行算例分析，验证了所建模型的有效性，确保了收益分配结果的公平性与合理性，对各类分布式能源参与到VPP起到积极作用，对维护VPP联盟的稳定具有重要意义。

Abstract

Virtual power plants (VPP) serve as a solution for the seamless integration of renewable energy sources into the grid

effectively facilitating participation in electricity market transactions by various types of distributed energy resources and thus improving overall competitiveness and economic viability. In this article

we propose a VPP operating strategy that aggregates multiple types of distributed energy resources

along with a method for profit allocation among its internal members. Firstly

we construct an optimized VPP operating model composed of wind turbine

gas turbine

energy storage equipment

and interruptible loads. We employ conditional value-at-risk theory to quantify the risk of uncertain factors

and derive VPP operating strategies and profits under different risk levels. Secondly

we improve the Shapley value method with weighted coefficients to develop a VPP profit allocation model that applies to multiple members

based on the risk levels

profit contributions

and member attractiveness of internal members. Finally

we utilize a VPP as a case study to analyze the effectiveness of the model. The fairness and reasonableness of profit allocation results are ensured

which plays a positive role in the participation of various types of distributed energy resources in the VPP and is also of great significance to maintaining the stability of the VPP alliance.

关键词

Keywords

references

KARDAKOS E G, SIMOGLOU C K, BAKIRTZIS A G. Optimal offering strategy of a virtual power plant: A stochastic bi-level approach[J]. IEEE Transactions on Smart Grid, 2015, 7(2): 794−806.

NOSRATABADI S M, HOOSHMAND R A, GHOLIPOUR E. A comprehensive review on microgrid and virtual power plant concepts employed for distributed energy resources scheduling in power systems[J]. Renewable and Sustainable Energy Reviews, 2017, 67: 341−363.

ZHAO Bo, WANG Xiangjin, ZHANG Xuesong, et al. Two-layer method of microgrid optimal sizing considering demand-side response and uncertainties[J]. Transactions of China Electrotechnical Society, 2018, 33(14): 3284−3295(in Chinese).

赵波, 汪湘晋, 张雪松, 等. 考虑需求侧响应及不确定性的微电网双层优化配置方法[J]. 电工技术学报, 2018, 33(14): 3284−3295.

ZHAO Dongmei, YIN Jiafu. Fuzzy random chance constrained preemptive goal programming scheduling model considering source-side and load-side uncertainty[J]. Transactions of China Electrotechnical Society, 2018, 33(05): 1076−1085(in Chinese).

赵冬梅, 殷加玞. 考虑源荷双侧不确定性的模糊随机机会约束优先目标规划调度模型[J]. 电工技术学报, 2018, 33(05): 1076−1085.

NGUYEN H T, LE L B, WANG Z. A bidding strategy for virtual power plants with the intraday demand response exchange market using the stochastic programming[J]. IEEE Transactions on Industry Applications, 2018, 54(4): 3044−3055.

LUI Siyuan, AI Qian, ZHENG Jianping, et al. Bi-level coordination mechanism and operation strategy of multi-time scale multiple virtual power plants[J]. Proceedings of the CSEE, 2018, 38(03): 753−761(in Chinese).

刘思源, 艾芊, 郑建平, 等. 多时间尺度的多虚拟电厂双层协调机制与运行策略[J]. 中国电机工程学报, 2018, 38(03): 753−761.

EMARATI M, KEYNIA F, RASHIDINEJAD M. A two-stage stochastic programming framework for risk-based day-ahead operation of a virtual power plant[J]. International Transactions on Electrical Energy Systems, 2020, 30(3): e12255.

RIVEROS J Z, BRUNINX K, PONCELET K, et al. Bidding strategies for virtual power plants considering CHPs and intermittent renewables[J]. Energy Conversion and Management, 2015, 103: 408−418.

SUN Jingqi, WANG Yuan, GUO Xiaohui, et al. Optimal operation of virtual power plant considering environmental externality and output uncertainty of wind and photovoltaic power[J]. Automation of Electric Power Systems, 2022, 46(08): 50−59(in Chinese).

孙晶琪, 王愿, 郭晓慧, 等. 考虑环境外部性和风光出力不确定性的虚拟电厂运行优化[J]. 电力系统自动化, 2022, 46(08): 50−59.

