Frequency waves, Grid Friendly Appliances and geographic limits in a smart grid

2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply Pub Date : 2010-11-04 DOI:10.1109/CITRES.2010.5619807

Yanyan Li, M. Olama, J. Nutaro

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引用次数: 4

Abstract

Grid Friendly Appliances (GFAs) are water heaters, refrigerators, and other domestic electrical appliances that sense and respond to frequency problems in the electric power grid. The controller in a GFA monitors the power signal at its plug and turns the device off when the frequency drops below 59.95 Hz. When the frequency recovers its nominal value of 60 Hz, the device is turned back on. Large numbers of these devices can act as a distributed control system that improves the resilience of the power system as a whole to sudden, large, and unexpected mismatches in supply and demand. Recently, it has been shown that the frequency signal acted on by GFAs moves at a relatively slow pace of about 500 miles per second, thereby introducing a previously unaccounted for delay into this distributed control system. In this paper, we use a simple, linear model to demonstrate that this propagation delay imposes a limit on the geographic extent of the distributed control system: if this limit is violated, then the controllers can cause instability and, potentially, precipitate a blackout.

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智能电网中的频率波、电网友好设备和地理限制

电网友好型家电(gfa)是指热水器、冰箱和其他家用电器，它们可以感知并响应电网中的频率问题。GFA中的控制器监测插头的电源信号，当频率低于59.95 Hz时关闭设备。当频率恢复到标称值60hz时，设备重新开机。大量的这些设备可以作为一个分布式控制系统，提高电力系统作为一个整体对突然的、大的、意外的供需不匹配的弹性。最近，有研究表明，由gfa作用的频率信号以相对较慢的速度移动，约为每秒500英里，从而在这种分布式控制系统中引入了以前无法解释的延迟。在本文中，我们使用一个简单的线性模型来证明这种传播延迟对分布式控制系统的地理范围施加了限制:如果违反了这个限制，那么控制器可能会导致不稳定，并可能导致停电。

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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2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply

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