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2021 | OriginalPaper | Chapter

Effects of Forchheimer, MHD and Radiation Absorption for Chemically Reacting Unsteady Dusty Viscoelastic Fluid Couette Flow in an Irregular Channel

Authors : P. A. Dinesh, A. S. Vasudevamurthy, M. Uma

Published in: Advances in Fluid Dynamics

Publisher: Springer Singapore

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Abstract

In this work, a study which contributes toward the combined effects of Forchheimer, MHD, and radiation absorption for a laminar two-dimensional chemically reacting unsteady dusty viscoelastic fluid in an irregular channel is considered. The physical model demands nonlinear coupled partial differential equations under the wavy channel conditions. Computational results are obtained to understand the characteristics of velocity, temperature, and concentration for various physical parameters involved in the model using a novel analytical perturbation method with combined Soret and Forchheimer number. Obtained results are well matched with the physical model and found to be a good agreement with the earlier works for a particular case.

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Beard DW, Walters K (1964) Elastico-viscous boundary layer flows I.Two dimensional flow near a stagnation point. Math Proc Camb Philos Soc 60(3):667–674

Tao LN (1960) Magnetohydrodyanamic effects on the formation of Couette flow. J Aerospace Sci 27(5):334–340CrossRef

Hayat T, Kara AH (2006) Couette flow of a third-grade fluid with variable magnetic field. Math Comp Model 43(1–2):132–137MathSciNetCrossRef

Prakash O, Kumar D, Dwivedi YK (2010) Effects of thermal diffusion and chemical reaction on MHD flow of dusty viscoelastic (Walters liquid Model-B) fluid. J Electromagn Anal Appl 2(10):581–587

Chang CC, Lundgren TS (1961) Duct flow in magnetohydro dynamics. Zeitschrift fur AngevandteMathematik and Physic 12(2):100–114MATH

Sayed-Ahmed ME, Attia HA (2000) MHD flow and heat transfer in a rectangular duct with temperature dependent viscosity and Hall Effect. Int Commun Heat Mass 27(8):1177–1187CrossRef

Attia HA (2006) Hall Effect on Couette flow with heat transfer of a dusty conducting fluid between parallel porous plates under exponential decaying pressure gradient. JMST 20(4):569–579

Mekheimer KhS, El Kot MA (2008) Influence of magnetic field and Hall current on blood flow through a stenotic artery. Appl Math Mech 29(8):1093–1104MathSciNetCrossRef

Pal D, Mondal H (2011) MHD non-Darcian mixed convection heat and mass transfer reaction. Int Commun Heat Mass Transfer 38(4):463–467CrossRef

10.

Patil PM, Kulkarni PS (2008) The effect of chemical reaction on free convective flow of a polar fluid through porous medium in the presence of internal heat generation. Int J Therm Sci 47(8):1040–1054CrossRef

11.

Dinesh PA, Nalinakshi N, Sandeep N (2015) Double diffusive mixed convection in a couple stress fluids with variable fluid properties. Adv Phys Theor Appl 41:30–42

12.

Mahdy A (2009) MHD non Darcian free convection from a vertical wavy surface embedded in porous media in the presence of Soret and Dufoureffect. Int Commun Heat Mass Transfer 36(10):1067–1074CrossRef

13.

Vajravelu K, Sastri KS (1978) Free convection heat transfer in a viscous incompressible fluid confined between a long vertical wavy wall and a parallel flat wall. J Fluid Mech 86(2):365–383MathSciNetCrossRef

14.

Sivaraj R, Rushikumar B (2012) Unsteady MHD dusty viscoelastic fluid Couette flow in an irregular channel with varying mass diffusion. Int J Heat Mass Trans 55(11–12):3076–3089CrossRef

15.

Jean S, Dash GC, Mishra SR (2016) Chemical reaction effect on MHD Viscoelastic fluid flow over a vertical stretching sheet with heat source/sink. Ain Shams Eng J 9(4):1205–1213CrossRef

16.

Venkateswarlu B, Satya Narayana PV, Devika B (2017) Effects of chemical reaction and heat source on MHD oscillatory flow of a viscoelastic fluid in a vertical porous channel. Int J App Compl Math 3(1):937–952MathSciNetCrossRef

17.

Prasad VR, Vasu B, Beg OA, Prashad RD (2012) Thermal radiation effects on magnetohydrodynamic free convection heat and mass transfer from a sphere in a variable porosity regime. Commun Nonlin Sci Numer Simulat 17(2):654–671MathSciNetCrossRef

18.

Sivaraj R, Rushikumar B (2013) Chemically reacting dusty viscoelastic fluid flow in an irregular channel with convective boundary. Ain Shams Eng J 4(1):93–101CrossRef

19.

Uma M, Dinesh PA, Sreevallabha Reddy A, Neeraja G (2017) An analytical approach for unsteady MHD dusty viscoelastic fluid couette flow in a vertical wavy channel with varying mass diffusion. Int J Innov Res Sci Eng Technol 6(13):105–110

Title: Effects of Forchheimer, MHD and Radiation Absorption for Chemically Reacting Unsteady Dusty Viscoelastic Fluid Couette Flow in an Irregular Channel
Authors: P. A. Dinesh
A. S. Vasudevamurthy
M. Uma
Publisher: Springer Singapore
Book: Advances in Fluid Dynamics
Print ISBN: 978-981-15-4307-4

Electronic ISBN: 978-981-15-4308-1

Copyright Year: 2021
DOI: https://doi.org/10.1007/978-981-15-4308-1_77

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