Optimal battery charging in smart grids with price forecasts

2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT) Pub Date : 2017-04-01 DOI:10.1109/ISGT.2017.8086070

Sven van der Kooij, P. Kempker, H. V. D. Berg, S. Bhulai

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引用次数: 1

Abstract

In this paper, we consider a residential cluster in which some of the households own home batteries. The battery owners have forecasts of future prices for optimally utilizing the long-term flexibility of the battery. These forecasts become increasingly uncertain the further we look into the future. The home batteries are individually too small to influence prices, collectively however, they have enough capacity to have an influence. We study three possible scenarios: (i) Each household controls its own battery to maximize its own profits; (ii) The battery owners coordinate their strategies to maximize the collective battery profits; (iii) The battery owners coordinate their strategies to maximize the overall cluster profits. For (i) we formulate an algorithm for a single price taker battery based on Stochastic Dynamic Programming. Through simulation with realistic data we find that this solution performs well for one isolated home battery and remains stable when used by every battery in the cluster. Additionally, we formulate an algorithm based on Stochastic Dynamic Programming for scenarios (ii) and (iii). Using simulation with realistic data we find that scenarios (ii) and (iii) outperform scenario (i), and that from a cluster perspective, scenario (iii) is more beneficial than scenario (ii). We conclude that incentives have to be put in place to promote the right use of storage in the future grid.

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具有价格预测的智能电网中最优电池充电

在本文中，我们考虑一个住宅集群，其中一些家庭拥有家用电池。电池所有者对未来价格进行了预测，以最佳地利用电池的长期灵活性。随着我们进一步展望未来，这些预测变得越来越不确定。单个家用电池太小，无法影响价格，但是，它们有足够的容量来影响价格。我们研究了三种可能的情景:(i)每个家庭控制自己的电池以最大化自己的利润;(ii)电池所有者协调策略，使集体电池利润最大化;(iii)电池所有者协调策略，使集群整体利润最大化。对于(1)，我们提出了基于随机动态规划的单个价格接受者电池的算法。通过对实际数据的仿真，我们发现该方案对于单个孤立的家用电池具有良好的性能，并且在集群中的每个电池使用时都保持稳定。此外，我们为情景(ii)和(iii)制定了一种基于随机动态规划的算法。通过对现实数据的模拟，我们发现情景(ii)和(iii)优于情景(i)，并且从集群的角度来看，情景(iii)比情景(ii)更有益。我们得出结论，必须采取激励措施来促进未来电网中存储的正确使用。

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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2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

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