柔性机制在输电系统区域停电规划中的应用

2022 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe) Pub Date : 2022-10-10 DOI:10.1109/ISGT-Europe54678.2022.9960321

Suvi Peltoketo, A. Kuusela, Antti-Juhani Nikkila, Tuomo Mäkihannu, T. Rauhala

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引用次数: 2

摘要

能源转型对输电系统业务规划中使用的方法提出了挑战，并增加了更广泛和协调地使用灵活性机制的需要。本文介绍了如何在输电系统的停电计划中利用不同类型的灵活性机制来减轻计划停电期间N-1应急条件的影响，并减少预防性削减的需要。本文提出的柔性机制侧重于解决突发事件后由于网格组件热过载而引起的区域和局部网格拥塞问题。所分析的柔性机制可分为两类:技术性柔性机制和市场化柔性机制。分析了影响柔性机构可行性的因素。本文讨论了如何结合不同类型的灵活性机制来解决区域电网拥堵问题，考虑到电网组件的短期和长期热额值是市场灵活性的推动者。

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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Utilization of Flexibility Mechanisms in Regional Outage Planning of Transmission Systems

Energy transition challenges the methods used in the operational planning of transmission systems and increases the need for more extensive and coordinated use of flexibility mechanisms. This paper presents how different types of flexibility mechanisms can be utilized in the outage planning of transmission systems to mitigate the impacts of N–1 contingency condition during a planned outage and to reduce the need for preventive curtailment. The flexibility mechanisms presented in this paper focus on solving regional and local grid congestions caused by thermal overloading of grid components after a contingency. The analyzed flexibility mechanisms can be divided into two categories: technical and market-based flexibility mechanisms. Factors affecting the feasibility of the analyzed flexibility mechanisms are identified in this paper. The paper discusses how different types of flexibility mechanisms can be combined to solve regional grid congestions considering the short- and long-term thermal ratings of grid components as an enabler of market-based flexibility.

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来源期刊

2022 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)

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