[HTML][HTML] Magnetohydrodynamics of nanofluid internal forced convection: A review and outlook for practical applications
Nanofluids (NFs) have emerged as a revolutionary medium for enhancing heat transfer, with
magnetohydrodynamics (MHD) gaining particular attention for its potential to improve …
magnetohydrodynamics (MHD) gaining particular attention for its potential to improve …
[HTML][HTML] Mixed Convection Heat Transfer Characteristics of Al2O3–MWCNT Hybrid Nanofluid under Thermally Developing Flow; Effects of Particles Percentage …
IU Ibrahim, M Sharifpur, JP Meyer - Applied Thermal Engineering, 2024 - Elsevier
In this research, an experimental investigation of hybrid nanofluid mixed convection heat
transfer characteristics is conducted. The research specifically investigates the effects of …
transfer characteristics is conducted. The research specifically investigates the effects of …
[HTML][HTML] Experimental investigation of heat transfer, thermal efficiency, pressure drop, and flow characteristics of Fe3O4-MgO magnetic hybrid nanofluid in transitional …
VO Adogbeji, M Sharifpur, JP Meyer - International Journal of Thermal …, 2025 - Elsevier
This study investigates the heat transfer characteristics of Fe 3 O 4-MgO/DIW Magnetic
Hybrid Nanofluids (MHNFs) compared to deionized water (DIW) across turbulent, laminar …
Hybrid Nanofluids (MHNFs) compared to deionized water (DIW) across turbulent, laminar …
Heat and fluid flow characteristics of ferrofluids circulating in a heat exchanger with a magnetic vortex generator
L Boutas, M Marzougui, J Zinoubi… - Heat Transfer …, 2024 - dl.begellhouse.com
The current work is aimed at numerical investigation and analysis of entropy generation and
thermal efficiency of Fe 3 O 4/water nanofluids flowing through a heat exchanger …
thermal efficiency of Fe 3 O 4/water nanofluids flowing through a heat exchanger …
[引用][C] Mixed convection heat transfer characteristics of Al2O3–MWCNT hybrid nanofluid under thermally developing flow; effects of particles percentage weight …
I Umar Ibrahim, M Sharifpur, JP Meyer - 2024 - Elsevier