Heat Transfer Improvement in a Thermal Energy Storage System ‎using Auxiliary Fluid Instead of Nano-PCM in an Inclined ‎Enclosure: A Comparative Study

Alireza Khademi; Seyed Ali Abtahi Mehrjardi; Zafar Said; Ali J. Chamkha

Heat Transfer Improvement in a Thermal Energy Storage System ‎using Auxiliary Fluid Instead of Nano-PCM in an Inclined ‎Enclosure: A Comparative Study

Publish place: Journal of Applied and Computational Mechanics، Vol: 9، Issue: 2

Publish Year: 1402

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/1599674

شناسه ملی سند علمی:

JR_JACM-9-2_014

تاریخ نمایه سازی: 17 بهمن 1401

Abstract:

Modern thermal energy storage (TES) systems rely laboriously on finding a low-cost method to improve heat transfer. In the present analysis, adding CuO nanoparticles and tilting the enclosure simultaneously is compared with a novel approach that employed water as a supplemental fluid to improve the melting process using the density difference between PCM and supplemental fluid. Oleic acid is selected as an immiscible PCM in water, which causes PCM and auxiliary fluid utterly separate at the end of the melting process to be usable in more additional TES cycles. By placing water as a heavier material directly on top of oleic acid, the melted oleic acid is replaced by water at the bottom of the enclosure when it melts because water has a heavier density than oleic acid. At first, adding ۱% and ۲% of CuO nanoparticles in an enclosure with different inclinations of ۰°, ۴۵°, and ۹۰° is studied to identify the energy storage rate. Continuity, momentum, and energy equations are used to formulate a mathematical model of the TES system. In the next step, the melting process of the combined system is analyzed to determine the energy storage rate of the combined system compared to the system, including CuO nanoparticles in the inclined enclosure. Comparing the combined system with the optimal case of nano-PCM in the inclined enclosure, it was found that the energy storage rate in the system using auxiliary fluid is ۱.۳۹۶ times higher.

Keywords:

Energy storage rate , Phase change materials (PCMs) , Melting process , Supplemental fluid

Authors

Alireza Khademi

Department of Mechanical Engineering, Sharif University of Technology, Tehran, Iran

Seyed Ali Abtahi Mehrjardi

Independent Researcher, Tehran, Iran

Zafar Said

Department of Sustainable and Renewable Energy Engineering, University of Sharjah, P. O. Box ۲۷۲۷۲, Sharjah, United Arab Emirates

Ali J. Chamkha

Faculty of Engineering, Kuwait College of Science and Technology, Doha District, ۳۵۰۰۴ Kuwait

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