D. Gazzana, G. D. Ferreira, A. Bretas, R. A. Silva, A. Bettiol, A. Carniato, Luis F. Do N. Passos, R. Homma, F. H. Molina
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引用次数: 3
摘要
本文建立了配电系统恢复的多目标优化显式模型。该方法的主要目标是确定要操作的机动设备的组合,以便在故障后恢复供应的客户数量最大化,并最大限度地减少过程所需的时间。提出的公式考虑了具有任意操作时间的设备,允许表示自动和手动操作开关以及它们对停机时间的影响。在该方法中,配电系统的供电恢复被表述为一个混合整数线性规划模型。该方法在实际配电系统中得到了验证。它正在“SIRIs平台”(智能电网模拟器)的一个计算模块中实施,该平台目前由NEO DOMINO和UFRGS在巴西CELESC distribui o s.a.支持的一个研究项目中开发。
Multi-objective optimization model for distribution systems restoration
This paper presents the development of a multi-objective optimization explicit model for distribution systems restoration. The main goal of the methodology is to determine the combination of maneuvers devices to be operated in order to maximize the number of customers with restored supply in the post-fault period and to minimize the time required by the process. The proposed formulation considers devices with arbitrary operation times, allowing the representation of automatic and manual maneuvers switches as well as, their effects on the duration of outages. In the proposed methodology, the supply restoration of distribution systems is formulated as a Mixed-Integer Linear Programming model. The proposed methodology was validated using a real distribution system. It is being implemented in one of the computational modules of the “SIRIs Platform” (Smart Grid Simulator), currently under development by NEO DOMINO and UFRGS in a research project supported by CELESC Distribuição S.A., Brazil.
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