International Journal of Science, Engineering and TechnologyAuthors: Ch. Janaiah, B. Saidi Reddy
Abstract: This research examines the two-dimensional flow of a continuous bio-convective magnetohydrodynamic (MHD) nanofluid. This flow is driven by a porous substance stretched across a sheet and by movable gyrotactic microorganisms. Mass fluxes and Cattaneo-Christov heat are among the physical variables examined in order to understand the system's flow dynamics. Finding out how different things influence microorganisms, concentration, speed, and temperature is our main goal. Discovering this kind of flow issue is necessary for controlling the movement of heat and liquids around a stretched sheet. A variety of bioengineering applications, including microfluidics, cooling systems, and bioreactors (including microbial fuel cells), may make use of this material. There were practical reasons for starting the investigation, and there were also scientific grounds. The nonlinear ordinary differential equations derived from the governing equations may be solved using the MATLAB bvp4c tool. The effects on velocity, concentration, temperature, and microbial growth may be shown graphically. Moreover, the impacts on the Motile density, Sherwood number, skin friction, and Nusselt number parameters are shown in a table. Because it addresses the concerns raised by Rashidi et al. [21], this study stands out. This study has some common ground with Rashidi et al. [21].
DOI: https://doi.org/10.5281/zenodo.19468102
