TY - JOUR
TI - Unsteady heat transfer of Maxwell nanofluid-flow with thermal radiation and bioconvectionover a stretching sheet modelling and simulation
AU - Mahariq Ibrahim
AU - Shaheen Muhammad
AU - Fiza Mehreen
AU - Ullah Hakeem
AU - Akgul Ali
AU - Elnaggar Ghada R
AU - Khan Ilyas
AU - Koh Wei Sin
JN - Thermal Science
PY - 2025
VL - 29
IS - 5
SP - 4081
EP - 4089
PT - Article
AB - Present analysis deals with bioconvection of MHD Maxwell nanofluid. Heat  transmission under the influence of heat generation, radiation and joule  heating is considered. Presence of gyrotactic microorganism is discussed.  Boungiorno model is use to analyze characteristic of nanofluid through the  Brownian motion and thermophersis diffusion. Related expressions are (PDE)  are transform into dimensionless system. Homotopy analysis method use for  getting convergence series solution. Importance of Peclet number, Prandtl  number, bioconvection Lewis number, heat generation, magnetic field,  radiation, thermophoresis parameter and Brownian motion for temperature,  velocity, nanofluid concentration and microorganism concentration is  highlighted. Velocity decay for high magnetic field. Increase bioconvection  Lewis number microorganism concentration decay. Temperature decay with high  escalates radiation parameter.
DO - 10.2298/TSCI2505081M
ER -