Optical Design and Performance Analysis of Linear Focusing Solar Thermal Collectors

I. Okafor
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Abstract

Linear Fresnel solar collector is a focusing concentrator suitable for direct steam generation, industrial process heat, and solar space cooling system and hot water generation for different uses. The optical design and performance simulations, experimental and numerical studies on linear Fresnel solar collector were reviewed. Studies on the optical designs and ray-tracing simulations results indicated non-uniform solar flux distributions on the receiver absorber surface. The optical quality of LFC is low due to its higher incidence angle and the cosine factor. Studies on optimizing the optical errors that affects the optical performance of the LFC are lacking in the literature. Ray tracing results at 0o incidence angle indicated three different optical losses-geometric configuration, material properties and focus errors losses. Studies on the lateral drift and uncertainty of the direction of the reflected rays, which adversely affect the concentration factor of the LFC are lacking in the literature. The optical performance of a LFC system can be improved through an optimized optical design - mirrors separation, shapes, width and their orientation.
线性聚焦太阳能集热器的光学设计与性能分析
线性菲涅耳太阳能集热器是一种聚焦聚光器,适用于直接蒸汽产生、工业过程热、太阳能空间冷却系统和热水产生等不同用途。综述了线性菲涅耳太阳能集热器的光学设计、性能模拟、实验和数值研究。光学设计研究和射线追踪模拟结果表明,太阳通量在吸收体表面分布不均匀。由于LFC的入射角和余弦系数较大,其光学质量较低。对影响LFC光学性能的光学误差进行优化的研究文献较少。在0入射角下的光线追踪结果显示了三种不同的光学损失——几何结构、材料特性和聚焦误差损失。对于影响LFC浓度因子的反射射线的横向漂移和方向的不确定性,文献中缺乏相关研究。通过优化光学设计——反射镜的分离、形状、宽度和方向,可以提高LFC系统的光学性能。
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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