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Hybrid nanofluid flow in a Darcy-Forchheimer permeable medium over a flat plate due to solar radiation
Case Studies in Thermal Engineering ( IF 6.8 ) Pub Date : 2021-04-07 , DOI: 10.1016/j.csite.2021.100955
Abdullah Khamis Alzahrani , Malik Zaka Ullah , Ali Saleh Alshomrani , Taza Gul

Solar thermal absorption has an important role in the solar power plant to store the energy and usually, the solar systems face the problem to store and control the energy at high temperatures. The research aims to study the hybrid nanofluids which is used as the solar energy absorber and tends to store the thermal energy. In the this study, the authors focus on response of the inclined plate solar collector when the base fluid of water is substituted by the Hybrid nanofluid containing MgO (Magnesium oxide), CuO (Copper Oxide) with MWCNTs (Multiple wall carbon nanotubes), and water is used as a base solvent. The inclined plate is embedded in the permeable medium in the existence of solar radiation. The solution to the problem has been tackled through analytical techniques. The essential physical features are observed for heat transfer, absorption, and omission rate of the solar radiations.



中文翻译:

由于太阳辐射,平板上的Darcy-Forchheimer渗透性介质中的混合纳米流体流动

太阳能热吸收在太阳能发电厂中存储能量方面起着重要作用,通常,太阳能系统面临在高温下存储和控制能量的问题。该研究旨在研究用作太阳能吸收剂并倾向于存储热能的杂化纳米流体。在这项研究中,作者专注于当水的基础流体被含有MgO(氧化镁),CuO(氧化铜)和MWCNT(多壁碳纳米管)的混合纳米流体代替时,斜板式太阳能集热器的响应。水用作基础溶剂。在存在太阳辐射的情况下,倾斜板嵌入可渗透介质中。通过分析技术已经解决了该问题的解决方案。观察到了基本的物理特征,以进行热传递,吸收,

更新日期:2021-04-27
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