An algorithm for micro-load shedding in generation constrained electricity distribution network

J. Azasoo, Eric Kuada, K. Boateng, Michael Opoku Agyeman
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引用次数: 4

Abstract

Adequate generation capacity to meet the increasing demand of electricity has remained the main focus of both developed and developing economies. In order to maintain the safety of generation and distribution systems, constant load shedding is employed to maintain equilibrium between overall generation and total demand per unit period. This paper proposes a distribution management algorithm to micro-load manage the load shedding process by considering households and all electricity based devices as unique loads that can be individually managed. Consequently, the proposed algorithm prevents total blackout in communities affected by the load shedding. Experiments were conducted on a simulation environment made up of over a 25 households each equipped with a smart meter, and loads of varied quantity and types. The results obtained from the experiment show that our proposed micro-load management algorithm is effective for micro-load managing demands in near real time.
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发电约束配电网微减载算法
充分的发电能力以满足日益增长的电力需求仍然是发达经济体和发展中经济体的主要重点。为了保证发电和配电系统的安全运行,采用恒载减载的方法来保持单位时段总发电量和总需求之间的平衡。本文提出了一种分配管理算法,将家庭和所有用电设备视为可单独管理的唯一负荷,对减载过程进行微负荷管理。因此,该算法可防止受减载影响的社区完全停电。实验是在一个模拟环境中进行的,该环境由超过25个家庭组成,每个家庭都配备了智能电表,并装载了不同数量和类型的负载。实验结果表明,本文提出的微负荷管理算法能够有效地实现近实时的微负荷管理需求。
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