黑色遮阳空间中充水锡罐太阳能储能的实验与数值研究

IF 1.5 4区工程技术 Q3 ENGINEERING, MECHANICAL

Journal of Enhanced Heat Transfer Pub Date : 2023-01-01 DOI:10.1615/jenhheattransf.2023048545

Faraz Afshari, Emre Mandev, Burak Muratçobanoğlu, Ali çelik, Mehmet Akif Ceviz

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引用次数: 0

摘要

在本研究中，利用装满水的锡罐将太阳能储存在阳光空间室内，以达到寒冷地区节能的目的。在日光浴期间收集在水中的能量在晚上周围空气温度突然下降时转移到环境中。此外，在阳光空间区域，墙壁被黑色材料覆盖，通过吸收房间内更多的太阳辐射来评估采暖性能。除了实验研究外，ANSYS Fluent软件(2022 R1版本)作为计算流体动力学(CFD)程序在分析中对太阳空间域进行了模拟。根据所得到的结果，虽然日落后周围空气的温度突然下降，但观察到锡罐中的水温下降得更慢。这表明热量从锡罐传递到周围空气发生在夜间。此外，还展示了黑色表面应用的效果，并评估了室内和室外温度的差异。在没有黑色表面的日照时段，室内和室外环境的平均温差为4.67°C，而在黑色表面的情况下，这一差异达到了9.53°C。当使用黑色表面时，获得了最大的能量效率，该值为58.2%。

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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Experimental and Numerical Study On Solar Energy Storage in Black-Covered Sunspace Using Water-Filled Tin Cans

In this study, it is aimed to store solar energy in a sunspace room for energy saving in cold regions by using water-filled tin cans. The energy collected in the water during the sunbathing hours is transferred to the environment in the evening when the ambient air temperature suddenly drops. Additionally, in the sunspace area, the walls were covered with black material and by absorbing more solar radiation inside the room, the heating performance was evaluated. In addition to experimental studies, ANSYS Fluent software (2022 R1 version) as a computational fluid dynamics (CFD) program has been used to simulate the sunspace domain in analyses. According to the results obtained, while there was a sudden drop in temperature in the ambient air after sunset, it was observed that the water temperatures in the tin cans decreased more slowly. This indicates that heat transfer from the tin cans to the ambient air occurs during the night times. In addition, the effect of black surface application was shown and the differences between indoor and outdoor temperatures were evaluated. While the average temperature difference between the indoor and outdoor environment during the sunshine period without the black surface was 4.67 °C, this difference reached 9.53 °C in the case of the black surface. The maximum energy efficiency was obtained when black surface was used, and this value was recorded as 58.2%.

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来源期刊

Journal of Enhanced Heat Transfer 工程技术-工程：机械

CiteScore

3.60

自引率

8.70%

发文量

审稿时长

12 months

期刊介绍： The Journal of Enhanced Heat Transfer will consider a wide range of scholarly papers related to the subject of "enhanced heat and mass transfer" in natural and forced convection of liquids and gases, boiling, condensation, radiative heat transfer. Areas of interest include: ■Specially configured surface geometries, electric or magnetic fields, and fluid additives - all aimed at enhancing heat transfer rates. Papers may include theoretical modeling, experimental techniques, experimental data, and/or application of enhanced heat transfer technology. ■The general topic of "high performance" heat transfer concepts or systems is also encouraged.