Measuring the hydroelectric regularization capacity of the Brazilian hydrothermal system

IEEE PES General Meeting Pub Date : 2010-07-25 DOI:10.1109/PES.2010.5589738

B. Bezerra, L. Barroso, Marcelle Brito, F. Porrúa, B. Flach, M. Pereira

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引用次数: 14

Abstract

The storage capacity (or “regularization capacity”) of a hydro system refers essentially to its capability of transferring excess inflow energy from wet to dry seasons. The Brazilian hydro power system is formed by hundreds of reservoirs capable of multi-year storage capacity. Historically, this has been measured in the Brazilian Power System in terms of the duration of the critical period, which in turn is obtained from optimization models that calculate the firm energy (FE) of hydroelectric systems. These models, however, only represent the hydroelectric system explicitly and do not take into account the synergy between hydro and thermal plants. This synergy can be an important aspect in defining the storage capacity of the hydrothermal system. The objective of this article is: (i) to define a methodology for measuring the regularization capacity of a generation system; (ii) to analyze by this measure the current regularization capacity of the Brazilian system; and (iii) to analyze the impact of the development of large-scale run-of-the-river hydro plants that are in the pipeline to start commissioning in the next years.

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巴西热液系统水电正则化能力的测定

水力系统的蓄能能力(或“正则化能力”)本质上是指其将多余的流入能量从雨季转移到旱季的能力。巴西水力发电系统由数百个具有多年储存能力的水库组成。历史上，这在巴西电力系统中是根据关键时期的持续时间来衡量的，而关键时期的持续时间又从计算水力发电系统的稳定能量(FE)的优化模型中得到。然而，这些模型只是明确地表示水力发电系统，而没有考虑水力发电厂和火力发电厂之间的协同作用。这种协同作用可以是确定热液系统储存能力的一个重要方面。本文的目的是:(i)定义一种测量发电系统正则化能力的方法;通过这一措施分析巴西制度目前的正规化能力;(三)分析未来几年内即将投产的大型顺流水电站发展的影响。

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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IEEE PES General Meeting

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