Design and Implementation of Model Predictive Control for Parallel Distributed Energy Resource in Islanded AC Microgrids

Hussain Sarwar Khan, J. Kumar, K. Kauhaniemi
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引用次数: 1

Abstract

This study proposes the voltage control strategy for distributed energy resource (DER) in islanded AC microgrids (MG). Typically, AC MG can maintain a constant voltage at the point of common coupling (PCC) as well as perform power-sharing among the DERs. However, linear controllers have several restrictions such as slow transient response, poor disturbance rejection capability etc. Therefore, this study presents an FCS-MPC for a DER with effective voltage regulation capability. The investigated work demonstrates excellent steady-state performance, a low computational burden, better response under transients and have low switching frequency as compared to linear control. First, the benefits of FCS-MPVC for single DER has been studied, then the same topology along with droop control is employed for multiple DERs in AC MG to serve the load. Droop control shows improved power-sharing among the DERs. The performance of the proposed control technique is demonstrated through MATLAB/Simulink simulations for single DG and AC MG under linear, non-linear loading conditions.
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孤岛交流微电网并联分布式能源模型预测控制的设计与实现
提出了孤岛交流微电网中分布式能源的电压控制策略。通常,交流MG可以在共耦合点(PCC)保持恒定电压,并在der之间进行功率共享。然而,线性控制器存在一些限制,如瞬态响应慢、抗干扰能力差等。因此,本研究提出了一种具有有效电压调节能力的DER的FCS-MPC。与线性控制相比,该系统具有优异的稳态性能、较低的计算量、较好的瞬态响应和较低的开关频率。首先,研究了FCS-MPVC对单个DER的优势,然后在交流MG的多个DER中采用相同的拓扑结构和下垂控制来服务负载。下垂控制改善了der之间的权力共享。通过MATLAB/Simulink对单个DG和交流MG在线性和非线性负载条件下的控制性能进行了仿真验证。
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