Probabilistic optimal power dispatch in multi-microgrids using heuristic algorithms

2014 Smart Grid Conference (SGC) Pub Date : 2014-12-01 DOI:10.1109/SGC.2014.7151035

N. Nikmehr, S. Najafi-Ravadanegh

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引用次数: 13

Abstract

Future distribution networks consist of some Micro grids (MGs) or Small Scale Energy Zones (SSEZs). In this paper the economic operation of SSEZs is formulated and solved as an optimization problem. A probabilistic model for Small Scale Energy Resources (SSERs) and load demand is used at each SSEZs to determine the optimal scheduling of microgrids with minimum operating cost. The power transaction between MGs and between MGs and the main is regulated based on the total operating cost and regarding the sold or purchase power either by microgrids or by main grid. The stochastically analysis of generated power with SSERs and their corresponding costs is determined considering optimization constraints and explained as PDF and CDF. The Imperialist Competitive Algorithm (ICA) and Particle Swarm Optimization (PSO) algorithm are applied to comparative study of the results as optimization algorithms. Based on the results, it is possible to determine the power demand and transaction between each SSEZs and the main grid. Besides, the results confirm that the power sharing between microgrids and main grid can decrease the operating cost of the smart distribution grids.

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基于启发式算法的多微电网概率最优电力调度

未来的配电网由微电网(MGs)或小规模能源区(SSEZs)组成。本文将经济特区的经济运行表述为一个优化问题。利用小尺度能源和负荷需求的概率模型，确定微电网运行成本最小的最优调度方案。微电网与主电网之间、主电网与主电网之间的电力交易是根据总运营成本以及微电网或主电网出售或购买的电力进行调节的。考虑优化约束，确定SSERs发电功率及其成本的随机分析，并将其解释为PDF和CDF。将帝国主义竞争算法(ICA)和粒子群优化算法(PSO)作为优化算法对结果进行比较研究。根据计算结果，可以确定各区域经济特区与主电网之间的电力需求和交易情况。此外，研究结果还证实了微电网与主电网之间的电力共享可以降低智能配电网的运行成本。

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 Smart Grid Conference (SGC)

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