Fuzzy induced controller for optimal power quality improvement with PVA connected UPQC

Q2 Engineering
Ravada Simhachalam, Agam Das Goswami
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引用次数: 1

Abstract

Abstract The major power quality issues in grid are voltage fluctuations and harmonics. For better power quality of the power system during disturbances on the grid, the UPQC device is utilized to maintain voltage magnitude and reduced harmonics. At the DC link of UPQC along with the capacitor, a renewable PV source is connected which contributes in voltage compensation by the series VSC and harmonics compensation by the shunt VSC. For stable DC voltage generation from PV source a modified P&O MPPT with DC reference is included controlling the boost converter connected to PV source. The controllers of VSCs are operated by feedback loop synchronized schematics with voltage reference generation in series VSC control and current reference generation in shunt VSC control. The shunt control is updated with hybrid Fuzzy-PI controller replacing the traditional PI controller further improving the power quality of the grid. The hybrid Fuzzy-PI varies the K p and K i gains as per the error generated by the DC voltage comparison concerning 25 rule-base for each gain. A comparative performance analysis is done with both the controllers in the shunt converter and the results are generated using MATLAB Simulink software.
模糊感应控制器用于PVA连接UPQC的最优电能质量改善
电网的主要电能质量问题是电压波动和谐波。为了在电网扰动时提高电力系统的电能质量,UPQC装置被用来维持电压幅度和降低谐波。在UPQC的直流链路上,与电容器一起连接可再生光伏电源,通过串联VSC进行电压补偿,并通过并联VSC进行谐波补偿。为了使光伏电源产生稳定的直流电压,设计了一个带有直流参考的改进的P&O MPPT来控制与光伏电源相连的升压变换器。VSC的控制器是由反馈回路同步与参考电压生成图表系列VSC控制和电流参考代分流VSC控制。并联控制采用混合模糊-PI控制器取代传统的PI控制器,进一步提高了电网的电能质量。混合Fuzzy-PI根据直流电压比较产生的误差来改变kp和kp增益,每个增益涉及25个规则库。对并联变换器中的两种控制器进行了性能对比分析,并利用MATLAB Simulink软件生成了结果。
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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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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