ZHANG Y, LIU F, WANG Z, et al. Robust scheduling of virtual power plant under exogenous and endogenous uncertainties[J]. IEEE Transactions on Power Systems, 2021, 37(2): 1311−1325.

BARINGO A, BARINGO L, ARROYO J M. Day-ahead self-scheduling of a virtual power plant in energy and reserve electricity markets under uncertainty[J]. IEEE Transactions on Power Systems, 2018, 34(3): 1881−1894.

WEI Zhinong, CHEN Yu, HUANG Wenjin, et al. Optimal allocation model for multi-energy capacity of virtual power plant considering conditional value-at-risk[J]. Automation of Electric Power Systems, 2018, 42(04): 39−46(in Chinese).

卫志农, 陈妤, 黄文进, 等. 考虑条件风险价值的虚拟电厂多电源容量优化配置模型[J]. 电力系统自动化, 2018, 42(04): 39−46.

LI Yating, TANG Jiajun, ZHANG Si, et al. Decision-making model of electricity procurement and sale for electricity retailers considering multiple uncertain factors[J]. Automation of Electric Power Systems, 2022, 46(07): 33−41(in Chinese).

李雅婷, 唐家俊, 张思, 等. 考虑多重不确定性因素的售电公司购售电决策模型[J]. 电力系统自动化, 2022, 46(07): 33−41.

TAN Z, LI H, JU L, et al. Joint scheduling optimization of virtual power plants and equitable profit distribution using shapely value theory[J]. Mathematical Problems in Engineering, 2018:1-13.

HU Diangang, LIU Yiran, WANG Kunyu, et al. Joint bidding and distribution strategies for multiple commercial virtual power plants[J]. Power System Technology, 2016, 40(05): 1550−1557(in Chinese).

胡殿刚, 刘毅然, 王坤宇, 等. 多商业型虚拟发电厂联合竞标及分配策略[J]. 电网技术, 2016, 40(05): 1550−1557.

GUO Hongxia, GAO Rui, YANG Ping. Two-stage dispatch of microgrid based on CVaR theory under electricity spot market[J]. Power System Technology, 2019, 43(08): 2665−2674(in Chinese).

郭红霞, 高瑞, 杨苹. 基于条件风险价值的微电网现货市场两阶段调度[J]. 电网技术, 2019, 43(08): 2665−2674.

CHEN Xingying, YU Qingyun, XIE Jun, et al. DLMP calculation based on power loss and emission reduction allocation using Aumann-Shapley method[J]. Electric Power Automation Equipment, 2019, 39(04): 17−23(in Chinese).

陈星莺, 郁清云, 谢俊, 等. 基于利用Aumann-Shapley值分摊网损和排放减少量的DLMP计算研究[J]. 电力自动化设备, 2019, 39(04): 17−23.

CHENG Y, FAN S, NI J, et al. An innovative profit allocation to distributed energy resources integrated into virtual power plant[C]//International Conference on Renewable Power Generation (RPG 2015). IET, 2015: 1-6.

LU Dan, YUAN Yue. Weak part identification based on fault-tree Monte Carlo simulation for islanded micr-ogrid[J]. Electric Power Automation Equipment, 2017, 37(04): 38−44(in Chinese).

陆丹, 袁越. 基于故障树蒙特卡洛模拟法的孤岛微电网薄弱环节识别[J]. 电力自动化设备, 2017, 37(04): 38−44.

MA Xiufan, YU Siyu, ZHU Sijia, et al. Profit allocation to virtual power plant members based on improved multifactor Shapley value method[J]. Transactions of China Electrotechnical Society, 2020, 35(S2): 585−595(in Chinese).

麻秀范, 余思雨, 朱思嘉, 等. 基于多因素改进Shapley的虚拟电厂利润分配[J]. 电工技术学报, 2020, 35(S2): 585−595.

CHEN Yunxiang, DONG Xiaoxiong, XIANG Huachun, et al. Method for combination weighting experts based on information entropy and cluster analysis[J]. Chinese Journal of Management Science, 2015, 23(06): 142−146(in Chinese).

陈云翔, 董骁雄, 项华春, 等. 基于信息熵的群组聚类组合赋权法[J]. 中国管理科学, 2015, 23(06): 142−146.

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