Abstract
The emphasis of this current study is to perform a numerical simulation of the solidification behaviour of phase change material for the latent heat thermal storage unit has shell and tube design in order to improve the thermal performance of the latent heat storage unit. A comparison has been carried out for the storage unit using two different alignment, essentially, horizontal and vertical for two configurations plane one (non-finned) and finned one. The outcome results were compared with the experimental results in order to validate the model. Moreover, the transit temperature profile was also presented in this study to get a better understanding for this particular process. The predicated results were shown a good agreement with experimental data that used. The results indicated that when fins is installed solidification process time enhanced with an average percentage of 60% the effect of alignment during solidification process is insignificant for both cases of finned and plane LHSU. It is worth to mention that this study can be used to improve the understanding the thermal performance of the phase change material and to reduce the efforts of the experiential trails in the future investigations.
Original language | English |
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Title of host publication | 2nd International Conference on Materials Engineering and Science, IConMEAS 2019 |
Editors | Omar Sabbar Dahham, Nik Noriman Zulkepli |
Publisher | AIP Publishing |
ISBN (Electronic) | 9780735419643 |
DOIs | |
Publication status | Published - 25 Mar 2020 |
Event | 2nd International Conference on Materials Engineering and Science, IConMEAS 2019 - Baghdad, Iraq Duration: 25 Sept 2019 → 29 Sept 2019 |
Publication series
Name | AIP Conference Proceedings |
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Volume | 2213 |
ISSN (Print) | 0094-243X |
ISSN (Electronic) | 1551-7616 |
Conference
Conference | 2nd International Conference on Materials Engineering and Science, IConMEAS 2019 |
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Country/Territory | Iraq |
City | Baghdad |
Period | 25/09/19 → 29/09/19 |
Bibliographical note
Publisher Copyright:© 2020 Author(s).
ASJC Scopus subject areas
- General Physics and Astronomy