Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application
Latent heat thermal energy storage (LHTES) systems are widely used due to their ability to store a lot of heat energy as latent, and few studies have directly or indirectly investigated on the heat exchange methods with LHTES systems. In the present study, the free convection of a mixture of water a...
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my.um.eprints.421712023-10-12T01:11:16Z http://eprints.um.edu.my/42171/ Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application Cao, Yan Ayed, Hamdi Algelany, A. M. Dahari, Mahidzal Nguyen, Phuoc Quy Phong Gepreel, Khaled A. Nguyen, Van Nhanh Ehab, Mohamed Wae-hayee, Makatar TA Engineering (General). Civil engineering (General) U Military Science (General) Latent heat thermal energy storage (LHTES) systems are widely used due to their ability to store a lot of heat energy as latent, and few studies have directly or indirectly investigated on the heat exchange methods with LHTES systems. In the present study, the free convection of a mixture of water and Nano-encapsulated phase change material (NEPCM) with a porous medium was used to exchange heat energy between a cold-water stream and a hot tank filled phase change material (PCM). NEPCM are nanostructures consisted of a solid shell and a PCM core, and the addition of these nanostructures to water has remarkable effects on the heat transfer parameters. In this research, a number of cases were simulated using computational fluid dynamic (CFD) to observe the impacts of injecting NEPCM to water, the porosity of the porous media and the location of the phase change zone on the average heat flux of the PCM tank. The results showed that increment of porosity number from 0.85 to 0.95 decreased the average heat flux of the PCM tank by 13.8%. Moreover, adding 3% NEPCM to water enhanced the average heat flux of the PCM tank by 22.2% and 18.4% when porosity numbers were 0.85 and 0.95, respectively. Elsevier 2022-07 Article PeerReviewed Cao, Yan and Ayed, Hamdi and Algelany, A. M. and Dahari, Mahidzal and Nguyen, Phuoc Quy Phong and Gepreel, Khaled A. and Nguyen, Van Nhanh and Ehab, Mohamed and Wae-hayee, Makatar (2022) Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application. Case Studies in Thermal Engineering, 35. ISSN 2214-157X, DOI https://doi.org/10.1016/j.csite.2022.102123 <https://doi.org/10.1016/j.csite.2022.102123>. 10.1016/j.csite.2022.102123 |
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TA Engineering (General). Civil engineering (General) U Military Science (General) Cao, Yan Ayed, Hamdi Algelany, A. M. Dahari, Mahidzal Nguyen, Phuoc Quy Phong Gepreel, Khaled A. Nguyen, Van Nhanh Ehab, Mohamed Wae-hayee, Makatar Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application |
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Latent heat thermal energy storage (LHTES) systems are widely used due to their ability to store a lot of heat energy as latent, and few studies have directly or indirectly investigated on the heat exchange methods with LHTES systems. In the present study, the free convection of a mixture of water and Nano-encapsulated phase change material (NEPCM) with a porous medium was used to exchange heat energy between a cold-water stream and a hot tank filled phase change material (PCM). NEPCM are nanostructures consisted of a solid shell and a PCM core, and the addition of these nanostructures to water has remarkable effects on the heat transfer parameters. In this research, a number of cases were simulated using computational fluid dynamic (CFD) to observe the impacts of injecting NEPCM to water, the porosity of the porous media and the location of the phase change zone on the average heat flux of the PCM tank. The results showed that increment of porosity number from 0.85 to 0.95 decreased the average heat flux of the PCM tank by 13.8%. Moreover, adding 3% NEPCM to water enhanced the average heat flux of the PCM tank by 22.2% and 18.4% when porosity numbers were 0.85 and 0.95, respectively. |
| format |
Article |
| author |
Cao, Yan Ayed, Hamdi Algelany, A. M. Dahari, Mahidzal Nguyen, Phuoc Quy Phong Gepreel, Khaled A. Nguyen, Van Nhanh Ehab, Mohamed Wae-hayee, Makatar |
| author_facet |
Cao, Yan Ayed, Hamdi Algelany, A. M. Dahari, Mahidzal Nguyen, Phuoc Quy Phong Gepreel, Khaled A. Nguyen, Van Nhanh Ehab, Mohamed Wae-hayee, Makatar |
| author_sort |
Cao, Yan |
| title |
Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application |
| title_short |
Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application |
| title_full |
Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application |
| title_fullStr |
Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application |
| title_full_unstemmed |
Receiving heat from a PCM tank by using natural convection of water and NEPCM: A simulation for LHTES application |
| title_sort |
receiving heat from a pcm tank by using natural convection of water and nepcm: a simulation for lhtes application |
| publisher |
Elsevier |
| publishDate |
2022 |
| url |
http://eprints.um.edu.my/42171/ |
| _version_ |
1781704604824633344 |