Dump Load Allocation in Islanded Microgrid with Robust Backward\Forward Sweep and MIDACO

2022 57th International Universities Power Engineering Conference (UPEC) Pub Date : 2022-08-30 DOI:10.1109/UPEC55022.2022.9917779

Maen Z. Kreishan, A. Zobaa

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Abstract

Dump load (DL) allocation in droop-controlled islanded microgrid (DCIMG) is vital to consume excess generation at off-peak hours and provide voltage and frequency (V-f) support. Furthermore, convergence of load flow (LF) solution is necessary to determine optimal working points of any DCIMG. Proposed in this paper, two LF methods based on the famous backward/forward sweep (BFS): improved special BFS (SBFS-II) and general BFS (GBFS). The former method is based on global voltage variable spread among all distributed generation (DG), while the latter is more general by considering local voltage measurement at each DG. The multi-objective problem of DL allocation in highly penetrated DCIMG to minimize V-f deviations and power losses was investigated using the two LF methods combined with mixed-integer distributed ant colony optimization (MIDACO). The problem was applied to the IEEE-33 bus system, while solutions were subjected to various convergence tests. Results show SBFS-II and GBFS efficacy in calculation time and accuracy of the solution, respectively, for DL allocation problem in DCIMG.

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基于鲁棒后向/前向扫描和MIDACO的孤岛微电网转储负荷分配

在下垂控制的孤岛微电网(DCIMG)中，自卸负荷(DL)的分配对于消纳非高峰时段的多余发电以及提供电压和频率(V-f)支持至关重要。此外，确定任何DCIMG的最优工作点都需要潮流解的收敛性。本文在著名的前向/后向扫描(BFS)的基础上，提出了改进的特殊后向扫描(SBFS-II)和一般后向扫描(GBFS)两种后向扫描方法。前一种方法基于全局电压变量在所有分布式发电机组之间的分布，而后一种方法更一般，考虑每个分布式发电机组的局部电压测量。采用混合整数分布蚁群优化(MIDACO)和两种LF方法，研究了高度穿透DCIMG中以V-f偏差和功率损失最小为目标的DL分配问题。将该问题应用于IEEE-33总线系统，并对解决方案进行了各种收敛性测试。结果表明，sffs - ii和GBFS分别在求解DCIMG中DL分配问题的计算时间和解的准确性方面具有有效性。

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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2022 57th International Universities Power Engineering Conference (UPEC)

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