Viscous Dispassion and Chemical Reaction Impact on Axisymmetric Flow through a Radially Extending Surface

S. Renuka; Bala Siddulu Malga; K. Govardhan; Ch Kishore Kumar

doi:https://doi.org/10.14445/22315373/IJMTT-V68I10P507

International Journal of Mathematics Trends and Technology

Research Article | Open Access | Download PDF

Volume 68 | Issue 10 | Year 2022 | Article Id. IJMTT-V68I10P507 | DOI : https://doi.org/10.14445/22315373/IJMTT-V68I10P507

Viscous Dispassion and Chemical Reaction Impact on Axisymmetric Flow through a Radially Extending Surface

S. Renuka, Bala Siddulu Malga, K. Govardhan, Ch Kishore Kumar

Received	Revised	Accepted	Published
02 Sep 2022	08 Oct 2022	19 Oct 2022	31 Oct 2022

Abstract

This study presents a truthful mathematical evaluation of axisymmetric flow and heat transfer of an electrically conducting fluid over a radially extending surface. The flow trends occur due to stretching of surface all along radial path with an exponential velocity. The governing highly nonlinear partial differential equations are transmuted into ordinary differential equations by mentioning new similarity transformations. Mathematical analysis for flow performing is achieved using Shooting technique. The velocity, thermal and solutal profiles are shown for a variety of values of dimensionless natural parameters and reviewed in fact. Further Than skin friction coefficient, Nusselt number and Sherwood number are charted and investigated for several values of important parameters.

Keywords

Axisymmetric flow, Heat & Mass Transfer, Mhd, Chemical reaction, Viscous dissipation, Shooting method.

