[HTML][HTML] Behaviour of effective heat transfer rate in radiating micropolar nanofluid over an expanding sheet with slip effects
The enhancement in the heat transfer rate is one of the vital aspects nowadays for the main
objective of various industries to get better quality as well as the longevity of the product. Not …
objective of various industries to get better quality as well as the longevity of the product. Not …
Numerical tackling for MHD Darcy-Forchheimer flow of water-based CNTs in a rotating frame with homogeneous-heterogeneous reactions: An artificial neural network …
K Senthilvadivu, S Eswaramoorthi… - … Heat Transfer, Part B …, 2024 - Taylor & Francis
Numerous scientific fields rely heavily on rotating flows, such as jet engine design,
geophysical flows, turbine engineering, vacuum cleaner design, and many others. Prior …
geophysical flows, turbine engineering, vacuum cleaner design, and many others. Prior …
Influence of heat source/sink on a rotating cone in a rotating nanofluid with magnetic field impact: Application of Hosoya polynomial‐based collocation method
The present analysis considers the angular velocities of the free flow and the arbitrarily
fluctuating cone over time, leading to an unsteady stream over a rotating cone in a rotating …
fluctuating cone over time, leading to an unsteady stream over a rotating cone in a rotating …
Optimizing heat transfer rate with sensitivity analysis on nonlinear radiative hydromagnetic hybrid nanofluid flow considering catalytic effects and slip condition …
In current investigation the optimization of heat transportation rate in a nonlinear radiative
buoyancy‐driven hydromagnetic carbon nanotube (CNT) hybrid nanofluid flow is analysed …
buoyancy‐driven hydromagnetic carbon nanotube (CNT) hybrid nanofluid flow is analysed …
[HTML][HTML] Numerical simulation of rotating flow of CNT nanofluids with thermal radiation, ohmic heating, and autocatalytic chemical reactions
The dispersion of carbon nanotubes in conventional fluids provides a variety of applications,
using their unique features to develop efficiency, performance, and functionality in many …
using their unique features to develop efficiency, performance, and functionality in many …
[HTML][HTML] Enhanced heat transport analysis in non-Newtonian chemically reactive hybrid nanofluid flow over a cylindrical geometry subjected to Thompson and Troian …
A Algarni - Journal of Radiation Research and Applied Sciences, 2025 - Elsevier
Heat transport efficiency in a fluid flow over cylindrical geometry is crucial for optimizing and
understanding thermal processes in various fields, ranging from industrial and engineering …
understanding thermal processes in various fields, ranging from industrial and engineering …
Impact of low oscillating magnetic field on ternary hybrid nanofluid flow between two spinning disks with Thompson and Troian slip and modified fourier's law
This study offers a summary of important factors concerning the enhanced thermal
conductivity owing to the low oscillating magnetic flux. In this work, we examine the behavior …
conductivity owing to the low oscillating magnetic flux. In this work, we examine the behavior …
[HTML][HTML] Magnetized Casson hybrid nanofluid flow under the influence of surface-catalyzed reactions over a porous moving wedge
The main finding of this work focuses on the numerical analysis of magnetized Casson
hybrid nanofluid flow via porous moving wedge with surface-catalyzed reactions. Thermal …
hybrid nanofluid flow via porous moving wedge with surface-catalyzed reactions. Thermal …
[引用][C] Impact of Thermal Energy on Water and Ethylene Glycol (50: 50)-Based Rotating Hybrid Nanofluid Past A Riga Surface with Radiation, Homogeneous and …
Hybrid nanofluid is crucial in improving the efficiency of heat transmission in thermal
engineering applications, particularly the cooling of electrical equipment, heat exchangers …
engineering applications, particularly the cooling of electrical equipment, heat exchangers …