000			a
999			_c8069 _d8069
003			OSt
005			20220721154820.0
008			190101b xxu||||| |||| 00| 0 eng d
040			_aAIKTC-KRRC _cAIKTC-KRRC
100			_97346 _aNayak, M. K.
245			_aChemically reacting and radiating nanofluid flow past an exponentially stretching sheet in a porous medium
250			_aVol. 56(10), October
260			_aNew Delhi _c2018 _bCSIR
300			_a773-786
520			_aThe influence of non-uniform permeability, thermal radiation and variable chemical reaction on three-dimensional flow of an incompressible nanofluid over an exponentially-stretching sheet in association with a convective boundary condition has been investgated. In the present study, a new micro-convection model known as Patel model has been employed to enhance the thermal conductivity and hence the heat transfer capability of nanofluids. In the present analysis, base fluids such as water, 30% ethylene glycol, 50% ethylene glycol and nanoparticles such as Cu, Ag and Fe3O4 have been considered. With the help of some suitable transformations the governing partial differential equationsare converted into a set of ordinary differential equations which have beeen then solved numerically by using fourth-order Runge-Kutta method along with shooting technique. The influence of various embedded physical parameters have been explored through graphs for velocity, temperature, concentration, skin friction, local Nusselt and Sherwood numbers. The resistive force offered by the porous matrix belittles the momentum boundary layer and helps in growing the temperature and concentration boundary layers. Fluid temperature is an increasing function of radiation parameter Rd and Biot’s number Bi whereas concentration field is a decreasing function of Schmidt number Sc and chemical reaction parameter γ.
650		0	_94642 _aHumanities and Applied Sciences
700			_97347 _aShaw, Sachin
773	0		_x0019-5596 _tIndian journal of pure & applied physics (IJPAP) _dNew Delhi CSIR-NISCAIR
856			_yClick here _uhttp://nopr.niscair.res.in/handle/123456789/45246
942			_2ddc _cAR