一种基于模型预测控制的电压和频率调节，通过孤立微电网的分布式发电:第二部分模型预测控制器的实现

2022 IEEE/IAS 58th Industrial and Commercial Power Systems Technical Conference (I&CPS) Pub Date : 2022-05-02 DOI:10.1109/ICPS54075.2022.9773851

Md. Nasmus Sakib Khan Shabbir, Xiaodong Liang, Weixin Li, S. Imtiaz, J. Quaicoe

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引用次数: 1

摘要

为了实现偏远孤岛微电网的运行自动化，本文第2部分提出了一种基于模型预测控制(MPC)的分布式发电(DG)控制器。第二部分实现了本文第一部分中开发的数据驱动预测模型，实现了MPC控制器。所提出的MPC控制器不包含任何可调系数，在各种操作条件下可能是敏感的。基于卡尔曼滤波的状态观测器在不同的运行条件下更新系统模型。利用KWIK优化器求解MPC约束二次规划问题，保证了算法的收敛性。该控制器体积更小，不需要任何dg内通信网络。在馈线阻抗不匹配的情况下，它保证了相等和成比例的功率共享。通过实例研究验证了所提出的MPC控制器的有效性。

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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A Model Predictive Control-Based Voltage and Frequency Regulation through Distributed Generation in Isolated Microgrids: Part II Model Predictive Controller Implementation

To realize operation automation in remote islanded microgrids, a model predictive control (MPC)-based distributed generation (DG) controller is proposed in Part 2 of this paper. The developed data-driven predictive model in Part 1 of this paper is implemented in Part 2 to realize the MPC controller. The proposed MPC controller does not incorporate any tunable coefficients, which may be sensitive under various operating conditions. Kalman filter-based state observer updates the system model with varying operating conditions. The KWIK optimizer is used to solve the MPC’s constrained quadratic programming problem as it ensures a guaranteed convergence. The controller is smaller in size and does not require any intra-DG communication network. It ensures equal and proportional power sharing despite feeder line impedance mismatch. The effectiveness of the proposed MPC controller is validated through case studies.

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来源期刊

2022 IEEE/IAS 58th Industrial and Commercial Power Systems Technical Conference (I&CPS)

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