Analysis of different types of converters for solar water pumping system

J. Anoop, N. Reema
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引用次数: 2

Abstract

Solar Water Pumping was an important development for the entire world because till now, there are places with limited or no access to electricity and large areas of world are located on rural areas where only water supply comes from rain or distant rivers. Conventional Solar Water Pumping system are developed using batteries, which have a low life span of about only two years on average, which is extremely low compared to the useful life of 20 years of a PV module. Similarly in conventional system usually DC motors were used thus the boosting of the output of panels was not much essential But in the case of ac motors converters are very essential for boosting the small output of panels. Due to the development of power electronics there are different types of converters available for the same as Boost Converter, Conventional Two Inductor Boost Converter (TIBC), Push Pull Converter, Modified TIBC etc. with different voltage gain. The basic converter for boosting voltage is Boost Converter but this is not applicable for high voltage applications. Here the different types of converters are modeled and simulated in MATLAB and the output is analyzed.
太阳能水泵系统中不同类型转换器的分析
太阳能水泵对整个世界来说是一个重要的发展,因为到目前为止,世界上有很多地方电力有限或没有电力供应,而且世界上大部分地区都位于农村地区,那里的供水只来自雨水或遥远的河流。传统的太阳能水泵系统是使用电池开发的,电池的使用寿命平均只有两年左右,与光伏组件20年的使用寿命相比,这是非常低的。同样,在传统系统中,通常使用直流电机,因此对面板输出的增强不是很重要,但在交流电机的情况下,变流器对于提高面板的小输出是非常必要的。由于电力电子技术的发展,有不同类型的变换器可用于相同的升压变换器,传统的双电感升压变换器(TIBC),推挽变换器,改进的TIBC等不同的电压增益。升压的基本转换器是升压转换器,但这不适用于高压应用。本文在MATLAB中对不同类型的变换器进行了建模和仿真,并对输出进行了分析。
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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