Cloud-based Optimal Energy Scheduling of Photovoltaics and Electric Vehicle-integrated Community Microgrids

2022 4th Global Power, Energy and Communication Conference (GPECOM) Pub Date : 2022-06-14 DOI:10.1109/gpecom55404.2022.9815629

M. Alparslan Zehir, Osman Tufan Dogan, Hakan Merdanoğlu, Ertan Yakıcı, Serhan Duran, Hayri Can Akyildirim

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Abstract

Community microgrid is one of the promising pathways to achieve higher levels of penetration of distributed generation from intermittent renewables and energy storage, further electrify heat and transport and enable active energy customers. Optimal energy scheduling of wide range and large number of flexible asset, using operational information from stakeholders (such dynamic pricing rates) and relying on customer preferences has been a processing power intensive major challenge. The inconsistencies between the common assumptions, simplifications in modeling, scenario determination and observations gained from field pilots require design and investigation of improved models and scenarios that can better represent reality. This study presents a cloud-based optimal energy scheduling approach for community microgrids with large penetration of photovoltaics and electric vehicle chargers. A case study for an urban energy community is explored highlighting the promising flexibility potential of EV charging coordination of wide range of car models and charger options.

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基于云的光伏电动车集成社区微电网能量调度优化

社区微电网是实现间歇性可再生能源和能源储存的分布式发电更高水平渗透的有希望的途径之一，进一步实现供热和运输电气化，并使主动能源客户成为可能。利用利益相关者的运营信息(如动态定价率)和依赖客户偏好对大范围、大量灵活资产进行最优能源调度一直是处理能力密集型的主要挑战。常见假设之间的不一致、模型的简化、情景确定和从实地试点获得的观察需要设计和调查改进的模型和情景，以更好地代表现实。本研究提出了一种基于云的社区微电网最优能源调度方法，该方法具有光伏和电动汽车充电器的大量渗透。以城市能源社区为例，探讨了多种车型和充电器选择的电动汽车充电协调的灵活性潜力。

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 4th Global Power, Energy and Communication Conference (GPECOM)

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