“Unsteady MHD natural convection flow along an accelerated porous plate with Hall current and mass transfer in a rotating porous medium.” Journal of Energy, Heat and Mass Transfer 22.2 (2000): 67-72.
#Trnsys modele 576 free
“Analytical study of MHD free convective, dissipative boundary layer flow past a porous vertical surface in the presence of thermal radiation, chemical reaction and constant suction.” Ain Shams Engineering Journal 5.4 (2014): 1361-1369. “Radiation, dissipation and Dufour effects on MHD free convection Casson fluid flow through a vertical oscillatory porous plate with ion-slip current.” International Journal of Heat and Technology 36 (2018): 494-508. “Perturbation technique for unsteady MHD mixed convection periodic flow, heat and mass transfer in micropolar fluid with chemical reaction in the presence of thermal radiation.” Open Physics 10.5 (2012): 1150-1167. “Unsteady MHD free convective chemically reacting fluid flow over a vertical plate with thermal radiation, Dufour, Soret and constant suction effects.” Alexandria engineering journal 57.4 (2018): 3863-3871. “Unsteady MHD mixed convective flow of chemically reacting and radiating couple stress fluid in a porous medium between parallel plates with Soret and Dufour effects.” Arabian Journal for Science and Engineering 41.5 (2016): 1941-1953. “Effects of Hall current and radiation absorption on MHD micropolar fluid in a rotating system.” Ain Shams Engineering Journal 4.4 (2013): 843-854. “An Unsteady MHD Free Convection Flow of Casson Fluid Past an Exponentially Accelerated Infinite Vertical Plate through a Porous Media in the Presence of Thermal Radiation, Chemical Reaction and Heat Source or Sink” International Journal of Engineering and Techniques 4.4 (2018): 16-27. “Unsteady MHD free convection and mass transfer flow in a rotating system with Hall current, viscous dissipation and Joule heating.” Journal of Energy, Heat and Mass Transfer 22.2 (2000): 31-39. “Heat and mass transfer in MHD micropolar flow over a vertical moving porous plate in a porous medium.” Transport in Porous Media 56.1 (2004): 17-37. “Soret–Dufour effects on MHD heat and mass transfer of Walter’sB viscoelastic fluid over a semi-infinite vertical plate: spectral relaxation analysis.” Journal of Taibah University for Science 13.1 (2019): 49-62. “Unsteady magnetohydrodynamic micropolar fluid flow and heat transfer over a vertical porous plate through a porous medium in the presence of thermal and mass diffusion with a constant heat source.” Canadian Journal of Physics 82.10 (2004): 775-790.
“Scaling group transformation for MHD boundary layer free convective heat and mass transfer flow past a convectively heated nonlinear radiating stretching sheet.” International Journal of Heat and Mass Transfer 56.1-2 (2013): 181-187. “Effect of Brownian motion and thermophoresis on a nonlinearly stretching permeable sheet in a nanofluid.” Advances in Nanoparticles 5.01 (2016): 123. “Unsteady MhdCasson Fluid Flow Through Porous Medium With Heat Source/Sink And Time Dependent Suction.”Volume 56 Issue 6- April 2018.
“Chemical Reaction and Soret Effects on Casson MHD Fluid Flow over a Vertical Plate.” Int.
“Effects of thermal radiation, Soret and Dufour on an unsteady heat and mass transfer flow of a chemically reacting fluid past a semi-infinite vertical plate with viscous dissipation.” Journal of the Nigerian mathematical Society 35.1 (2016): 142-158. MHD,Casson fluid,Dufour effect,Free convection,Chemical reaction, Refference:
#Trnsys modele 576 skin
Furthermore, skin fiction coefficient, Nusselt number and Sherwood number for different values of governing parameters are calculated and the results are summarized in tabular form. The analysis shows that Casson fluid parameter increases the velocity Dufour number increases the velocity and velocity magnetic field force decreases the velocity Chemical reaction rate increases the temperature but decreases the velocity and concentration Grashof numbers increase the velocity when their values are increasingly varied. Expressions for velocity, temperature and concentration for the flow are obtained and presented graphically. The dimensionless governing equations are solved analytically using the three term perturbation method. We examine the unsteady MHD free convective flow of a chemically reacting incompressible fluid over a vertical permeable plate under the influence of thermal radiation, Dufour and heat source/sink.