Investigation of energy storage and open cycle gas turbine for load frequency regulation

2014 49th International Universities Power Engineering Conference (UPEC) Pub Date : 2014-10-23 DOI:10.1109/UPEC.2014.6934664

Bo Lian, Dongmin Yu, Cheng Wang, S. Le Blond, R. Dunn

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引用次数: 10

Abstract

In power systems, load is continuously fluctuating and is difficult for slow generating units, such as coal-fired, nuclear and hydro power plants, to follow. Therefore, fast but expensive generation units like open cycle gas turbine (OCGT) are widely used to provide frequency regulation, maintaining system frequency within its specified limit. Owing to energy storage system (ESS)'s zero-net energy and fast response nature, one of the applications of ESS in power system is to provide frequency regulation. This paper proposes a method of sizing OCGTs and advanced lead-acid batteries to provide frequency regulation under different types of load following patterns. The rain-flow counting algorithm is used for battery lifetime modelling. The cost and savings from displacing OCGTs with ESS are calculated and discussed. It was concluded that the system load following ability is the key factor when considering whether ESS is cost effective when providing frequency regulation in a control area. The method of battery and OCGT rating presented in this paper is applicable to the situation when regulation load requirement is known or can be estimated.

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储能开式循环燃气轮机负荷调频研究

在电力系统中，负荷是持续波动的，对于慢速发电机组(如燃煤、核能和水力发电厂)来说，负荷很难跟上。因此，开式循环燃气轮机(OCGT)等快速但昂贵的发电机组被广泛用于提供频率调节，将系统频率保持在规定的范围内。由于储能系统的零净能量和快速响应特性，其在电力系统中的应用之一是提供频率调节。本文提出了一种调整ocgt和先进铅酸电池尺寸的方法，以提供不同类型负载下的频率调节。电池寿命建模采用雨流计数算法。计算和讨论了用ESS取代ocgt的成本和节省。在控制区域提供频率调节时，考虑ESS是否具有成本效益的关键因素是系统负载跟踪能力。本文提出的蓄电池和OCGT额定值方法适用于已知或可估计调节负荷需求的情况。

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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2014 49th International Universities Power Engineering Conference (UPEC)

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