基于多智能体强化学习的电-碳-绿证耦合市场下多市场主体行为研究

doi:10.11930/j.issn.1004-9649.202410025

中国电力 ›› 2025, Vol. 58 ›› Issue (4): 44-55.DOI: 10.11930/j.issn.1004-9649.202410025

• 电-碳协同下分布式能源系统运营关键技术 • 上一篇下一篇

基于多智能体强化学习的电-碳-绿证耦合市场下多市场主体行为研究

周飞航¹(), 王灏¹(), 王海利¹, 王萌¹, 金耀杰¹, 李重春¹, 张忠德², 王鹏³

1. 内蒙古电力交易中心有限公司，内蒙古呼和浩特　010020
2. 华北电力大学电气与电子工程学院，北京　102206
3. 华北电力大学国家能源发展战略研究院，北京　102206

收稿日期:2024-10-09 录用日期:2025-01-07 发布日期:2025-04-23 出版日期:2025-04-28
作者简介:
周飞航（1990），男，通信作者，硕士，高级工程师，从事电力市场建设运营与研究工作，E-mail：715443041@qq.com
王灏（1988），男，学士，工程师，从事电力市场建设运营与研究工作，E-mail：lebron_jarry@163.com
基金资助:
内蒙古电力交易中心科技项目（电碳市场耦合机理及内蒙古电力交易机制深化研究，DLJY-GKCG-2024-SCJYYB-0401-0013）。

Multi-entity Behaviors in Electricity-Carbon-Green Certificate Coupled Markets Based on Multi-agent Reinforcement Learning

ZHOU Feihang¹(), WANG Hao¹(), WANG Haili¹, WANG Meng¹, JIN Yaojie¹, LI Zhongchun¹, ZHANG Zhongde², WANG Peng³

1. Inner Mongolia Power Exchange Center Co., Ltd., Hohhot 010020, China
2. College of Electrical and Electronic Engineering, North China Electric Power University, Beijing 102206, China
3. National Institute of Energy Development Strategy, North China Electric Power University, Beijing 102206, China

Received:2024-10-09 Accepted:2025-01-07 Online:2025-04-23 Published:2025-04-28
Supported by:
This work is supported by Science & Technology Project of Inner Mongolia Power Exchange Center Co., Ltd. (Research on the Coupling Mechanism of Electricity Carbon Market and the Deepening of Inner Mongolia Electricity Trading Mechanism, No.DLJY-GKCG-2024-SCJYYB-0401-0013).

摘要/Abstract

摘要：

建立全国碳排放权交易市场和绿证市场是中国实现“双碳”目标的重要策略之一。然而，现有研究多从经济角度分析市场耦合关系，忽视了电力网络的物理约束以及新能源出力不确定性对市场协同优化的影响，且没有考虑电力用户进入碳市场的情况。针对这一不足，提出了一种基于物理网络节点的电-碳-绿证耦合市场双层优化模型，分析碳市场扩容背景下市场主体行为及耦合机制的变化。模型在电网物理拓扑结构的基础上，引入电力用户参与碳市场的决策机制，并结合绿证与碳配额的抵消规则，探索线路阻塞对市场主体决策的影响。使用蒙西地区新能源机组实际出力数据，验证所提模型的合理性与有效性。结果表明：电力用户纳入碳市场可显著提升耦合市场的整体收益；线路阻塞对市场主体行为及市场收益具有重要影响；在碳配额充裕条件下，引入碳证抵消机制能够进一步优化市场效率。

关键词: 碳排放权交易市场, 绿证市场, 耦合市场双层优化模型, 多智能体强化学习, 线路阻塞, 碳证抵消机制

Abstract:

