FO-PI Controller for Regulating DC Link Voltage in UPQC Integrated HES System for Power Quality Improvement

2022 3rd International Conference on Smart Electronics and Communication (ICOSEC) Pub Date : 2022-10-20 DOI:10.1109/ICOSEC54921.2022.9951983

S. Yadav, K. Yadav

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Abstract

This paper emphasis on an optimized Fractional order PI controller (FOPI) for enhancing the power quality of three phase hybrid energy storage (HES) system integrated unified power quality conditioner (UPQC). In order to offer uninterrupted electricity, renewable energy sources regarding wind energy, solar PV, and battery energy storage systems (BESS) are also explored. Whenever the windmill as well as PV array is not supplying electricity, the BESS could improve the stability of the power distribution system, meet entire load requirements. Grid power quality harmonics as well as concerns induced via non-linear loads are addressed by the UPQC type with shunt and series active filter compensators. To ease the grid’s power quality issues and the harmonics introduced by non-linear loads there subsist the UPQC model with active filter shunt and series compensator. The FOPI controller is used for improving the power quality of a 3-phase hybrid energy storage device with an integrated UPQC. RES such as PV arrays, BESS, as well as wind energy are analyzed in order to deliver continuous electricity. Whenever the PV array as well as windmill is not supplying power, the BESS could provide entire load demand, which increases the stability of the power system distribution. The UPQC model including series and shunt active filter compensators exists to alleviate grid power quality problems as well as harmonics introduced by non-linear loads. The UPQC shunt compensator collects power from hybrid energy systems, while the load is protected from grid-related power quality issues by the series compensator. The FOPI controller is built with iso-damping characteristics to control the voltage of the DC connection at a desirable level. The gain of the FOPI controller (Kp, Ki, $\lambda$,) is optimally tuned by a Enhanced Seagull with Rooster Update (ES-RU) Algorithm, which merge the concepts of the Seagull Optimization Algorithm (SOA) as well as the Chicken Swarm Optimization Algorithm (CSO).

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用于UPQC集成HES系统直流电压调节的FO-PI控制器

针对集成统一电能质量调节器(UPQC)的三相混合储能系统，提出了一种优化的分数阶PI控制器(FOPI)。为了提供不间断的电力，还探索了可再生能源，如风能、太阳能光伏和电池储能系统(BESS)。当风车和光伏阵列不供电时，BESS可以提高配电系统的稳定性，满足整个负荷的要求。电网电能质量谐波以及非线性负载引起的问题由UPQC型与并联和串联有源滤波器补偿器解决。为了缓解电网的电能质量问题和非线性负载带来的谐波，采用了带有源滤波并联和串联补偿器的UPQC模型。FOPI控制器用于改善集成UPQC的三相混合储能设备的电能质量。分析诸如光伏阵列、BESS以及风能等可再生能源，以提供连续的电力。当光伏阵列和风车不供电时，BESS可以满足整个负荷需求，增加了系统配电的稳定性。包含串联和并联有源滤波补偿器的UPQC模型是为了缓解电网电能质量问题以及非线性负载带来的谐波。UPQC并联补偿器从混合能源系统收集电力，同时通过串联补偿器保护负载免受电网相关电能质量问题的影响。FOPI控制器具有等阻尼特性，可将直流连接的电压控制在理想的水平。FOPI控制器的增益(Kp, Ki， $\lambda$，)由增强型海鸥与公鸡更新(ES-RU)算法进行优化调整，该算法融合了海鸥优化算法(SOA)和鸡群优化算法(CSO)的概念。

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 3rd International Conference on Smart Electronics and Communication (ICOSEC)

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