Optimal scheduling of distributed energy resources by modern heuristic optimization technique

2017 19th International Conference on Intelligent System Application to Power Systems (ISAP) Pub Date : 2017-09-01 DOI:10.1109/ISAP.2017.8071407

Wenlei Bai, I. Eke, Kwang.Y. Lee

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引用次数: 6

Abstract

The increasing number and types of energy resources and prosumers has complicated the operation in microgrid greatly. Such problem becomes a hard-to-solve or even impossible-to-solve for traditional mathematical algorithms without necessary approximation. However, modern heuristic optimization techniques have proven their efficiency and robustness in complex non-linear, non-convex and large-size problems. In this paper, we propose a comprehensive microgrid which consists of renewables, distributed generators, demand response, marketplace, energy storage system and prosumers, and investigate the behaviors of such system. A novel heuristic method, artificial bee colony, is proposed to solve the day-ahead optimal scheduling of the microgrid. Case studies have shown that such algorithm is able to solve the problem fast, reliable with satisfactory solutions. For the first case, the computational time is 9 minutes compared with 19 hours by a traditional methodical tool which has not taken necessary approximation of the original problem.

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基于现代启发式优化技术的分布式能源优化调度

能源资源和生产消费者的数量和类型的不断增加，大大增加了微电网的运行复杂性。对于传统的数学算法来说，如果没有必要的近似，这类问题就难以解决，甚至无法解决。然而，现代启发式优化技术已经在复杂的非线性、非凸和大规模问题中证明了其有效性和鲁棒性。本文提出了一个由可再生能源、分布式发电机、需求响应、市场、储能系统和产消者组成的综合微电网，并研究了该系统的行为。提出了一种求解微电网日前最优调度问题的启发式人工蜂群算法。实例研究表明，该算法能够快速、可靠地求解问题，求解结果令人满意。对于第一种情况，计算时间为9分钟，而传统的方法工具没有对原始问题进行必要的近似，计算时间为19小时。

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2017 19th International Conference on Intelligent System Application to Power Systems (ISAP)

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