Development of a new design for cold energy storage using finned porous containers filled with nanomaterials

Development of a new design for cold energy storage using finned porous containers filled with nanomaterials

This study numerically investigates the freezing behavior in a finned container filled with water enhanced by hybrid nanoparticles to boost thermal conductivity. A novel combination of reduced porosity, hybrid nanofluids, and radiation modeling is applied to accelerate solidification. The equations...

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Bibliographic Details
Main Authors: Mashhour A. Alazwari, Ali Basem, Hussein A.Z. AL-bonsrulah, Nidal H. Abu-Hamdeh, Awatif M.A. Elsiddieg, Abdulmalik A. Aljinaidi
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Results in Engineering
Subjects:
Unsteady simulation
Metal foam
Cold storage
Nanoparticles
Solidification
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025019000
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Summary:This study numerically investigates the freezing behavior in a finned container filled with water enhanced by hybrid nanoparticles to boost thermal conductivity. A novel combination of reduced porosity, hybrid nanofluids, and radiation modeling is applied to accelerate solidification. The equations are solved implementing an implicit scheme with adaptive meshing for improved accuracy. Results show that reducing porosity enhances the solid fraction and shortens freezing time by 80.6 %. The addition of hybrid nanoparticles leads to a 6.6 % reduction, while radiation further decreases solidification time by 14.23 %. These findings demonstrate the synergistic potential of combining thermal enhancement techniques for efficient cold energy storage.
ISSN:2590-1230

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