Dynamic participation in local energy communities with peer-to-peer trading.

Open research Europe Pub Date : 2024-10-18 eCollection Date: 2022-01-01 DOI:10.12688/openreseurope.14332.1
Theresia Perger, Hans Auer
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Abstract

Background: Energy communities and local electricity markets (e.g., as peer-to-peer trading) are on the rise due to increasingly decentralized electricity generation and favorable adjustment of the legal framework in many European countries.

Methods: This work applies a bi-level optimization model for dynamic participation in peer-to-peer electricity trading to determine the optimal parameters of new participants who want to join an energy community, based on the preferences of the members of the original community (e.g., environmental, economic, or mixed preference). The upper-level problem chooses optimal parameters by minimizing an objective function that includes the prosumers' cost-saving and emission-saving preferences, while the lower level problem maximizes community welfare by optimally allocating locally generated photovoltaic (PV) electricity between members according to their willingness-to-pay. The bi-level problem is solved by transforming the lower level problem by its corresponding Karush-Kuhn-Tucker (KKT) conditions.

Results: The results demonstrate that environment-oriented prosumers opt for a new prosumer with high PV capacities installed and low electricity demand, whereas profit-oriented prosumers prefer a new member with high demand but no PV system capacity, presenting a new source of income. Sensitivity analyses indicate that new prosumers' willingness-to-pay has an important influence when the community must decide between two new members.

Conclusions: The added value of this work is that the proposed method can be seen as a basis for a selection process between a large number of potential new community members. Most important future work will include optimization of energy communities over the horizon several years.

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通过点对点交易动态参与地方能源社区。
背景:由于发电日益分散以及许多欧洲国家对法律框架进行了有利调整,能源社区和本地电力市场(如点对点交易)正在兴起:这项工作应用了一个动态参与点对点电力交易的双层优化模型,根据原社区成员的偏好(如环境、经济或混合偏好),确定希望加入能源社区的新参与者的最优参数。上层问题通过最小化目标函数来选择最优参数,该目标函数包括原消费者的成本节约和排放节约偏好,而下层问题则通过根据成员的支付意愿在成员之间优化分配本地产生的光伏(PV)电力来最大化社区福利。通过相应的 Karush-Kuhn-Tucker(KKT)条件转换低层次问题,可解决双层问题:结果表明,以环境为导向的消费者会选择光伏发电量高而电力需求低的新消费者,而以利润为导向的消费者则会选择需求高但没有光伏发电系统容量的新成员,这就为他们提供了新的收入来源。敏感性分析表明,当社区必须在两个新成员之间做出决定时,新用户的支付意愿具有重要影响:这项工作的附加值在于,所提出的方法可被视为在大量潜在新社区成员之间进行选择的基础。未来最重要的工作将包括在几年内优化能源社区。
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