Study and Characterization of a Spherical Solar Collector. I. Efficiency and Thermal Losses Coefficient

Q4 Energy

Journal of Nuclear Energy Science and Power Generation Technology Pub Date : 2023-07-04 DOI:10.21926/jept.2303022

C. Armenta-Déu

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Abstract

This paper studies and characterizes a solar collector with spherical geometry to produce hot water for sanitary and domestic applications and other facilities. The new geometry enlarges the solar collector surface and allows full sun tracking during the day without needing a solar tracking system. Although this geometry has been in use for some time, its market penetration is low due to the lack of perfect knowledge of solar collector behavior and the benefits compared with conventional solar collectors. The studies carried out in the lab for small domestic application has shown that this new geometry has better efficiency than flat plate collectors because its particular structure maintains water temperature inside the hot water tank for longer, which allows better production and longer use. The carried-out tests have shown an increase of up to 38% in the collector’s efficiency at high-range operation and 13% at the low range. This increase is enlarged to 40% and 15% when dealing with the compact system (collector-storage tank). Global losses coefficient is also lower, around 50%, than for a flat plate solar collector of an equivalent cross-section.

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球形太阳能集热器的研究与表征。1 .效率和热损失系数

本文研究了一种球形太阳能集热器，用于生产卫生、生活和其他设施的热水。新的几何形状扩大了太阳能收集器的表面，并允许在白天完全跟踪太阳，而不需要太阳能跟踪系统。虽然这种几何形状已经使用了一段时间，但由于缺乏对太阳能集热器行为的完美了解以及与传统太阳能集热器相比的优势，其市场渗透率很低。在实验室进行的小型家用应用研究表明，这种新几何形状的集热器比平板集热器效率更高，因为它的特殊结构使热水箱内的水温保持得更长，从而可以更好地生产和使用更长时间。已进行的测试表明，在高范围运行时集热器的效率提高了38%，在低范围运行时提高了13%。当处理紧凑型系统(收集-储罐)时，这一增幅扩大到40%和15%。与同等截面的平板太阳能集热器相比，整体损耗系数也较低，约为50%。

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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Journal of Nuclear Energy Science and Power Generation Technology Energy-Energy Engineering and Power Technology

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