Abstract
Nanofluids have emerged as powerful instruments in heat transfer applications due to their improved thermophysical properties. Additionally, many heat transfer equipments are started to be operated within the range of transitional flow regions in the advances in thermal management enhancement techniques. However, up to date, the friction factor and heat transfer coefficient features of nanofluids within the transitional flow regions and the effect of nanoparticle addition into the base fluid on the laminar-to-turbulent transition characteristics are still not understood clearly with contradictory published results. At this point, this paper comprehensively reviews the studies dealing with the nanofluid flow within the transitional flow regions for internal flow applications. After the presentation of applications of nanofluid flow in the transitional flow regions, the nanofluid properties such as nanoparticle type and concentration and base fluid type in the reviewed studies are given in detail. The pressure drop and heat transfer features of nanofluid flow within the transitional flow regions are distinctly identified and discussed for internal flows. The effect of the nanoparticle addition into the liquid on the transition onset is discussed with results from different research groups. A complete evaluation, challenges and further studies are proposed based on available results in the literature.
Original language | English |
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Pages (from-to) | 14765-14786 |
Number of pages | 22 |
Journal | Journal of Thermal Analysis and Calorimetry |
Volume | 147 |
Issue number | 24 |
DOIs | |
Publication status | Published - Dec 2022 |
Bibliographical note
Publisher Copyright:© 2022, Akadémiai Kiadó, Budapest, Hungary.
Funding
The first and third authors gratefully acknowledge the financial support of the Istanbul Technical University (ITU) and the Embassy of France in Turkey through the France-ITU Post-doctoral Research Fellowship Program 2019.
Funders | Funder number |
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Istanbul Teknik Üniversitesi |
Keywords
- Convective heat transfer
- Laminar-to-turbulent transition
- Nanofluid
- Pressure drop