Increasing the heat transfer rate of heat transfer equipment is an ever-lasting topic in thermal
engineering. Due to the advantages of light weight, high specific surface, high thermal …

In this paper, the effects of temperature and nanoparticles concentration on the rheological
behavior of Fe 3 O 4–Ag/EG hybrid nanofluid have been experimentally investigated. Stable …

The significant bioconvection phenomenon with the utilization of nanoparticles encountered
fundamental industrial and technological applications in recent years. This communication …

Simultaneous application of nanoparticles and porous media to enhance heat transfer
inside an annulus is investigated numerically. Two-phase mixture model along with Darcy …

A mathematical model is developed to examine the effects of the Stefan blowing, second
order velocity slip, thermal slip and microorganism species slip on nonlinear bioconvection …

Background Bioconvection is the term for macroscopic convection of particles accompanied
by a variable density gradient and a cluster of swimming microorganisms. The accumulation …

The effects of Stefan blowing and the velocity, thermal and solutal slips on bioconvection
nanofluid flow over a horizontal moving plate are numerically investigated. The Lie group …

Owing to the magnified thermal performances of nanoparticles and essential applications in
various industrial and engineering processes like heat exchangers, cooling systems, boilers …

The thermal performances based on the interaction of nanoparticles are the topic of great
interest in recent years. In the current continuation, we have utilized the activation energy …

The present investigation concentrates on three dimensional unsteady forced bio-
convection flow of a viscous fluid. An incompressible flow of a micropolar nanofluid encloses …