Scrutinization of Unsteady Magnetohydrodynamics Williamson Nanofluid Flow and Heat Transfer Past a Permeable Shrinking Sheet

Abstract: This study contributes to the thermal characteristics and flow behaviour of magnetohydrodynamics (MHD) unsteady flow of Williamson nanofluid over a permeable stretching/shrinking sheet in the presence of velocity slip at the boundary. The PDEs with the corresponding constraints are transformed into a set of non-linear ODEs using similarity transformations and are then solved numerically using fourth order Runge-Kutta integration scheme along with shooting technique. The results show that for the flow past a s… Show more

“…u w (x, t) and v w (x, t) denote the momentum of the shrinking sheet and momentum of mass transfer, respectively, where x is the distance and t is the time. Under the above assumptions, the governing equations (Maiti and Nandy, 2023) are as follows:…”

Numerical scrutinization of heat transfer subject to physical quantities through bioconvective nanofluid flow via stretching permeable surfaces

“…u w (x, t) and v w (x, t) denote the momentum of the shrinking sheet and momentum of mass transfer, respectively, where x is the distance and t is the time. Under the above assumptions, the governing equations (Maiti and Nandy, 2023) are as follows:…”

Numerical scrutinization of heat transfer subject to physical quantities through bioconvective nanofluid flow via stretching permeable surfaces

Towards a novel EMHD dissipative stagnation point flow model for radiating copper-based ethylene glycol nanofluids: An unsteady two-dimensional homogeneous second-grade flow case study

Influence of cross-diffusion and activation energy on MHD Williamson nanofluid flow over a nonlinear stretching sheet