Establishing a national carbon emission trading market and green certificate market is one of the key strategies for China to achieve its "dual carbon" goals. However, existing research predominantly analyzes the market coupling relationships from an economic perspective, overlooking the impact of power network physical constraints and the uncertainty of renewable energy output on the coordinated optimization of markets. Additionally, the scenario of power consumers participating in the carbon market has not been considered. To address this limitation, a bi-level optimization model for the coupled electricity-carbon-green certificate market based on physical network nodes is proposed to analyzes the behaviors of market entities and the changes in coupling mechanisms under the context of carbon market expansion. In the model, a decision-making mechanism is introduced for power consumers participating in the carbon market based on the physical topology of the power grid, and by incorporating the offset rules between green certificates and carbon allowances, the impact of transmission line congestion on the decision-making of market entities is explored. The actual output data of new energy units in the Mongolia region is used to verify the rationality and effectiveness of the proposed model. The results show that the participation of electricity users in the carbon market can significantly increase the overall returns of the coupled market, and line congestion has a significant impact on the behaviors of market entities and market revenues; in the context of abundant carbon quotas, introducing the carbon credit offset mechanism can further optimize the coupled market efficiency.

Key words: carbon emission trading market, green certificate market, coupled market bi-level optimization model, multi-agent reinforcement learning, line congestion, carbon credit offset mechanism

周飞航, 王灏, 王海利, 王萌, 金耀杰, 李重春, 张忠德, 王鹏. 基于多智能体强化学习的电-碳-绿证耦合市场下多市场主体行为研究[J]. 中国电力, 2025, 58(4): 44-55.

ZHOU Feihang, WANG Hao, WANG Haili, WANG Meng, JIN Yaojie, LI Zhongchun, ZHANG Zhongde, WANG Peng. Multi-entity Behaviors in Electricity-Carbon-Green Certificate Coupled Markets Based on Multi-agent Reinforcement Learning[J]. Electric Power, 2025, 58(4): 44-55.

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链接本文: https://www.electricpower.com.cn/CN/10.11930/j.issn.1004-9649.202410025

https://www.electricpower.com.cn/CN/Y2025/V58/I4/44

图/表 11

图 1 耦合市场框架

Fig.1 Coupled market framework

图 2 市场模型框架

Fig.2 Market model framework

图 3 算例电网以及市场主体位置

Fig.3 Power network and market entity locations in the case study

图 4 不同方法迭代过程

Fig.4 Iterative process of different methods

表 1 仿真时间

Table 1 Simulation time

方法		运行时间/min
MDTD3		37
DQN		52
PPO		47

图 5 新能源发电商在不同情况下总利润与平均报价

Fig.5 Total profit and average quotation of new energy power producers under different scenarios

图 6 传统能源发电商在不同情况下总利润与平均报价

Fig.6 Total profit and average quotation of traditional energy producers under different circumstances

图 7 用电企业在不同情况下总利润与平均报价

Fig.7 Total profit and average quotation of power-consuming enterprises under different scenarios

表 2 对照组设计表

Table 2 Design for the contrast groups

对照组	对照场景	研究目的
1	BASE、UnBlock1	研究不考虑网架结构与抵消机制背景下，用电企业对发电企业的市场行为影响
2	UnBlock1、UnBlock2	研究不考虑网架结构背景下，碳证抵消机制对市场主体的市场行为影响
3	Block1、Block2	研究考虑网架结构背景下，碳证抵消机制对市场主体的市场行为影响
4	UnBlock1、Block1	研究考虑碳证抵消机制背景下，网架结构对市场主体的市场行为影响

