Unsteady MHD Free Convection Flow of Nanofluid Past an Accelerated Vertical Plate with Variable Temperature and Thermal Radiation

“…Incorporating the above assumptions, the dimensional governing equations (Rajesh et al, [50]) for unsteady free convective-radiative heat and mass transfer flow of an incompressible viscous Newtonian magnetic nanofluid, in the presence of heat generation/absorption under the Boussinesq and boundary layer approximations may be shown to take the form:…”

“…The hydromagnetic flow at an oscillating plate has important application in acoustic streaming problems also. Therefore, the corresponding initial and boundary conditions for velocity distributions (Vajravelu and Rivera [48] and Das et al [49]) and for the temperature distributions (Rajesh et al [50]) on the vertical surface and in free stream may be defined as:…”

“…, showing very good correlation and the comparisons are shown in Table 3. Furthermore, comparisons of the present finite element solutions with Rajesh et al [50] have also been made in the absence of heat source/sink and permeability parameter with 0 0 …”

Finite element computation of magnetohydrodynamic nanofluid convection from an oscillating inclined plate with radiative flux, heat source and variable temperature effects

“…Incorporating the above assumptions, the dimensional governing equations (Rajesh et al, [50]) for unsteady free convective-radiative heat and mass transfer flow of an incompressible viscous Newtonian magnetic nanofluid, in the presence of heat generation/absorption under the Boussinesq and boundary layer approximations may be shown to take the form:…”

“…The hydromagnetic flow at an oscillating plate has important application in acoustic streaming problems also. Therefore, the corresponding initial and boundary conditions for velocity distributions (Vajravelu and Rivera [48] and Das et al [49]) and for the temperature distributions (Rajesh et al [50]) on the vertical surface and in free stream may be defined as:…”

“…, showing very good correlation and the comparisons are shown in Table 3. Furthermore, comparisons of the present finite element solutions with Rajesh et al [50] have also been made in the absence of heat source/sink and permeability parameter with 0 0 …”

Finite element computation of magnetohydrodynamic nanofluid convection from an oscillating inclined plate with radiative flux, heat source and variable temperature effects

“…The free convection flow of nanofluid past an infinite accelerated plate with increasing wall temperature and damped thermal flux was shown by Nisa et al (2019). Vemula et al (2016) give the study of the effect of the unsteady free convection of nanofluid past the accelerated vertical plate with uniform wall temperature and radiation. They showed the effect of the increase of temperature and the exponential acceleration of the vertical plate on the convection of nanofluid.…”

Natural Convection of Nanofluids Past an Accelerated Vertical Plate With Variable Wall Temperature by Presence of the Radiation

“…Ramana Reddya, Sugunammaa Sandeep and Sulochanab [10] used perturbation technique to study the impact of chemical transformation and emission of nanofluid gyrating over a permeable even plate. The unstable MHD heat transformation of nanofluid past over the vertical plate with the influence of variable temperature and thermal radiation.This method was analytically studied by Rajesh Vemula ,Lomenta Debnath and Sridevi Chakrala [11]. Sandeep † and Jagadeesh Kumar [12] considered Runge-Kutta integration scheme with shooting technique is to resolve the consequence of heat and mass transposition in nanofluid flow over an inclined sheet along with dust volume fraction of nanoparticles.…”

Heat and Mass Transfer Effects on MHD Nanofluids Past Over an Inclined Plate