Experimental Study of Single-Pass Fluid Flow With Convective and Sensible Thermal Energy Storage in a Porous Curved Channel Solar Air Heater

Energy Storage Pub Date : 2024-10-15 DOI:10.1002/est2.70058
Subbarao Chamarthi, Satyender Singh, Subhash Chander
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Abstract

In this experimental research, a single-pass solar air heater comprising a porous curved channel is investigated to reveal the scope of high thermal performance during the winter season. The investigation explores the geometrical parameters for the porous channel maintained by using steel wiremesh layers of wire diameter of 0.45 mm and pitch of 2.35 mm, and the number of layers ranging from 3 to 12, which presents the channel porosity, ϕ $$ \phi $$ , from 99% to 96%, respectively. The curved porous channel offers additional fluid mixing, thermal backup, and high heat transfer area, thereby increasing the convective heat transfer to the air and consequently the thermal performance. A series of experiments were carried out under real outdoor conditions to examine the various factors such as variable channel porosity, air flow rate, and the amount of solar energy received. The findings revealed that the curved porous channel with a channel porosity of 96% results in the maximum thermal and thermohydraulic efficiencies of about 85% and 79%, respectively, and the outlet air temperature of 79°C.

多孔弯道式太阳能空气加热器中带有对流和感热储能的单通道流体流动的实验研究
在这项实验研究中,对由多孔弧形通道组成的单通道太阳能空气加热器进行了调查,以揭示其在冬季的高热性能范围。研究探讨了多孔通道的几何参数,使用钢丝网层,钢丝直径为 0.45 毫米,间距为 2.35 毫米,层数为 3 至 12 层,通道孔隙率 ϕ $$ \phi $$ 分别为 99% 至 96%。弯曲的多孔通道提供了额外的流体混合、热备份和高传热面积,从而增加了对空气的对流传热,进而提高了热性能。在实际室外条件下进行了一系列实验,以研究各种因素,如可变的通道孔隙率、空气流速和接收的太阳能量。实验结果表明,通道孔隙率为 96% 的弯曲多孔通道的最大热效率和热液压效率分别约为 85% 和 79%,出口空气温度为 79°C。
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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CiteScore
2.90
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