Two-level Scheduling Optimization of Multi-microgrids Operation in Smart Distribution Networks

2020 International Conference and Exposition on Electrical And Power Engineering (EPE) Pub Date : 2020-10-22 DOI:10.1109/EPE50722.2020.9305614

I. Picioroagă, A. Tudose, Dorian O. Sidea, C. Bulac, M. Eremia

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引用次数: 2

Abstract

Electric distribution systems are currently undergoing a transition from passive entities to smart infrastructures, thanks to the advances in communication and automation technologies. However, the integration of new concepts in distribution networks, such as microgrids, distributed generation, energy storage etc., introduces various challenges regarding the energy management procedures. This paper proposes an optimal coordination model of multiple microgrids in smart distribution networks, based on a two-level optimization scheme. The upper-level of the proposed model optimizes the distribution network operation, while the economic dispatch is calculated in each microgrid in the lower-level of the methodology. Two scheduling modes are analyzed for the microgrids operation: independent grid-connected scheduling and coordinated scheduling mode. The influence of the microgrids scheduling on the distribution network operation is investigated using the test IEEE 33-bus system, modified with three microgrids, each including loads, controllable generators, renewable sources, and energy storage systems.

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智能配电网中多微网运行的两级调度优化

由于通信和自动化技术的进步，配电系统目前正在经历从被动实体向智能基础设施的转变。然而，配电网中新概念的整合，如微电网、分布式发电、储能等，给能源管理程序带来了各种挑战。基于两级优化方案，提出了智能配电网中多个微电网的最优协调模型。该模型的上层是对配电网运行进行优化，下层是对每个微电网的经济调度进行计算。分析了微电网运行的两种调度模式:独立并网调度和协调调度模式。利用IEEE 33总线测试系统，研究了微电网调度对配电网运行的影响，该系统由三个微电网组成，每个微电网包括负载、可控发电机、可再生能源和储能系统。

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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2020 International Conference and Exposition on Electrical And Power Engineering (EPE)

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