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Evaluation of the solidification process in a double‐tube latent heat storage unit equipped with circular fins with optimum fin spacing

Authors :
Abdullah Bahlekeh
Hosseinali Ramezani Mouziraji
Hussein Togun
Abolfazl Ebrahimnataj Tiji
Azher M. Abed
Hayder I. Mohammed
Raed Khalid Ibrahem
Muataz S. Alhassan
Pouyan Talebizadehsardari
Source :
Energy Science & Engineering, Vol 11, Iss 7, Pp 2552-2570 (2023)
Publication Year :
2023
Publisher :
Wiley, 2023.

Abstract

Abstract In this study, the effect of fin number and size on the solidification output of a double‐tube container filled with phase change material (PCM) was analyzed numerically. By altering the fins' dimensions, the PCM's heat transfer performance is examined and compared to finless scenarios. To attain optimal performance, multiple inline configurations are explored. In addition, the initial conditions of the heat transfer fluid (HTF), including temperature and Reynolds number, are considered in the analysis. The research results show a significant impact of longer fins with higher numbers on improving the solidification rate of PCM. The solidification rate increases by 67%, 170%, 308%, and 370% for cases with 4, 9, 15, and 19 fins, respectively, all with the same fin length and initial HTF boundary condition. The best case results in a solidification time that is 4.45 times shorter compared to other fin number and dimension scenarios. The study also found that moving from Reynolds numbers 500 to 1000 and 2000 reduced discharging times by 12.9% and 22%, respectively, and increased heat recovery rates by 14.4% and 27.9%. When the HTF entrance temperature was 10°C and 15°C, the coolant temperature showed that the entire discharging time decreased by 37.5% and 23.1% relative to the solidification time when the initial temperature was 20°C. Generally, this work highlights that increasing the length and number of fins enhances thermal efficiency and the phase change process.

Details

Language :
English
ISSN :
20500505
Volume :
11
Issue :
7
Database :
Directory of Open Access Journals
Journal :
Energy Science & Engineering
Publication Type :
Academic Journal
Accession number :
edsdoj.bb660e6636414a18b048745cf2fc363b
Document Type :
article
Full Text :
https://doi.org/10.1002/ese3.1473