Solar concentrating and redirecting systems for application in an agricultural construction

Revista de la Invención Técnica Pub Date : 2022-06-30 DOI:10.35429/joti.2022.17.6.10.16

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Abstract

This work deals with the design and evaluation of a concentrator-luminoduct system for daylighting. A concentrator with a truncated cone profile was designed to capture, transfer and diffuse sunlight, which was concentrated and transported by reflection along the walls of the system and finally projected to the interior of an agricultural building. The illuminance achieved by the system with and without concentration was compared and a significant difference in illumination levels was found. The concentrator obtained concentration factors between 1.7 and 3.6. The critical aspects that determined the concentration of natural light were the angle of acceptance (45.68º), the orientation (45º and 90º) and the reflectance of the material used (95%), in addition, it was possible to reduce the dimensions of these systems, conserving the illuminance. It was proven that this system increased the illumination of the interior space where the light did not reach naturally, improving the illuminance levels (300-500 lx), according to CIE (Commission Internationale l'Eclarige). It was demonstrated that the system represents a viable and adaptable solution for naturally illuminating buildings.

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农业建筑中应用的太阳能集中和定向系统

本工作涉及采光聚光系统的设计和评价。一个具有截锥形轮廓的聚光器被设计用来捕获、转移和漫射阳光，这些阳光沿着系统的墙壁通过反射被集中和传输，最后投射到农业建筑的内部。比较了系统在有浓度和没有浓度时的照度，发现照度水平有显著差异。富集器的富集系数在1.7 ~ 3.6之间。决定自然光浓度的关键因素是接收角(45.68º)、朝向(45º和90º)和所用材料的反射率(95%)，此外，可以减少这些系统的尺寸，保持照度。根据国际照明委员会(CIE)的说法，该系统增加了光线无法自然到达的室内空间的照度，提高了照度水平(300-500 lx)。结果表明，该系统为自然照明建筑提供了可行且适应性强的解决方案。

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Revista de la Invención Técnica

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