Optimal coordination of Battery Energy Storages and Demand Response Programs with application to wind integration

2015 IEEE International Conference on Smart Energy Grid Engineering (SEGE) Pub Date : 2015-08-01 DOI:10.1109/SEGE.2015.7324594

E. Heydarian‐Forushani, M. Golshan, M. Shafie‐khah, J. Catalão

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引用次数: 6

Abstract

The introduction of Variable Renewable Energy Sources (VRESs) such as wind to the future power portfolio can have significant effects on raising the daily net load variations and consequently may cause more operation costs as well as inefficient operation of units, and even in the worst case put the system's security at risk. On this basis, the need for a greater flexibility is essential to ensure efficient operation of the power system with significant amount of VRESs. Under this perspective, this paper presents a coordinated dispatch model in energy and reserve markets taking into account the role of bulk Battery Energy Storages (BESs) as well as Demand Response Programs (DRPs) as most favorable options in order to achieve a greater flexibility based on a Network Constrained Unit Commitment (NCUC) model. Numerical studies indicate that the coordinated operation of the existing units and the new flexible technologies could provide this additional required flexibility with a reasonable cost.

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电池储能和需求响应方案与风电一体化应用的优化协调

在未来的电力组合中引入可变可再生能源(VRESs)，如风能，会对提高每日净负荷变化产生重大影响，从而可能导致更多的运行成本和机组的低效率运行，甚至在最坏的情况下，将系统的安全性置于危险之中。在此基础上，需要更大的灵活性，以确保具有大量VRESs的电力系统的有效运行是必不可少的。在此背景下，本文提出了一种基于网络约束单元承诺(NCUC)模型的能源和储备市场协调调度模型，该模型考虑了散装电池储能(BESs)和需求响应计划(DRPs)作为最有利的选择，以实现更大的灵活性。数值研究表明，现有机组与新型柔性技术的协同运行能够以合理的成本提供所需的额外灵活性。

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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2015 IEEE International Conference on Smart Energy Grid Engineering (SEGE)

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