图 8 发电企业整体收益变化趋势

Fig.8 Overall revenue variation trend for power generation enterprises

图 9 用电企业整体收益变化趋势

Fig.9 Overall revenue variation trend for power-consuming enterprises

参考文献 22

1	国家能源局. 国家能源局发布2023年全国电力工业统计数据[EB/OL]. (2024-01-26) [2024-10-09]. https://www.nea.gov.cn/2024-01/26/c_1310762246.
2	汤芳, 代红才, 张宁, 等. 能耗双控向碳排放双控转变影响分析及推进路径设计[J]. 中国电力, 2023, 56 (12): 255- 261.
	TANG Fang, DAI Hongcai, ZHANG Ning, et al. Effect analysis and promotion path design for transformation from energy consumption "dual control" to carbon "dual control"[J]. Electric Power, 2023, 56 (12): 255- 261.
3	国务院. 《2024—2025年节能降碳行动方案》[EB/OL]. (2024-05-23) [2024-10-09]. https://www.gov.cn/gongbao/2024/issue_11406/202406/content_6958082.html.
4	尚楠, 陈政, 冷媛. 电碳市场背景下典型环境权益产品衔接互认机制及关键技术[J]. 中国电机工程学报, 2024, 44 (7): 2558- 2578.
	SHANG Nan, CHEN Zheng, LENG Yuan. Mutual recognition mechanism and key technologies of typical environmental interest products in power and carbon markets[J]. Proceedings of the CSEE, 2024, 44 (7): 2558- 2578.
5	冯昌森, 谢方锐, 文福拴, 等. 基于智能合约的绿证和碳联合交易市场的设计与实现[J]. 电力系统自动化, 2021, 45 (23): 1- 11.
	FENG Changsen, XIE Fangrui, WEN Fushuan, et al. Design and implementation of joint trading market for green power certificate and carbon based on smart contract[J]. Automation of Electric Power Systems, 2021, 45 (23): 1- 11.
6	尚楠, 陈政, 卢治霖, 等. 电力市场、碳市场及绿证市场互动机理及协调机制[J]. 电网技术, 2023, 47 (1): 142- 154.
	SHANG Nan, CHEN Zheng, LU Zhilin, et al. Interaction principle and cohesive mechanism between electricity market, carbon market and green power certificate market[J]. Power System Technology, 2023, 47 (1): 142- 154.
7	董亚杰. 绿色证书与碳排放权交易协同实施对电力市场的政策效果分析[D]. 衡阳: 南华大学, 2022.
	DONG Yajie. Analysis of the policy effect of the coordinated implementation of green certificates and carbon emission trading on the power[D]. Hengyang: University of South China, 2022.
8	王心昊, 蒋艺璇, 陈启鑫, 等. 可交易减排价值权证比较分析和衔接机制研究[J]. 电网技术, 2023, 47 (2): 594- 602.
	WANG Xinhao, JIANG Yixuan, CHEN Qixin, et al. On tradeable certificates of emissions reduction and their interactions[J]. Power System Technology, 2023, 47 (2): 594- 602.
9	邱忠涛, 金艳鸣, 徐沈智. 全国碳市场扩容下电力平均排放因子选择对高耗能产业的影响分析[J]. 中国电力, 2023, 56 (12): 1- 7.
	QIU Zhongtao, JIN Yanming, XU Shenzhi. Impacts of electricity emission factor selection on high energy-consuming industries with the expanded national carbon market[J]. Electric Power, 2023, 56 (12): 1- 7.
10	李祥光, 谭青博, 李帆琪, 等. 电碳耦合对煤电机组现货市场结算电价影响分析模型[J]. 中国电力, 2024, 57 (5): 113- 125.
	LI Xiangguang, TAN Qingbo, LI Fanqi, et al. Analysis model to study the influence of electrocarbon coupling on settlement price of coal power units in spot market[J]. Electric Power, 2024, 57 (5): 113- 125.
11	王晛, 王胜彩, 张少华. 电-碳-绿证交易耦合下新能源发电商参与投标竞争的多市场博弈分析[J]. 电网技术, 2024, 48 (10): 4125- 4138.
	WANG Xian, WANG Shegncai , ZHANG Shaohua. Game analysis of coupled electricity-carbon-green certificate markets with strategic bidding of renewable generators[J]. Power System Technology, 2024, 48 (10): 4125- 4138.
12	ZHANG X Y, GUO X P, ZHANG X P. Assessing the policy synergy among power, carbon emissions trading and tradable green certificate market mechanisms on strategic GENCOs in China[J]. Energy, 2023, 278, 127833. DOI
