An Investigation of Parametric Load Leveling Control Methodologies for Resistive Heaters in Smart Grids

2014 Sixth Annual IEEE Green Technologies Conference Pub Date : 2014-04-03 DOI:10.1109/GREENTECH.2014.15

Lee Holland, H. Karayaka, Martin L. Tanaka, Aaron Ball

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引用次数: 4

Abstract

The main goal in this study is to demonstrate that load levelling with demand side management in smart grids can be achieved to reduce peak power consumption while maintaining residential room temperatures at a comfortable level. A prototype enclosure was built and equipped with a heater and thermal measuring equipment. Data was collected during a 17 hour temperature regulation experiment using a traditional on-off (bang-bang) controller similar to those commonly used for residential heating control. A second order mathematical model was utilized to estimate the net thermal resistances and capacitances using system identification techniques at two different temperature set points. The enclosure system was used to determine if peak power could be reduced by slowly varying loads utilizing a different type of controller. Two different linear control techniques (using K-Factor and PI approaches) and the associated power electronics circuitry were implemented and tuned. Both controller systems successfully leveled the load and reduced the peak power demand.

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智能电网电阻加热器参数化负荷均衡控制方法研究

本研究的主要目标是证明智能电网中需求侧管理的负载均衡可以实现，以减少峰值电力消耗，同时将住宅房间温度保持在舒适的水平。建造了一个原型外壳，并配备了加热器和热测量设备。数据是在一个17小时的温度调节实验中收集的，使用传统的开关(砰砰)控制器，类似于那些常用的住宅供暖控制。利用二阶数学模型，利用系统辨识技术估计了两个不同温度设定点下的净热阻和净热容。箱体系统用于确定是否可以通过使用不同类型的控制器缓慢变化负载来降低峰值功率。两种不同的线性控制技术(使用k因子和PI方法)和相关的电力电子电路被实现和调谐。两个控制器系统都成功地平衡了负载并降低了峰值功率需求。

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 Sixth Annual IEEE Green Technologies Conference

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