This paper presents a review of the current state-of-the-art in micropum** technology for
biomedical applications. The review focuses particularly on the actuation schemes, flow …

The concept of targeted and controlled drug delivery, which directs treatment to precise
anatomical sites, offers benefits such as fewer side effects, reduced toxicity, optimized …

In the present work, the magnetohydrodynamic flow and heat transfer of a micropolar tri-
hybrid nanofluid between two porous surfaces inside a rotating system has been examined …

The current work intends to describe the heat and mass transfer in the mixed bioconvective
flow of nanofluid along the sphere. This analysis also takes into account the influences of a …

One of the modern methods to increase heat transfer in fluids is the use of Hybrid
nanoparticles instead of nanoparticle. Therefore, in this paper mahnetohydrodynamic (MHD) …

This work studies the thermogravitational transmission and thermal radiation of micropolar
nanoliquid within a porous chamber in the presence of the uniform magnetic influence. The …

The current work is concerned with the study of the impacts of a periodic magnetic field on
natural convection and entropy generation of Fe 3 O 4-water nanofluid flowing in a square …

In this paper, magnetohydrodynamic (MHD) boundary layer flow and heat transfer of an
incompressible Iron (II, III) oxide (Fe 3 O 4)-ethylene glycol ((CH 2 OH) 2) nanoparticle on …

Numerical study on magnetohydrodynic (MHD) flow and heat transfer of incompressible
CNTs-water nanoparticles (single wall carbon and tube (SWCNT) and multiwall cabin …

Time-dependent and incompressible squeezing flow of Casson and micropolar nanofluids is
analyzed. The non-Newtonian liquids are confined through parallel disks. The bottom disk is …