电碳耦合市场下虚拟电厂与配电网协同优化运行模型

doi:10.11930/j.issn.1004-9649.202512012

中国电力 ›› 2026, Vol. 59 ›› Issue (5): 86-96.DOI: 10.11930/j.issn.1004-9649.202512012

• 支撑新型城市电网的虚拟电厂电力市场机制及运行关键技术 • 上一篇下一篇

电碳耦合市场下虚拟电厂与配电网协同优化运行模型

李娜¹(), 张强²(), 郝艺¹, 吴冠男³()

1. 国网山东省电力公司电力科学研究院，山东济南　250003
2. 国网山东省电力公司，山东济南　250013
3. 清华大学电机工程与应用电子技术系，北京海淀　100084

收稿日期:2025-12-03 修回日期:2026-04-17 发布日期:2026-05-15 出版日期:2026-05-28
作者简介:
李娜（1991），女，硕士，工程师，从事电力系统调度自动化研究，E-mail：camera_23@sina.com
张强（1980），男，博士，高级工程师，从事电力系统调度自动化研究，E-mail：zq8027@163.com
吴冠男（1986），男，助理研究员，从事新能源并网技术与新型电力系统宽频动态研究，E-mail：wuguannan722@163.com
基金资助:
国网山东省电力公司科技项目资助（52062625000T）。

Coordinated optimization operation model of virtual power plant and distribution network in the electricity-carbon coupled market

LI Na¹(), ZHANG Qiang²(), HAO Yi¹, WU Guannan³()

1. State Grid Shandong Electric Power Research Institute, Jinan 250003, China
2. State Grid Shandong Electric Power Company, Jinan 250013, China
3. Department of Electrical Engineering and Applied Electronics, Tsinghua University, Beijing 100084, China

Received:2025-12-03 Revised:2026-04-17 Online:2026-05-15 Published:2026-05-28
Supported by:
This work is supported by Science and Technology Project of State Grid Shandong Electric Power Co., Ltd. (No.52062625000T).

摘要/Abstract

摘要：

针对电碳耦合环境下虚拟电厂（virtual power plant，VPP）与配电网协同优化面临的高维非线性、隐私保护及计算效率难题，提出一种基于上镜图理论的分布式协同运行模型。首先，构建涵盖新能源机组与碳捕集系统的电碳耦合市场框架及多元分布式能源模型；其次，建立双层数学模型，上层旨在实现虚拟电厂电碳市场综合效益最大化，下层通过优化购电与碳配额成本实现系统成本最小化；最后，利用上镜图理论通过函数转化与等效投影建模，将原问题转化为高效的分布式求解形式，在保障各主体隐私的同时突破非线性约束瓶颈。仿真结果表明，在IEEE 33节点系统中，相较于传统的双层模型求解，总运行收益提升3.04%，与此同时，所提方法不仅提高了计算效率，还有效保护了各主体的隐私。

关键词: 电碳耦合, 虚拟电厂, 上镜图理论, 协同运行

Abstract:

To address the challenges of high-dimensional nonlinearity, multi-agent privacy protection, and computational efficiency in the collaborative optimization of VPP and distribution networks under an electricity-carbon coupled environment, this paper proposes a distributed collaborative operation model based on epigraph theory. First, a framework for electricity-carbon coupled market operations is established, incorporating the modeling of diverse distributed energy resources, including renewable energy units and carbon capture systems. Secondly, a quantitative bi-level mathematical model is formulated: the upper level aims to maximize the comprehensive benefits of the VPP within the electricity-carbon market, while the lower level focuses on minimizing system power purchase and carbon quota costs, with clearly defined constraints for each level. Finally, by leveraging epigraph theory, the original problem is converted into an efficient distributed solving form through function transformation and equivalent projection modeling. This approach effectively bypasses nonlinear constraint bottlenecks while safeguarding the privacy of participating entities. Simulation results on the IEEE 33-node system demonstrate that the proposed method achieves a 3.04% increase in total operating profit compared to traditional bi-level model solutions, validating its effectiveness in enhancing both economic performance and computational efficiency.

Key words: electricity-carbon coupled, virtual power plant, epigraph theory, coordinated operation

李娜, 张强, 郝艺, 吴冠男. 电碳耦合市场下虚拟电厂与配电网协同优化运行模型[J]. 中国电力, 2026, 59(5): 86-96.

LI Na, ZHANG Qiang, HAO Yi, WU Guannan. Coordinated optimization operation model of virtual power plant and distribution network in the electricity-carbon coupled market[J]. Electric Power, 2026, 59(5): 86-96.

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链接本文: https://www.electricpower.com.cn/CN/10.11930/j.issn.1004-9649.202512012

https://www.electricpower.com.cn/CN/Y2026/V59/I5/86

图/表 13

图 1 VPP运行框架

Fig.1 VPP operation framework

图 2 VPP参与电碳市场运营策略

Fig.2 Operation strategy of VPP in the electricity-carbon market

图 3 上镜图转化流程

Fig.3 Epigraph transformation process

图 4 IEEE 33节点网络拓扑

Fig.4 Network topology of the IEEE 33 bus system

表 1 碳核算因子参数

Table 1 Carbon accounting factor parameters 单位：kg/(kW·h)

类别	燃煤机组		燃气机组		燃气锅炉
类别	电	热	电	热	热
碳配额^[44-45]	0.8049	0.3794	0.3288	0.1919	0.2244
碳排放^[46]	0.9240	0.4530	0.4502	0.2120	0.2280

图 5 VPP负荷以及风光出力日前预测

Fig.5 Day-ahead forecasts of VPP load, wind power and PV power outputs

图 6 电价和碳配额价格预测结果

Fig.6 Forecast results of electricity price and carbon allowance price

图 7 场景1调度结果

Fig.7 Scenario 1 dispatch results

图 8 场景2调度结果

Fig.8 Scenario 2 dispatch results

表 2 基础场景下VPP运行效益对比

Table 2 Comparison of VPP operation benefits under the basic scenario

场景	电市场效益/元	碳市场效益/元	设备运行成本/元	VPP总效益/元	碳交易量/t
1	16326.82	—	5890.39	10436.43	—
2	16915.38	2064.05	7597.40	11382.03	7.167

图 9 典型时段可行域等效投影切片

Fig.9 Equivalent projection slice of the feasible region in typical time periods

图 10 场景3调度结果

Fig.10 Scenario 3 dispatch results

表 3 对照场景下VPP运行效益对比

Table 3 Comparison of VPP operation benefits under the control scenario

场景	电市场效益/元	碳市场效益/元	设备运行成本/元	VPP总效益/元	碳交易量/t
2	16915.38	2064.05	7597.40	11382.03	7.167
3	17236.66	2135.34	7644.39	11727.60	7.416

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电碳耦合市场下虚拟电厂与配电网协同优化运行模型

Coordinated optimization operation model of virtual power plant and distribution network in the electricity-carbon coupled market

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电碳耦合市场下虚拟电厂与配电网协同优化运行模型

Coordinated optimization operation model of virtual power plant and distribution network in the electricity-carbon coupled market

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