Experimental Analysis of a Solar Air Heater Featuring Multiple Spiral-Shaped Semi-Conical Ribs

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS Journal of Solar Energy Engineering-transactions of The Asme Pub Date : 2023-11-10 DOI:10.1115/1.4063858
Ravi Shankar, Rajeev Kumar, Arun Kumar Pandey, Deep Singh Thakur
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Abstract

Abstract To improve the thermal and hydraulic performance of artificially roughened solar air heaters (SAHs), the current study analyzes the thermal-hydraulic performance or thermal enhancement factor of artificially roughened solar air heaters. In present experimental research on a solar air heater's absorber plate, newly designed spiral-shaped semi-conical ribs have been explored. The spiral-shaped semi-conical ribs have been designed with the aim of reducing the pressure drop across the rib so that thermal performance may be improved with a little increase in pressure drop after integrating the ribs into the SAH mainstream flow. The higher value of thermal-hydraulic performance indicates an increased heat transfer rate with a minimum increase in pumping power. In order to achieve the highest possible thermal enhancement factor, this experimental study intends to analyze the effects of different geometrical parameters on the heat transmission and friction behavior of numerous spiral-shaped semi-conical ribs. Multiple experiments were conducted using different levels of roughness heights to optimize the rib profile parameters. The Reynolds number (Re) ranges from 3358.65 to 18,095.59, the relative roughness height (e/Dh) 0.09 to 0.227, and relative roughness pitch (P/e) 3.7 to 5.5. These multiple spiral-shaped semi-conical ribs give the maximum thermal enhancement factor of 2.85 at (e/Dh) 0.182 and P/e of 4.1 at Reynolds number 18,095.59. It has been found that current rib geometry can increase the thermal performance of solar air heaters with minimum increased pumping power with reference to rib explored by earlier researchers.
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多螺旋半锥肋太阳能空气加热器的实验分析
摘要为了提高人工粗化太阳能空气加热器(SAHs)的热水力性能,本研究对人工粗化太阳能空气加热器的热水力性能或热增强系数进行了分析。在太阳能空气加热器吸收板的实验研究中,探索了一种新型的螺旋形半锥形肋。设计螺旋形半锥形肋板的目的是减小肋板上的压降,使肋板融入SAH主流流后,在压降略有增加的情况下提高热性能。较高的热液性能值表明,在泵送功率增加最小的情况下,传热速率增加。为了获得尽可能高的热强化系数,本实验拟分析不同几何参数对多个螺旋半锥形肋的传热和摩擦行为的影响。采用不同的粗糙度高度对肋型参数进行了优化。雷诺数Re为3358.65 ~ 18095.59,相对粗糙度高度e/Dh为0.09 ~ 0.227,相对粗糙度节距P/e为3.7 ~ 5.5。在(e/Dh) 0.182和P/e在雷诺数18,095.59时的最大热增强系数分别为2.85和4.1。与早期研究人员所探索的肋形相比,目前的肋形结构可以在最小的泵送功率增加的情况下提高太阳能空气加热器的热性能。
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来源期刊
CiteScore
5.00
自引率
26.10%
发文量
98
审稿时长
6.0 months
期刊介绍: The Journal of Solar Energy Engineering - Including Wind Energy and Building Energy Conservation - publishes research papers that contain original work of permanent interest in all areas of solar energy and energy conservation, as well as discussions of policy and regulatory issues that affect renewable energy technologies and their implementation. Papers that do not include original work, but nonetheless present quality analysis or incremental improvements to past work may be published as Technical Briefs. Review papers are accepted but should be discussed with the Editor prior to submission. The Journal also publishes a section called Solar Scenery that features photographs or graphical displays of significant new installations or research facilities.
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