References

[1] D.F. Fairbank, C.R. Wike, “Diffusion, and Chemical Reaction in an Isothermal Laminar Flow along a Soluble Flat Plate,” Industrial & Engineering Chemistry Research, vol. 42, pp. 471–475, 1950.
[2] H.I. Andersson, O.R. Hansen, B. Holmedal, “Diffusion of a Chemically Reactive Species from a Stretching Sheet,” International Journal of Heat and Mass Transfer, vol. 37, no. 4, pp. 659–664, 1994.
[3] J. Ahmed, T. Mahmood, Z. Iqbal, A. Shahzad, R. Ali, “Axisymmetric Flow and Heat Transfer Over an Unsteady Stretching Sheet in Power in Power Law Fluid,” Journal of Molecular Liquids, vol. 221, pp. 386–393, 2016.
[4] A. Shahzad, J. Ahmed, M. Khan, “On Heat Transfer Analysis of Axisymmetric Flow of Viscous Fluid over Nonlinear Radially Stretching Sheet,” AEJ - Alexandria Engineering Journal, vol. 55, pp. 2423–2429, 2016.
[5] K. Bhattacharyya, S. Mukhopadhyay, G.C. Layel, “Reactive Solute Transfer in Magneto Hydrodynamic Boundary Layer StagnationPoint Flow over a Stretching Sheet with Suction/ Blowing,” Chemical Engineering Communications, vol. 199, pp. 368–383, 2012.
[6] N. Najib, N. Bacchok, N.M. Arifin, A. Ishak, “Stagnation Point Flow and Mass Transfer with Chemical Reaction Past a Stretching/Shrinking Cylinder,” Scientific Reports, vol. 4, pp. 4178, 2014
[7] Z. Abbas, T. Javed, N. Ali, M. Sajid, “Diffusion of Chemically Reactive Species in Stagnation-Point Flow of a Third Grad Fluid: A Hybrid Numerical Method,” Journal of Applied Fluid Mechanics, vol. 9, pp. 195–203, 2016.
[8] R.S. Tripathy, G.C. Dash, S.R. Mishra, S. Baag, “Chemical Reaction Effect on MHD Free Convection Surface Over a Moving Vertical Plate through Porous Medium,” AEJ - Alexandria Engineering Journal, vol. 54, pp. 673–679, 2015.
[9] Khan, M. & Shahzad, Azeem, "On Axisymmetric Flow of Sisko Fluid Over a Radially Stretching Sheet," International Journal of Non-Linear Mechanics, vol. 47, pp. 999–1007, 2012.
[10] Narender, Ganji & Govardhan, K. & Sarma, Sreedhar, "MHD Stagnation Point Casson Nanofluid Flow over a Radially Stretching sheet," The Beilstein Journal of Nanotechnology, vol. 11, pp. 1303-1315, 2020.
[11] Mustafa, Meraj & Hayat, Tasawar & Alsaedi A, “Axisymmetric Flow of a Nanofluid Over a Radially Stretching Sheet with Convective Boundary Conditions," Current Nanoscience, vol. 8, pp. 328-334, 2012. 10.2174/157341312800620241
[12] Eringen A. C, “Theory of Micropolar Fuids,” Journal of Applied Mathematics and Mechanics, vol. 16, pp. 1-16, 1966.
[13] Guram, G. S. & Smith A. C, "Stagnation Flows of Micropolar Fluids with Strong and Weak Interactions," Computers & Mathematics with Applications, vol. 6, pp. 213–233, 1980.
[14] Gorla, R. S. R. & Takhar H. S, "Boundary Layer Flow of Micropolar Fluid on Rotating Axisymmetric Surfaces with a Concentrated Heat Source," Acta Mechanica, vol. 105, pp. 1-10, 1994.
[15] S.R. Mishra, G.C. Dash, P.K. Pattnaik, “Flow of Heat and Mass Transfer on MHD Free Convection in a Micropolar Fluid with Heat Source,” AEJ - Alexandria Engineering Journal, vol. 54, no. 3, pp. 681–689, 2015.
[16] G.C. Dash, R.S. Tripathy, M.M. Rashidi, S.R. Mishra, “Numerical Approach to Boundary Layer Stagnation-Point Flow Past a Stretching/Shrinking Sheet,” Journal of Molecular Liquids, vol. 221, pp. 860–866, 2016.
[17] B. Nayak,S.R.Mishraa,n , G. Gopi Krishna. “Chemical Reaction Effect of Anaxisymmetric Flow over Radially Stretched Sheet,” Propulsion and Power Research, vol. 8, no. 1, pp. 78-84, 2019.
[18] Bala Siddulu Malga, “Finite Element Analysis of Fully Developed Free Convection Flow Heat and Mass Transfer of a MHD / Micropolar Fluid over a Vertical Channel,” Jordan Journal of Mechanical and Industrial Engineering, vol. 8, no. 4, pp. 219-232, 2014.
[19] P.Pramod, Bala Siddulu Malga, “Finite Element Study of Soret Number Effects on Mhd Flow of Jeffrey Fluid through a Vertical Permeable Moving Plate,” Partial Differential Equations in Applied Mathematics, vol. 1, pp. 100005, 2020.
[20] P. Pramod, Bala Siddulu Malga, “Heat Transfer Effects on Free Convection of Viscous Dissipative Fluid Flow Over an Inclined Plate with Thermal Radiation in the Presence of induced Magnetic Field,” International Journal of Applied Mechanics and Engineering, vol. 26, no. 1, pp. 122-134, 2021.
[21] Azeem Shahzad, “Axisymmetric Flow with Heat Transfer over Exponentially Stretching Sheet: A Computational Approach,” Physica A: Statistical Mechanics and its Applications, vol. 554, no. 15, pp.124242, 2020.

Citation :

S. Renuka, Bala Siddulu Malga, K. Govardhan, Ch Kishore Kumar, "Viscous Dispassion and Chemical Reaction Impact on Axisymmetric Flow through a Radially Extending Surface," International Journal of Mathematics Trends and Technology (IJMTT), vol. 68, no. 10, pp. 44-55, 2022. Crossref, https://doi.org/10.14445/22315373/IJMTT-V68I10P507