13	YAN S Z, WANG W Q, LI X Z, et al. Stochastic optimal scheduling strategy of cross-regional carbon emissions trading and green certificate trading market based on Stackelberg game[J]. Renewable Energy, 2023, 219, 119268. DOI
14	赵会茹, 赵一航, 武昭原, 等. 电力市场、碳排放权交易市场以及核证自愿减排市场耦合下发电商竞价策略[J]. 电力建设, 2024, 45 (10): 123- 135. DOI
	ZHAO Huiru, ZHAO Yihang, WU Zhaoyuan, et al. Bidding strategy of power generators under the linkage of electricity market, carbon emission trading market, and certified emission reduction market[J]. Electric Power Construction, 2024, 45 (10): 123- 135. DOI
15	姚军, 何姣, 吴永飞, 等. 考虑碳交易和绿证交易制度的电力批发市场能源优化[J]. 中国电力, 2022, 55 (8): 190- 195.
	YAO Jun, HE Jiao, WU Yongfei, et al. Energy optimization of electricity wholesale market considering carbon emissions trading and green power certificate trading mechanism[J]. Electric Power, 2022, 55 (8): 190- 195.
16	周建华, 梁昌誉, 史林军, 等. 计及阶梯式碳交易机制的综合能源系统优化调度[J]. 中国电力, 2025, 58 (2): 77- 87.
	ZHOU Jianhua, LIANG Changyu, SHI Linjun, et al. Optimal scheduling of integrated energy system considering the ladder-type carbon trading mechanism[J]. Electric Power, 2025, 58 (2): 77- 87.
17	郭静蓉, 向月, 吴佳婕, 等. 考虑CCUS电转气技术及碳市场风险的电–气综合能源系统低碳调度[J]. 中国电机工程学报, 2023, 43 (4): 1290- 1302.
	GUO Jingrong, XIANG Yue, WU Jiajie, et al. Low-carbon optimal scheduling of integrated electricity-gas energy systems considering CCUS-P2G technology and risk of carbon market[J]. Proceedings of the CSEE, 2023, 43 (4): 1290- 1302.
18	TAN Q L, DING Y H, ZHENG J, et al. The effects of carbon emissions trading and renewable portfolio standards on the integrated wind–photovoltaic–thermal power-dispatching system: real case studies in China[J]. Energy, 2021, 222, 119927. DOI
19	汪鹏. 风光新能源发电商参与多市场耦合交易模型研究[D]. 北京: 华北电力大学(北京), 2023.
	WANG Peng. Research on the models of wind and photovoltaic power generation companies participating in multi-market coupled transaction[D]. Beijing: North China Electric Power University, 2023.
20	王泽森, 石岩, 唐艳梅, 等. 考虑LCA能源链与碳交易机制的综合能源系统低碳经济运行及能效分析[J]. 中国电机工程学报, 2019, 39 (6): 1614- 1626, 1858.
	WANG Zesen, SHI Yan, TANG Yanmei, et al. Low carbon economy operation and energy efficiency analysis of integrated energy systems considering LCA energy chain and carbon trading mechanism[J]. Proceedings of the CSEE, 2019, 39 (6): 1614- 1626, 1858.
21	中华人民共和国生态环境部. 企业温室气体排放核算与报告指南铝冶炼行业[EB/OL]. (2024-09-14) [2024-10-09]. https://www.mee.gov.cn/xxgk2018/xxgk/xxgk06/202403/t20240315_1068508.html.
22	中华人民共和国生态环境部. 《温室气体自愿减排交易管理办法(试行)》[EB/OL]. (2023-10-29) [2024-10-09]. https://www.mee.gov.cn/xxgk2018/xxgk/xxgk02/202310/t20231020_1043694.html.

基于多智能体强化学习的电-碳-绿证耦合市场下多市场主体行为研究

Multi-entity Behaviors in Electricity-Carbon-Green Certificate Coupled Markets Based on Multi-agent Reinforcement Learning

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基于多智能体强化学习的电-碳-绿证耦合市场下多市场主体行为研究

Multi-entity Behaviors in Electricity-Carbon-Green Certificate Coupled Markets Based on Multi-agent Reinforcement Learning

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