RT Journal Article ID 1a7178881d40d7a7 A1 Hakeem, A. K. Abdul A1 Kalaivanan, R. A1 Ganga, B. A1 Ganesh, N. Vishnu T1 NANOFLUID SLIP FLOW THROUGH POROUS MEDIUM WITH ELASTIC DEFORMATION AND UNIFORM HEAT SOURCE/SINK EFFECTS JF Computational Thermal Sciences: An International Journal JO CTS YR 2019 FD 2018-11-20 VO 11 IS 3 SP 269 OP 283 K1 elastic deformation K1 inclined magnetic field K1 Darcy porous media K1 second-grade nanofluid K1 uniform heat source/sink AB The uniform heat source/sink effect on second-grade nanofluid flow over a stretching sheet embedded in Darcian porous medium is studied with elastic deformation. The partial slip, heat flux, and mass flux boundary conditions are considered. The magnetic field is applied in various directions. The nanofluid model is considered with viscoelasticity, Brownian motion and theromophosis mechanisms. Mathematical equations governing the problem are solved numerically using the fourth-order Runge-Kutta method with shooting iteration technique. The flow and heat transfer phenomena are analyzed through plots for various sets of physical parameters. It is found that the presence of elastic deformation and the uniform heat source increase the thickness of the nanofluid thermal and concentration boundary layers. PB Begell House LK https://www.dl.begellhouse.com/journals/648192910890cd0e,6a05a6167690f470,1a7178881d40d7a7.html