更大范围的能源共享：面向大规模产消者的双层能源共享方案

IF 10.1 1区工程技术 Q1 ENERGY & FUELS

Applied Energy Pub Date : 2025-04-30 DOI:10.1016/j.apenergy.2025.125968

Yifan Su , Peng Yang , Kai Kang , Zhaojian Wang , Ning Qi , Tonghua Liu , Feng Liu

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引用次数: 0

摘要

分布式能源的普及将终端用户从消费者转变为产消者。受共享经济原则的启发，提出了面向产消者的能源共享市场，以促进可再生能源的利用。本文提出了一种面向大规模生产消费者的新型双层能源共享市场，通过更大范围的共享来提高社会效率。在这个市场中，既有配电系统中的上层能源共享市场（U-ESM），也有地方社区中众多的下层能源共享市场（l - esm）。同一社区的产消者在L-ESM中彼此共享能源，这可以是不清的。l - esm的能量过剩和短缺在U-ESM中得到解决。由于更大范围的双层结构，市场结果在大规模系统中接近社会最优。然而，所提出的市场形成了一个复杂的具有均衡约束（MPEC）的数学规划。为了解决这一问题，我们提出了一种高效的分层分布式竞价算法。本文提出的双层市场和竞价算法在IEEE 123总线系统上进行了验证，验证了该算法在大规模市场中的实用性和有效性。

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Sharing energy in wider area: A two-layer energy sharing scheme for massive prosumers

The popularization of distributed energy resources transforms end-users from consumers into prosumers. Inspired by the sharing economy principle, energy sharing markets for prosumers are proposed to facilitate the utilization of renewable energy. This paper proposes a novel two-layer energy sharing market for massive prosumers, which can promote social efficiency by wider-area sharing. In this market, there is an upper-layer energy sharing market (U-ESM) in the distribution system and numerous lower-layer energy sharing markets (L-ESMs) in local communities. Prosumers in the same community share energy with each other in the L-ESM, which can be uncleared. The energy surplus and shortage of L-ESMs are cleared in the U-ESM. Thanks to the wider-area two-layer structure, the market outcome is near-social-optimal in large-scale systems. However, the proposed market forms a complex mathematical program with equilibrium constraints (MPEC). To solve the problem, we propose an efficient and hierarchically distributed bidding algorithm. The proposed two-layer market and bidding algorithm are verified on the IEEE 123-bus system with 11,250 prosumers, which demonstrates the practicality and efficiency for large-scale markets.

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来源期刊

Applied Energy 工程技术-工程：化工

CiteScore

21.20

自引率

10.70%

发文量

1830

审稿时长

41 days

期刊介绍： Applied Energy serves as a platform for sharing innovations, research, development, and demonstrations in energy conversion, conservation, and sustainable energy systems. The journal covers topics such as optimal energy resource use, environmental pollutant mitigation, and energy process analysis. It welcomes original papers, review articles, technical notes, and letters to the editor. Authors are encouraged to submit manuscripts that bridge the gap between research, development, and implementation. The journal addresses a wide spectrum of topics, including fossil and renewable energy technologies, energy economics, and environmental impacts. Applied Energy also explores modeling and forecasting, conservation strategies, and the social and economic implications of energy policies, including climate change mitigation. It is complemented by the open-access journal Advances in Applied Energy.