Chemical Reaction and its Influence on MHD Flow on Continuously Moving Vertical Surface with Uniform Heat and Mass Flux

Article Sidebar

PDF
Published: Dec 15, 2020
DOI: https://doi.org/10.61841/turcomat.v11i3.14362
Keywords:
MHD, Heat and mass flux, Chemical reaction parameter, Homogeneous reaction

Main Article Content

Vinay Kumar Jadon
Department of Applied Sciences, Anand Engineering College, Agra
Santosh Kumar Bharadwaj
Department of Mathematics & Computing, Madhav Institute of Technology & Science, Gwalior
Amit Sharma
Department of Applied Sciences, Anand Engineering College, Agra
Rachana Khurana
Department of Applied Sciences, Anand Engineering College, Agra
Jitendra Kumar
Department of Mathematics & Computing, Madhav Institute of Technology & Science, Gwalior
Dilip Kumar Mishra
Department of Mathematics & Computing, Madhav Institute of Technology & Science, Gwalior

Abstract

Present study is concerned the influence of chemical reaction on Magneto Hydro Dynamics (MHD) flow on continuously moving vertical surface with uniform heat and mass flux taking into account the ho mogeneous chemical reaction of 1st order. The expressions for velocity, temperature, concentration and skin friction are obtained. The effects of various parameters are discussed with the help of graphs and table.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Article Details

How to Cite
Jadon, V. K., Bharadwaj, S. K., Sharma, A. ., Khurana, R. ., Kumar, J. ., & Mishra, D. K. . (2020). Chemical Reaction and its Influence on MHD Flow on Continuously Moving Vertical Surface with Uniform Heat and Mass Flux. Turkish Journal of Computer and Mathematics Education (TURCOMAT), 11(3), 2613–2619. https://doi.org/10.61841/turcomat.v11i3.14362
Issue
Vol. 11 No. 3 (2020)
Section
Articles
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Licensing 

TURCOMAT publishes articles under the Creative Commons Attribution 4.0 International License (CC BY 4.0). This licensing allows for any use of the work, provided the original author(s) and source are credited, thereby facilitating the free exchange and use of research for the advancement of knowledge. 

Detailed Licensing Terms 

Attribution (BY): Users must give appropriate credit, provide a link to the license, and indicate if changes were made. Users may do so in any reasonable manner, but not in any way that suggests the licensor endorses them or their use. 

No Additional Restrictions: Users may not apply legal terms or technological measures that legally restrict others from doing anything the license permits. 

Crossref
Scopus
Google Scholar
Europe PMC

References

Angirasa,D., Peterson G.P., PopI., :Combined heat and mass transfer by natural convection with

opposing buoyancy effects in a fluid saturated porous medium, Int.J. Heat Mass Tran. 40(12),

(1997), 2755-2773.

Henkes, R.A., Hoogendoorn, W.M., Natural convection boundary layer flow along a heated vertical

plate in a stratified environment, Int.J. Heat Mass Tran. 32(1), (1989), 147-155.

Ganesan.P and Loganathan P.: Heat and mass flux effects on a moving vertical cylinder with

chemically reactive species diffusion, J.Engineering Physics and Thermodynamics 75(4), (2002),

-909.

Muthucumaraswamy, R. and Ganesan, P.: Natural convection on a moving isothermal vertical plate

with chemical, J. Engineering Physics and Thermodynamics 75(1),(2002), 113 -119.

Rahman, M. and Mulolani, I.: Convective diffusive transport chemical reaction in natural

convection flows. Theo. and comp. Fluid Dynamics 13(5),(2002),291-304.

Jadon, V.K., Jha, Rajeev, Yadav, S.S., heat transfer in MHD free convection flow over an infinite

vertical plate through porous medium with time dependent suction, Alig. Bulle. of Math

(1),(2007), 29-35.

Ahmadi, G. and R. Manvi. Equation of motion for viscous flow through a rigid porous medium.

Indian J. Tech., 9, (1971), 441-444.

Koriko, O.K., Approximate solutions of a higher order MHD flow of a uniformly stretched vertical

permeable surface in the presence of heat generation/absorption which resulted from quadratic

reaction, J. Math. Stat., 6, (2010), 96-99.

Jadon, V.K. and Yadav, S.S., Effects of chemical reaction on MHD free convective flow of viscous

fluid through porous medium bounded by an oscillating porous plate in slip flow regime, J ournal

Eng. Applied Sci., 6(6), (2011), 349-353.

Reddy, J. S. Reddy, G., Reddy, N.B., : Heat and mass transfer effects on MHD flow of

continuously moving vertical surface with uniform heat and mass flux, Acta Cien. Ind. 34 M (2),

(2008),711-716.

Ramana, R.M., Kumar J.G.: Chemical reaction effects on MHD free convective flow past an

inclined plate, Asian J. Curerent Engineering Mathematics, 3(2014), 66-71.

Patel H. R.: Effects of heat generation, thermal radiation, and hall current on MHD casson fluid flow past an

oscillating plate in porous medium. Multiphase Sci. Technol, 31(1), (2019), 87-107.

Selimefendigil F., Öztop H.F. Corrugated conductive partition effects on MHD free convection of CNTwater nanofluid in a cavity. Int. J. Heat Mass Transf. 2019;129:265–277.

Selimefendigil F., Öztop H.F. Modeling and optimization of MHD mixed convection in a lid-driven

trapezoidal cavity filled with alumina–water nanofluid: effects of electrical conductivity models. Int. J.

Mech. Sci. 2018;136:264–278.

Waqas M., Farooq M., Khan M.I., Alsaedi A., Hayat T., Yasmeen T. Magnetohydrodynamic (MHD) mixed

convection flow of micropolar liquid due to nonlinear stretched sheet with convective condition. Int. J. Heat

Mass Transf. 2016;102:766–772.