The role of energy storage in transmission and distribution efficiency

PES T&D 2012 Pub Date : 2012-05-07 DOI:10.1109/TDC.2012.6281537

W. Jewell, Zhouxing Hu

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引用次数: 23

Abstract

Energy storage systems that are properly placed on the transmission system can be used to relieve transmission congestion. Similarly, storage on distribution can be used to reduce peak loads. The reduction in currents produced by congestion relief and peak reduction may also result in a decrease in line losses. Further efficiency improvements could be realized by optimizing the placement and scheduling of energy storage for loss reduction and efficiency improvement. The efficiency of the storage systems themselves, however, may limit their use in loss reduction or system efficiency improvement. Typical round-trip efficiencies for bulk storage systems are 70-85% for pumped hydro and 70-90% for electrochemical batteries. Comparing this with North American transmission and distribution efficiencies that usually exceed 90%, the case for using storage to improve overall efficiency may be difficult to make. This presentation will examine the issues, comparing storage efficiencies with transmission and distribution efficiencies. It will examine selected cases to address the feasibility of optimizing the placement and scheduling of energy storage to improve system efficiency and reduce greenhouse gas emissions. Efficiency improvement will then be discussed in the context of the other potential benefits and costs of storage.

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储能在输配电效率中的作用

在输电系统上适当放置储能系统，可以缓解输电系统的拥塞。类似地，配电上的存储可以用来降低峰值负荷。阻塞缓解和峰值降低所产生的电流的减少也可能导致线路损耗的减少。通过优化储能的布局和调度，进一步提高效率，减少损耗，提高效率。然而，存储系统本身的效率可能会限制它们在减少损耗或提高系统效率方面的使用。抽水蓄能系统的典型往返效率为70-85%，电化学电池的典型往返效率为70-90%。与北美通常超过90%的输电和配电效率相比，使用存储来提高整体效率的案例可能很难实现。本报告将研究这些问题，比较存储效率与传输和分配效率。它将研究选定的案例，以解决优化储能布局和调度的可行性，以提高系统效率并减少温室气体排放。然后将在存储的其他潜在收益和成本的背景下讨论效率的提高。

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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PES T&D 2012

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