Bioconvection due to microorganisms is important area of research, considerably
importance for environment and sustainable fuel cell technologies. Buongiorno nanofluid …

Abstract This article communicates Cattaneo-Christov heat and mass flux theory in the flow
of Maxwell nanofluid and gyrotactic microorganisms towards a spinning disk with the effects …

In the fluidic system, Hall and Ion slip parameters play a critical role in reducing heat
dissipation. In the present work, mathematical equations of Eyring–Powell nanofluid are …

An incompressible, MHD, bioconvective flow of Maxwell fluid is studied. The rotating isolated
disk caused the fluid motion. The disk also stretches with constant rate along radial direction …

The movement of microorganism cells in fluid influences various biotic processes, including
septicity and marine life ecology. Many organic and medicinal applications need to look into …

The current article scrutinizes the magneto-bioconvective of nanofluid flow through a rotating
cone using Cattaneo-Christov heat flux model. Additionally, we analyzed about cross …

The addition of gyrotactic microbes in the nanoparticles is essential to embellish the thermal
efficiency of many systems such as microbial fuel cells, bacteria-powered micro-mixers …

The microorganisms' concept has appealed substantial consideration of modern
researchers because of its utilization in commercial and industrial products, for illustration …

The bioconvection nanofluid flow study is one of the most popular topics since it has a wide
variety of physical significance in biofuels, bioengineering, and medicinal research. The …

Usage of nanoparticles along with bioconvection is one of the emerging techniques for heat
transfer augmentation. The presence of Hall and ion effects becomes imperative and cannot …