This investigation unfolds the hydrothermal changes of magnetized buoyancy-driven multi-
walled carbon nanotube (MWCNT)-Fe 3 O 4-water hybrid nanofluidic flow through two …

The focus of this paper revolves around the examination of flow of ternary hybrid nanofluid,
specifically the Al 2 O 3–Cu-CNT/water mixture, with buoyancy effect, across three distinct …

This study deals with the entropy generation analysis of synthetic cilia using a ternary hybrid
nanofluid (Al–Cu–Fe2O3/Blood) flow through an inclined channel. The objective of the …

The buoyancy-induced flow inside a circular chamber explores many promising applications
in heat exchangers, electronic cooling, solar receivers, cavity resonators, electromagnetic …

The modeling and analysis of hybrid nanofluid has much importance in industrial sector
where entropy optimization is the key factor in different processes. This mechanism is also …

This study explores the impacts of heat transportation on hybrid (Ag+ MgO) nanofluid flow in
a porous cavity using artificial neural networks (Bayesian regularization approach (BRT …

Abstract Artificial Neural Networks are incredibly efficient at handling complicated and
nonlinear mathematical problems, making them very useful for tackling these challenges …

The present theoretical study focuses on enhancing the performance and efficiency of
casting and extrusion processes. Thus, this work examines the flow characteristics and heat …

This research explores the 3-D flow characteristics, entropy generation and heat
transmission behavior of nanofluids consisting of copper and titanium in water as they flow …

The study of heat transfer in fluid flows across permeable media is critical in many
engineering applications, including energy systems, cooling technologies, and chemical …