基于燃料电池的低压电网直流-交流单相 QZSI

Shilpa B. Sarode, S. Kadwane, R. Keshri, Aniket G Pathade
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引用次数: 0

摘要

1ϕ qZSI 逆变器因其独特的击穿大升压能力,在光伏和燃料电池等可再生能源领域最受欢迎。燃料电池是一种清洁高效的电力来源。燃料电池需要燃料才能持续发电,但与光伏电池不同的是,它不受季节变化的影响,可以提供良好的性能。本文将基于质子交换膜燃料电池(PEMFC)的 1ϕ qZSI 与低压电网连接。质子交换膜燃料电池在低温下运行,二氧化碳排放量较低。本文重点研究了基于 PEMFC 的 1ϕ qZSI 在 100Hz 纹波存在的低压电网上的性能。由于在单相电路中,100Hz 纹波占主导地位;它会造成更多的能量损失,并缩短燃料电池等可再生能源的使用寿命。因此,本文还将通过适当的计算,讨论 100Hz 纹波在 qZS 感应电流和电容器电压中所占的比例。仿真结果使用 MATLAB/SIMULINK 得出
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fuel Cell Based DC-AC Single Phase QZSI for Low Voltage Grid Utility
1ϕ qZSI inverter is most popular for renewable energy sources like PV and fuel cell due to its unique shoot through large boost voltage capability. A fuel cell is a clean and efficient source of electricity. Fuel cell needs fuel for continuous production of electricity but it can give good performance irrespective of seasonal changes, unlike PV cell. In this paper, proton exchange membrane fuel cell (PEMFC) based 1ϕ qZSI is interfaced to a low voltage grid. PEMFC is operated with low temperature and has lower emission of carbon dioxide. This paper focuses on the performance of PEMFC based 1ϕ qZSI on low voltage grid utility in the presence of 100Hz ripple. As in single-phase circuit, 100Hz ripple is more dominant; it causes more energy loss and shortens the lifetime of renewable source like a fuel cell. Hence, this article will also discuss how much percentage of 100Hz ripple present in qZS inductor current and capacitor voltage using proper calculation. The simulation results are found using MATLAB/SIMULINK
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