四开关降压升压变换器风电最大功率点跟踪电路仿真

M. Effendy, Khusnul Hidayat, N. Mardiyah
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引用次数: 1

摘要

风力涡轮机在一定的风速下具有最大的机械功率。最大功率点跟踪(MPPT)是一种能够提取最大风力发电功率的电子系统。本研究的目的是通过采用四开关降压升压变换器和模糊控制算法的MPPT风力发电设计来提高风力发电效率。模糊控制有两个输入是功率变化和电压变化,一个输出馈送到脉宽调制发生器来控制FSBB。Matlab simulink仿真结果表明,不带MPPT的风电功率效率为89%,带双开关降压升压变换器的风电MPPT功率效率为90%,且出现高纹波电流。最后对采用FSBB的风力发电MPPT进行了仿真,在低纹波电流的情况下,效率高达91%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Circuit Simulation for Wind Power Maximum Power Point Tracking with Four Switch Buck Boost Converter
Wind turbines have maximum mechanical power at certain wind speeds. Maximum Power Point Tracking (MPPT) is an electronic system capable of extracting maximum wind turbine power. The purpose of this research is to improve wind power efficiency through MPPT wind power design with four switch buck boost converter and Fuzzy control algorithm. Fuzzy control has two inputs are power changes and voltage changes and one output feeding to the pulse width modulation generator to control FSBB. Simulation results with Matlab simulink shows that wind power without MPPT produce 89% power efficiency, wind power MPPT with two switch buck boost converter yield 90% power efficiency and emerging high ripple current. The last simulation of wind power MPPT with FSBB produces the highest efficiency of 91% with low ripple current.
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