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

Develo** an effective heat exchange solvent remains one of the biggest hurdles facing
industries today, as conventional fluids are unsatisfactory for effective heating and cooling …

The current model offers valuable insights for materials science, heat exchangers,
renewable energy production, nanotechnology, manufacturing, medicinal treatments, and …

The study of nanofluids using a stretchy disc has lately gained importance in fluid
mechanics. This work investigates the impacts of the Cattaneo-Christov model, heat …

Our current research explores the computational analysis of magnetized 3D revolving hybrid
nanofluid flow with nonlinear thermal radiation and heat source/sink effects over a stretching …

A literature review shows that nanofluids are more effective for heat transfer than traditional
fluids. However, our understanding of current methods to enhance heat transfer in …

Bioconvective flows over a thin needle hold significant importance in various fields,
particularly in biomedical engineering, microfluidics, and environmental science. This paper …

Advanced technological applications of hybrid nanofluid flow over a Riga surface are vital
because of their diversified physical properties. In particular, there are applications like …

Nanofluids were proposed in the early 1990s and have gone through enormous growth from
theoretical ideas to realistic technologies in numerous fields, including cooling systems and …

Interaction of waste discharge concentration in hydromagnetized boundary-layer (BL)
Jeffery non-Newtonian nanofluid is explored in the current article. The chemically reactive …