Experimental and theoretical investigation of an evacuated tube solar water heater incorporating wickless heat pipes

IF 1.2 Q4 THERMODYNAMICS Archives of Thermodynamics Pub Date : 2023-07-20 DOI:10.24425/ATHER.2020.134570

H. N. S. Al-Joboory

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引用次数: 3

Abstract

The present work involved an extensive outdoor performance testing program of a solar water heating system that consists of four evacuated tube solar collectors incorporating four wickless heat pipes integrated to a storage tank. Tests were conducted under the weather conditions of Baghdad, Iraq. The heat pipes were of 22 mm diameter, 1800 mm evaporator length and 200 mm condenser length. Three heat pipe working ﬂuids were employed, ethanol, methanol, and acetone at an inventory of 50% by volume of the heat pipe evaporator sections. The system was tested outdoors with various load conditions. Results showed that the system performance was not sensitive to the type of heat pipe working ﬂuid employed here. Improved overall eﬃciency of the solar system was obtained with hot water withdrawal (load conditions) by 14%. A theoretical analysis was formulated for the solar system performance using an energy balance based iterative electrical analogy formulation to compare the experimental temperature behavior and energy output with theoretical predictions. Good agreement of 8% was obtained between theoretical and experimental values.

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无芯热管真空管太阳能热水器的实验与理论研究

目前的工作涉及太阳能热水系统的一个广泛的室外性能测试方案，该系统由四个真空管太阳能集热器组成，其中包括与一个储罐集成的四个无芯热管。试验是在伊拉克巴格达的天气条件下进行的。热管直径为22 mm，蒸发器长度为1800 mm，冷凝器长度为200 mm。采用三种热管工作流体:乙醇、甲醇和丙酮，热管蒸发器部分的容积为50%。该系统在室外进行了各种负载条件下的测试。结果表明，系统性能对采用的热管工质类型不敏感。通过热水提取(负载条件)，太阳能系统的整体效率提高了14%。利用基于能量平衡的迭代电学类比公式对太阳能系统的性能进行了理论分析，将实验温度行为和能量输出与理论预测进行了比较。理论值与实验值的吻合度为8%。

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来源期刊

Archives of Thermodynamics THERMODYNAMICS-

CiteScore

1.80

自引率

22.20%

发文量

期刊介绍： The aim of the Archives of Thermodynamics is to disseminate knowledge between scientists and engineers interested in thermodynamics and heat transfer and to provide a forum for original research conducted in Central and Eastern Europe, as well as all over the world. The journal encompass all aspect of the field, ranging from classical thermodynamics, through conduction heat transfer to thermodynamic aspects of multiphase flow. Both theoretical and applied contributions are welcome. Only original papers written in English are consider for publication.