Robust Energy Management for a Microgrid

2022 IEEE 7th International Energy Conference (ENERGYCON) Pub Date : 2022-05-09 DOI:10.1109/energycon53164.2022.9830301

J. Hönen, J. Hurink, B. Zwart

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引用次数: 3

Abstract

Due to the increasing penetration of photovoltaic (PV) systems, electric vehicles (EV) and other smart devices on a household level, the role of consumers changes from pure consumption to production and storage of electricity. These prosumers will also directly participate in future electricity markets. To compensate for the small scale and the fluctuations in their demand and production, one promising approach for prosumers is to form small energy communities or microgrids, and participate in the electricity markets as one entity. A challenge for these microgrids is to find an optimal energy management strategy, mainly due to the uncertainty in electricity prices, in PV generation as Well as in the prosumer loads. To integrate this uncertainty into the planning, an adaptive robust optimization approach using linear decision rules is proposed in this paper. The linear decision rules allow for a delayed determination of some of the decisions and can therefore adapt to realizations of the uncertainty. Three different uncertainty scenarios are used to evaluate and compare the proposed approach in a case study and to get more structural insights into the efficiency of the approach.

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微电网的稳健能源管理

由于光伏(PV)系统、电动汽车(EV)和其他智能设备在家庭层面的日益普及，消费者的角色从单纯的电力消费转变为电力的生产和储存。这些产消者也将直接参与未来的电力市场。为弥补规模小及其需求和生产的波动，产消者的一个有希望的办法是组成小型能源社区或微电网，并作为一个实体参与电力市场。这些微电网面临的一个挑战是找到一个最佳的能源管理策略，主要是由于电价的不确定性，光伏发电以及产消负荷。为了将这种不确定性整合到规划中，本文提出了一种基于线性决策规则的自适应鲁棒优化方法。线性决策规则允许某些决策的延迟确定，因此可以适应不确定性的实现。在一个案例研究中，使用了三种不同的不确定性情景来评估和比较所提出的方法，并对该方法的效率有更多的结构性见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 7th International Energy Conference (ENERGYCON)

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