Propulsion and Power Research (Dec 2019)
Hydromagnetic unsteady slip stagnation flow of nanofluid with suspension of mixed bio-convection
Abstract
In this paper, stagnation point region (suspended with nanofluid and microorganisms) is examined subjected to velocity and thermal slips. The flow is assumed to be flowing across an exponentially stretching flat surface under magnetic field environment. Governing transport equations (framed under Buongiorno's model) are converted into self-similar form through suitable unsteady exponential similarity transformations which are then solved by employing implicit finite difference scheme (IFDS) known as Keller-box method (KBM). A parametric analysis is performed along with limited details of KBM. Influence of pertinent constraints on local skin friction, local Nusselt number, local Sherwood number and local density number of micro-organisms are also uncovered through graphs. A significant decrease in skin-friction coefficients has been detected with respect to thermal slip in comparison to velocity slip. Keywords: Unsteady flow, Stagnation point region, Mixed convection, Microorganisms, Nanoparticles, Slip regime, Keller-box scheme
