Simulating energy management strategies for microgrids with smart meter demand management

J. Thornburg, B. Krogh
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引用次数: 9

Abstract

This paper considers the simulation of microgrids with smart meters that make it possible to control the demand at individual consumer buildings. To create effective system-level models for simulation studies of energy management strategies, probability distributions for the aggregate demand of all system loads are computed from probability distributions for the individual loads of each consumer. These models of the aggregate load behavior are then used in a simulation model that includes the generation and storage components of the system to perform Monte Carlo simulation studies. The paper describes the design of components in a Simulink model of the microgrid system. It then presents the results of a case study for a typical application, a microgrid in rural East Africa. The case study demonstrates how smart meters able to control residential demand make it possible to reduce the occurrence and duration of power cuts when the total system demand exceeds the total available power from generators. The average amount of power from renewable vs. non-renewable sources is also computed. The concluding section identifies several directions for future research.
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基于智能电表需求管理的微电网能源管理策略模拟
本文考虑了用智能电表模拟微电网,使控制个人消费建筑的需求成为可能。为了为能源管理策略的模拟研究创建有效的系统级模型,所有系统负载的总需求的概率分布是由每个消费者的单个负载的概率分布计算出来的。这些总负荷行为的模型然后用于模拟模型,该模型包括系统的生成和存储组件,以执行蒙特卡罗模拟研究。本文介绍了微电网系统的Simulink模型中各部件的设计。然后介绍了一个典型应用的案例研究结果,即东非农村的微电网。该案例研究展示了智能电表如何能够控制住宅需求,从而在系统总需求超过发电机总可用功率时减少停电的发生和持续时间。还计算了可再生能源和不可再生能源的平均发电量。结论部分确定了未来研究的几个方向。
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