Roles of Pumped Hydro Storages in Optimal Scheduling of Future Taiwan Power System with Highly Penetrated Renewable Energy Resources

2020 IEEE Industry Applications Society Annual Meeting Pub Date : 2020-10-10 DOI:10.1109/IAS44978.2020.9334734

Heng-Yi Su, Jian-Hong Liu, C. Chu, Sheng-Huei Lee, Yingyi Hong, Yu-Jen Lin

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引用次数: 2

Abstract

Recently, Taiwanese government has announced an ambitious energy policy: up to 20 percent of total power will be generated from renewable energy resources by 2025. However, under such high-level penetration level of renewable energy resources (RER), the typical net load curve will be definitely reshaped as the duck curve and increase more challenges in power system operations. Due to the fast response and the larger capacity installation, the pumped hydro storages (PHS), which have better flexibility to provide the effective frequency regulating reserve to fast and efficiently support any electricity gaps caused by the loss of generators, has demonstrated as an efficient solution to tackle out this challenging task. In this paper, the optimal scheduling of future Taiwan power system (TPS) with highly penetrated RER and two pumped hydro storage plants is simulated by using the MATPOWER optimal scheduling tool MOST. Scenario studies under various penetration level of RER and different load levels are conducted. These scenario studies indicate the existing PHS in TPS can contribute the generator scheduling of future TPS under highly penetrated RER even under the net load curve with the duck curve.

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抽水蓄能在可再生能源高度渗透的未来台湾电力系统优化调度中的作用

最近，台湾政府宣布了一项雄心勃勃的能源政策:到2025年，可再生能源将占总电力的20%。然而，在可再生能源如此高的渗透率水平下，典型的净负荷曲线必将被重塑为鸭子曲线，给电力系统运行带来更多挑战。由于响应速度快，装机容量大，抽水蓄能系统具有更好的灵活性，可以提供有效的调频储备，快速有效地弥补发电机损失造成的电力缺口，是解决这一挑战的有效解决方案。本文利用MATPOWER最优调度工具MOST，对具有高渗透RER和两座抽水蓄能电站的未来台湾电力系统(TPS)进行了最优调度仿真。进行了不同RER侵彻水平和不同荷载水平下的情景研究。这些情景研究表明，在高渗透RER条件下，即使是在净负荷曲线为duck曲线的情况下，TPS中的现有PHS也可以为未来TPS的发电机组调度做出贡献。

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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2020 IEEE Industry Applications Society Annual Meeting

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