Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation
Cooling is one of the most important issues for thermal engineers, and the use of simple and inexpensive methods greatly contributes to the efficiency of a thermal system. Also, in recent decades, the development of numerical methods and the advent of computers has led to the emergence of computer s...
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my.um.eprints.429142023-09-14T00:16:09Z http://eprints.um.edu.my/42914/ Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation Cao, Yan Mansir, Ibrahim B. Mouldi, Abir Gepreel, Khaled A. Dahari, M. Le, Tri Hieu Badran, Mohamed Fathy Nguyen, Van Nhanh Wae-hayee, Makatar TJ Mechanical engineering and machinery TK Electrical engineering. Electronics Nuclear engineering Cooling is one of the most important issues for thermal engineers, and the use of simple and inexpensive methods greatly contributes to the efficiency of a thermal system. Also, in recent decades, the development of numerical methods and the advent of computers has led to the emergence of computer simulations. In present numerical study, the natural convection mechanism of nanofluid based on water and titanium oxide (TiO2) were simulated by computational fluid dynamics (CFD) to cool a hot inclined plate inside a square chamber. The considerable innovation in this study is the nanofluids properties depending on temperature, nanoparticle diameter and volume fraction and the cavity is able to incline. The impacts of two Rayleigh numbers (102 < Ra < 104), four volume fractions (0 < phi < 0.06) and four inclined angles (0 < gamma < 45) were analyzed on the average convective heat transfer coefficient. This study briefly demonstrated that the optimum values of volume fraction for Rayleigh numbers 102and 104 were 0.06 and 0.02, respectively. Moreover, increasing the volume fraction to 6% in low Reynolds number improved the average convective heat transfer coefficient by 21%. Elsevier 2022-05 Article PeerReviewed Cao, Yan and Mansir, Ibrahim B. and Mouldi, Abir and Gepreel, Khaled A. and Dahari, M. and Le, Tri Hieu and Badran, Mohamed Fathy and Nguyen, Van Nhanh and Wae-hayee, Makatar (2022) Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation. Case Studies in Thermal Engineering, 33. ISSN 2214-157X, DOI https://doi.org/10.1016/j.csite.2022.101926 <https://doi.org/10.1016/j.csite.2022.101926>. 10.1016/j.csite.2022.101926 |
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TJ Mechanical engineering and machinery TK Electrical engineering. Electronics Nuclear engineering Cao, Yan Mansir, Ibrahim B. Mouldi, Abir Gepreel, Khaled A. Dahari, M. Le, Tri Hieu Badran, Mohamed Fathy Nguyen, Van Nhanh Wae-hayee, Makatar Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation |
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Cooling is one of the most important issues for thermal engineers, and the use of simple and inexpensive methods greatly contributes to the efficiency of a thermal system. Also, in recent decades, the development of numerical methods and the advent of computers has led to the emergence of computer simulations. In present numerical study, the natural convection mechanism of nanofluid based on water and titanium oxide (TiO2) were simulated by computational fluid dynamics (CFD) to cool a hot inclined plate inside a square chamber. The considerable innovation in this study is the nanofluids properties depending on temperature, nanoparticle diameter and volume fraction and the cavity is able to incline. The impacts of two Rayleigh numbers (102 < Ra < 104), four volume fractions (0 < phi < 0.06) and four inclined angles (0 < gamma < 45) were analyzed on the average convective heat transfer coefficient. This study briefly demonstrated that the optimum values of volume fraction for Rayleigh numbers 102and 104 were 0.06 and 0.02, respectively. Moreover, increasing the volume fraction to 6% in low Reynolds number improved the average convective heat transfer coefficient by 21%. |
| format |
Article |
| author |
Cao, Yan Mansir, Ibrahim B. Mouldi, Abir Gepreel, Khaled A. Dahari, M. Le, Tri Hieu Badran, Mohamed Fathy Nguyen, Van Nhanh Wae-hayee, Makatar |
| author_facet |
Cao, Yan Mansir, Ibrahim B. Mouldi, Abir Gepreel, Khaled A. Dahari, M. Le, Tri Hieu Badran, Mohamed Fathy Nguyen, Van Nhanh Wae-hayee, Makatar |
| author_sort |
Cao, Yan |
| title |
Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation |
| title_short |
Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation |
| title_full |
Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation |
| title_fullStr |
Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation |
| title_full_unstemmed |
Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation |
| title_sort |
using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: a numerical simulation |
| publisher |
Elsevier |
| publishDate |
2022 |
| url |
http://eprints.um.edu.my/42914/ |
| _version_ |
1778161680202596352 |
| score |
13.160551 |