Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
An analysis has been carried out to study the two-dimensional free convective boundary layer MHD nanofluid flow past an inclined plate with heat generation, chemical reaction and radiation effects under convective boundary conditions. The partial differential equations describing the flow are coupled nonlinear. They have been reduced to nonlinear ordinary differential equations by utilizing a similarity transformation, which is then solved numerically with the aid of the Runge-Kutta-based shooting technique. Graphs depict the influence of different controlling factors on the velocity, temperature, and concentration profiles. Numerical findings for skin friction, Nusselt number and Sherwood number are reviewed for distinct physical parameter values. In a limited sense, there is a good correlation between the current study's results and those of the earlier published work.
Rocznik
Tom
Strony
71--83
Opis fizyczny
Bibliogr. 20 poz., tab., wykr.
Twórcy
autor
- Department of Mathematics, Dr Ambedkar Govt Arts College, Chennai 600039, Tamil Nadu, INDIA
autor
- Department of Mathematics, Bharathi Women’s College, Chennai 600108, Tamil Nadu, INDIA
Bibliografia
- [1] Aziz A. (2009): A similarity solution for laminar thermal boundary layer over a flat plate with a convective surface boundary condition.– Comm. Nonlinear Sci. and Num. Siml., vol.14, No.4, pp.1064-1068.
- [2] Chamkha A.J. (1997): Hydromagnetic natural convection from an isothermal inclined surface adjacent to a thermally stratified porous medium.– Int. J. Engng Sci., vol.35, pp.975-986.
- [3] Rajput G.R., Jadhav B.P. and Salunkhe S.N. (2020): Magnetohydrodynamics boundary layer flow and heat transfer in porous medium past an exponentially stretching sheet under the influence of radiation.– Heat Transfer,vol.49, No.5, pp.2906-2920.
- [4] Krishna Y.H., Bindu P., Vijaya N. and Reddy G.R. (2019): Radiation and chemical reaction effects on the boundary layer MHD Casson fluid on a vertical plate embedded in the porous medium.– Int. J. Mech. Engng. Technol., vol.10, pp.1-12.
- [5] Kuznetsov A.V. and Nield D. A. (2010): Natural convective boundary-layer flow of a nanofluid past a vertical plate.– Int. J. Thermal Sci., vol.49, No.2, pp.243-247.
- [6] Lakshmi R., Jayarami K.R., Ramakrishna K. and Reddy G.R. (2014): Numerical Solution of MHD flow over a moving vertical porous plate with heat and Mass Transfer.– Int.J.Chem.Sci.,vol.12, No.14, pp.1487- 1499.
- [7] Ibrahim S.M. and Reddy B.N. (2013): Similarity solution of heat and mass transfer for natural convection over a moving vertical plate with internal heat generation and a convective boundary condition in the presence of thermal radiation, viscous dissipation, and chemical reaction.– Int. Scholarly Research Notices., doi.org/10.1155/2013/790604.
- [8] Makinde O.D. (2010): On MHD heat and mass transfer over a moving vertical plate with a convective surface boundary condition.– The Canadian J. Chem. Engng., vol.88, No.6, pp.983-990.
- [9] Makinde O.D. (2011): Similarity solution for natural convection from a moving vertical plate with internal heat generation and a convective boundary condition.– Thermal Science., vol.15, pp.137-143.
- [10] Manjoolatha E., Suneetha S., Prasanna Lakshmi M. and Bhaskar Reddy N. (2015): Soret and Dufour effects on MHD heat and mass transfer flow over a moving non-isothermal vertical plate with thermal stratification and viscous dissipation.– Int. J. Innovative Sci. Engng. & Tech., vol.2, No.8, pp.866-879.
- [11] Khan M. and Khan W.A. (2016): MHD boundary layer flow of a power-law nanofluid with new mass flux condition.– AIP Advances, vol.6, No.2, p.025211.
- [12] Mjankwi M.A., Masanja V.G., Mureithi E.W. and James M.N.O. (2019): Unsteady MHD flow of nanofluid with variable properties over a stretching sheet in the presence of thermal radiation and chemical reaction.– Int. J. Mathematics and Mathematical Sci., doi.org/10.1155/2019/7392459.
- [13] Raptis A. (1998): A flow of a micropolar fluid past a continuously moving plate by the presence of radiation.– Int. J. Heat and Mass Transfer., vol.41, No.18, pp.2865-2866.
- [14] Sheikholeslami M. and Ganji D.D. (2015): Unsteady nanofluid flow and heat transfer in presence of magnetic field considering thermal radiation.– J. Brazilian Soc. Mech. Sci. and Engng., vol.37, No.3, pp.895-902.
- [15] Sravan Kumar T. and Rushi Kumar B. (2017): Unsteady MHD free convective boundary layer flow of a nanofluid past a moving vertical plate.– IOP Conf. Series: Materials Science and Eng., doi:10.1088/1757-899X/263/6/062015.
- [16] Srinivas S., Reddy P.B.A. and Prasad B.S.R.V. (2014): Effects of chemical reaction and thermal radiation on MHD flow over an inclined permeable stretching surface with non-uniform heat source/sink: An application to the dynamics of blood flow.– J. Mech. Medicine and Biology., vol.14, No.5, p.1450067.
- [17] Reddy D. S. and Govardhan K. (2015): Effect of viscous dissipation, Soret and Dufour effect on free convection heat and mass transfer from vertical surface in a porous medium.– Procedia Materials Sci. vol.10, pp. 563-571.
- [18] Hussain S.M., Sharma R., Seth G.S. and Mishra M.R. (2018): Thermal radiation impact on boundary layer dissipative flow of magneto-nanofluid over an exponentially stretching sheet.– Int. J. Heat Tech., vol.36, No.4, pp.1163-1173.
- [19] Vijaykumar K. and Keshava Reddy E. (2017): Joule heating and radiation absorption effects on MHD convective and chemically reactive flow past an inclined porous plate.– Int. J. Research and Scientific Innovation., vol.4, No.8, pp.66-74.
- [20] Maraka W.M., Ngugi K.M. and Roy K.P. (2018): Similarity solution of unsteady boundary layer flow of nanofluids past a vertical plate with convective heating.– Global J. Pure and App. Math., vol.14, No.4, pp.517-534.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-db00d236-05b2-4095-8214-2574b60e627f