Robust controller synthesis for frequency regulation in islanded microgrid

2017 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC) Pub Date : 2017-11-01 DOI:10.1109/APPEEC.2017.8308970

D. Kumar, B. Nandan, H. D. Mathur, S. Bhanot

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引用次数: 3

Abstract

Frequency regulation in MG using conventional PID controllers becomes more challenging in the presence of stochastic load and uncertainty in system parameters caused by dynamic perturbation. So, there is a need for a robust controller with acceptable performance and stability for regulating the frequency in MG. The dynamic perturbations include changes in inertia constant and damping coefficient of the power system, which directly affect the frequency of the MG. In this paper, structured Hm synthesis has been done for robust frequency control in islanded MG. The sources used in MG for compensating the load demand are fuel cell, diesel engine generator and microturbine. The robustness and performance of Hm based controller is validated in the presence of parametric uncertainty and load disturbance caused by stochastic nature of load. The synthesized Hm based controller is tested for robust stability and performance against ± 50% perturbation of inertia constant and damping coefficient of power system. Simulation results of complete system is also validated with hardware using dSPACE 1104 and control desk.

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孤岛微电网频率调节鲁棒控制器综合

在随机负荷和动态扰动引起的系统参数不确定性存在的情况下，采用传统的PID控制器进行频率调节变得更加困难。因此，需要一种具有可接受性能和稳定性的鲁棒控制器来调节MG中的频率。动力扰动包括电力系统的惯性常数和阻尼系数的变化，它们直接影响到自动调速器的频率。本文采用结构化Hm综合方法对孤岛磁振子进行鲁棒频率控制。MG用于补偿负荷需求的动力源有燃料电池、柴油机发电机和微型涡轮。在存在参数不确定性和随机负载扰动的情况下，验证了基于Hm的控制器的鲁棒性和性能。对基于Hm的综合控制器进行了鲁棒稳定性测试，并对电力系统的惯性常数和阻尼系数进行了±50%的扰动。利用dSPACE 1104和控制台对整个系统的仿真结果进行了硬件验证。

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2017 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC)

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