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基于主动配电网灵活性支撑机制的电-碳-绿证分布式协同优化方法

CAI Muliang LAI Xinhui LI Yingzheng TIAN Ye YU Jie CHENG Minjun XU Yinliang LIN Chenhui

中国电力2026，Vol.59Issue(1)：10-19,10.

中国电力2026，Vol.59Issue(1)：10-19,10.DOI:10.11930/j.issn.1004-9649.202505069

基于主动配电网灵活性支撑机制的电-碳-绿证分布式协同优化方法

Power-carbon-green certificate distributed cooperative optimization method based on flexibility support mechanism of active distribution networks

CAI Muliang ¹LAI Xinhui ¹LI Yingzheng ¹TIAN Ye ²YU Jie ³CHENG Minjun ⁴XU Yinliang ²LIN Chenhui⁵

作者信息

1. Electric Power Research Institute,State Grid Jiangxi Electric Power Co.,Ltd.,Nanchang 330096,China
2. Tsinghua Shenzhen International Graduate School,Shenzhen 518000,China
3. State Grid Jiangxi Electric Power Co.,Ltd.,Nanchang 330096,China
4. Yingtan Power Supply Branch,State Grid Jiangxi Electric Power Co.,Ltd.,Yingtan 335000,China
5. Department of Electrical Engineering,Tsinghua University,Beijing 100084,China
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摘要

Abstract

The widespread integration of distributed renewable energy sources and virtual energy storage,such as electric vehicles,exacerbates the inherent uncertainty and low-inertia characteristics of power systems,thereby heightening frequency violation risks.Concurrently,the increasing flexibility and diversity of supply-demand dynamics within active distribution networks(ADNs)further complicate their interactions with transmission grids.To address these challenges,this paper proposes a novel power-carbon-green certificate distributed cooperative optimization framework based on the flexibility support mechanism of ADNs,with the objective of maximizing the utilization of distributed regulation resources and enhancing carbon reduction potential within integrated transmission-distribution(ITD)systems.Firstly,the dynamic frequency security constraints tailored to ITD systems and a flexibility support mechanism for ADNs based on interactive regulation modeling are established,forming a comprehensive ITD electricity-carbon-green certificate cooperation framework.To effectively address the uncertainty inherent in subsystems,joint chance constraints(JCCs)are employed to model the probabilistic nature of the problem.The Alternating direction of multipliers algorithm(ADMM)algorithm is adopted for the distributed cooperation of the transmission and distribution system.Case studies demonstrate the effectiveness of the proposed method in fully leveraging distributed resources and enhancing system frequency security.The framework also exhibits the ability to flexibly reflect the external support capacity or supported demand of ADNs.Compared to the transmission-grid independent dispatch model,the total operation cost is reduced by 13.42%,while renewable energy curtailment is decreased by 16.76%relative to the model that ignores multi-market coupling.These results demonstrate significant improvements in both the operational economy and low-carbon performance of the system.Furthermore,the proposed method achieves a reduction of approximately 98%in computational time compared to the traditional sample-average approximation(SAA)-based approach,thereby facilitating rapid distributed coordination within ITD systems.

关键词

输配协同调度/频率安全约束/电-碳-绿证耦合

Key words

integrated transmission and distribution dispatch/frequency security constraints/power-carbon-green certificate coupling

引用本文复制引用

CAI Muliang,LAI Xinhui,LI Yingzheng,TIAN Ye,YU Jie,CHENG Minjun,XU Yinliang,LIN Chenhui..基于主动配电网灵活性支撑机制的电-碳-绿证分布式协同优化方法[J].中国电力,2026,59(1):10-19,10.

基金项目

国家自然科学基金资助项目(52307101) （52307101）

2024年国网江西电力重点研究科技项目(521820240022). This work is supported by National Natural Science Foundation of China(No.52307101),Key research projects of science and technology of State Grid Jiangxi Electric Power in 2024(No.521820240022). （521820240022）

中国电力

ISSN：1004-9649

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