Thermal and solutal energy transport analysis in entropy generation of hybrid nanofluid flow over a vertically rotating cylinder

Ahmad, Shafiq; Ahammad, N. Ameer; Khan, Maleq; Algehyne, Ebrahem A.; Eldin, Sayed M.; Gepreel, Khaled A.; Galal, Ahmed M.

doi:10.3389/fphy.2022.988407

Cited by 8 publications

(1 citation statement)

References 48 publications

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“…It can be concluded that the presence of entropy generation affects the fluid flow of a hybrid nanofluid, which can be a control parameter for a certain process. The details of the discovery of the entropy generation can be seen in previous studies [94][95][96][97][98][99][100][101][102][103][104].…”

Section: Entropy Generation Of a Hybrid Nanofluidmentioning

confidence: 99%

Exploration of Recent Developments of Hybrid Nanofluids

Nur Syahidah Nordin,

Abdul Rahman Mohd Kasim,

Masyfu’ah Mokhtar

et al. 2024

ARFMTS

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Over the past two decades, research on hybrid nanofluids has developed at a breakneck pace. Hybrid nanofluids are the potential fluids that outperform conventional nanofluids heat transfer fluids regarding thermophysical characteristics and thermal performance. Hybrid nanofluids are traditionally prepared by emulsifying each nanoparticle into the base fluid independently or diffusing both particles as a composite form into the base fluid. Despite the popularity and broad application of hybrid nanofluids in industrial/manufacturing processes, the review article classifying the mathematical models and categorization of the various hybrid nanofluids is limited in the scientific community. In light of this, this study examines recent and past research articles on deterministic hybrid nanofluid flow problems by exploiting different categorizations and metrics (method to solve the differential equation, the geometry of choice and thermophysical effects that have been employed as well as the nano-particle types). Researchers will be able to use the findings of this study for a future research proposal. Essentially, it is to fill in the gaps in the literature, particularly regarding the mathematical model for hybrid nanofluid flow problems and determining the geometry, thermophysical properties, and nanoparticle type.

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