Utilization of cassegrain feed parabolic antenna design in increasing the efficiency of photovoltaic module

2014 International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment and Management (HNICEM) Pub Date : 2014-11-01 DOI:10.1109/HNICEM.2014.7016196

N. Arago, Timothy M. Amado, J. W. Orillo

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引用次数: 8

Abstract

This paper presents the design of a transportable solar concentrating and tracking parabolic trough reflector that gathers higher energy yield in its photovoltaic (PV) module using the concept of the Cassegrain antenna system wherein the sun's rays are dashed to the structure's primary and secondary reflector before they are converged to the polycrystalline solar panel located at the trough's focus. Based from the system evaluation, the power output gathered from the whole system is 36.05% and 9.05% more effective than the static and sun-tracking solar panel, respectively. Likewise, the project yielded a solar panel efficiency of 12.94% which is 4.67% and 1.17% greater than the ones produced by the static and sun-tracking PV cell, correspondingly. Moreover, it has been calculated that the whole system charges 2 hours and 16.81 minutes faster than the static PV cell's battery, and 24.15 minutes quicker than the sun-tracking solar panel's battery.

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利用卡塞格伦馈源抛物面天线设计提高光伏组件效率

本文介绍了一种可移动的太阳能聚光跟踪抛物面槽式反射器的设计，该反射器利用卡塞格伦天线系统的概念，在其光伏(PV)模块中收集更高的能量，其中太阳光线在汇聚到位于槽焦点处的多晶太阳能电池板之前，会被冲到结构的主反射器和次级反射器。从系统评价来看，整个系统收集的输出功率比静态太阳能板和太阳跟踪太阳能板的效率分别提高36.05%和9.05%。同样，该项目的太阳能电池板效率为12.94%，比静态和太阳跟踪光伏电池的效率分别高出4.67%和1.17%。计算出整个系统的充电速度比静态光伏电池快2小时16.81分钟，比太阳跟踪太阳能电池板的电池快24.15分钟。

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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2014 International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment and Management (HNICEM)

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