Coordinated Optimal Planning of Generation and Storage in Hybrid AC/DC Micro-grid

2019 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia) Pub Date : 2019-05-01 DOI:10.1109/ISGT-Asia.2019.8881688

Liang Ge, Chaoran Fu, M. Wu, Yutong Wang, Linkun Man

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引用次数: 1

Abstract

The hybrid AC/DC micro-grid that integrates AC and DC micro-grid, including a variety of distributed generation, energy storage devices, load, lead the trend of micro-grid. To improve the operation economic efficiency and acceptance of renewable energy source of the hybrid AC/DC micro-grid, it is necessary to configure battery energy storage system for distributed generation. In this paper, a mix integer optimization model of generation and storage is proposed for the hybrid AC/DC micro-grid to determine the optimal configuration of generation and storage. Taking the minimum cost of generation and storage investment as well as the minimum operation cost of power generation and purchase and sale of electricity, the dynamic characteristics of generators and storage devices are taken into consideration, and the power loss through AC/DC converter is taken into account. The model is solved as a mixed integer optimization based on Benders Decomposition algorithm. The numerical study shows that the optimal configuration of coordinated generation and storage can effectively save the investment cost of AC/DC hybrid micro-grid, which verifies the validity of the proposed model.

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交直流混合微电网发储协调优化规划

混合交直流微网是将交直流微网集成在一起，包括各种分布式发电、储能设备、负载等，引领着微网的发展趋势。为提高交直流混合微电网的运行经济性和可再生能源的可接受性，有必要配置电池储能系统进行分布式发电。为了确定交直流混合微电网的最优发储配置，提出了一种交直流混合微电网的发储混合整数优化模型。考虑发电和存储投资成本最小以及发电和购售电的运行成本最小，同时考虑发电机和存储设备的动态特性，并考虑交/直流变换器的功率损耗。基于Benders分解算法将模型求解为混合整数优化。数值研究表明，协调发电与存储的优化配置可以有效节省交直流混合微电网的投资成本，验证了所提模型的有效性。

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2019 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia)

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