Investigation of an optimized energy resource allocation algorithm for a community based virtual power plant

O. Okpako, H. Rajamani, P. Pillai, Ugonna Anuebunwa, K. Swarup
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引用次数: 7

Abstract

Recently, significant advances in renewable energy generation have made it possible to consider consumers as prosumers. However, with increase in embedded generation, storage of electrical energy in batteries, flywheels and supercapacitors has become important so as to better utilize the existing grid by helping smooth the peaks and troughs of renewable electricity generation, and also of demand. This has led to the possibility of controlling the times when stored energy from these storage units is fed back to the grid. In this paper we look at how energy resource sharing is achieved if these storage units are part of a virtual power plant. In a virtual power plant, these storage units become energy resources that need to be optimally scheduled over time so as to benefit both prosumer and the grid supplier. In this paper, a smart energy resources allocation algorithm is presented for a virtual power plants using genetic algorithms. It is also proposed that the cause of battery depreciation be accounted for in the allocation of discharge rates. The algorithm was tested under various pricing scenarios, depreciation cost, as well as constraint. The results are presented and discussed. Conclusions were drawn, and suggestion for further work was made.
基于社区的虚拟电厂优化能源分配算法研究
最近,可再生能源发电的重大进展使得将消费者视为产消者成为可能。然而,随着嵌入式发电的增加,将电能存储在电池、飞轮和超级电容器中变得很重要,以便通过帮助平滑可再生能源发电的高峰和低谷来更好地利用现有电网,并满足需求。这使得控制从这些存储单元存储的能量反馈到电网的时间成为可能。在本文中,我们着眼于如何实现能源资源共享,如果这些存储单元是一个虚拟电厂的一部分。在虚拟发电厂中,这些存储单元成为能源资源,需要随着时间的推移进行优化调度,以使产消者和电网供应商都受益。提出了一种基于遗传算法的虚拟电厂智能能源分配算法。还建议在分配放电率时考虑电池折旧的原因。该算法在各种定价方案、折旧成本和约束条件下进行了测试。给出了实验结果并进行了讨论。会议得出了结论,并对今后的工作提出了建议。
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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