Exponentially Varying Temperature and Concentration Boundary Layer Influence on Thermal Diffusiveheat Generating Fluid in Conducting Field

K.Vijaya Kumar; E.Keshava Reddy

doi:https://doi.org/10.14445/22315373/IJMTT-V54P522

International Journal of Mathematics Trends and Technology

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Volume 54 | Number 3 | Year 2018 | Article Id. IJMTT-V54P522 | DOI : https://doi.org/10.14445/22315373/IJMTT-V54P522

Exponentially Varying Temperature and Concentration Boundary Layer Influence on Thermal Diffusiveheat Generating Fluid in Conducting Field

K.Vijaya Kumar, E.Keshava Reddy

Abstract

Numerical analysis is carried out for the case of thermal diffusion effect on heat generating fluid in the presence of exponentially varying temperature and concentration in conducting field. The presence of homogeneous chemical reaction is considered. A magnetic field of uniform strength is applied perpendicular to the plate. The set ofdimensionlessequations are solved numerically by using finite difference method. The relevant physical flow parameters on the flow quantities are studied through graphs. Also the variations in skin friction, Nusselt number and Sherwood number are presented in tables.

Keywords

Thermal diffusion, Porous medium, Conducting field, Thermal radiation, Chemical reaction, finite difference method.

References

1. R.S.Tripathy, G.C. Dash, S.R. Mishra, S. Baag, Chemical reaction effect on MHD free convective surface over a moving vertical plate through porous medium, Alexandria Engineering Journal. 54(2015) 673–679.
2. D. Srinivasacharyaand G. Swamy Reddy,Free convection in a non-Newtonian power law fluid saturated porous medium with Chemical reaction and radiation effects, Special Topics & Reviews in Porous Media - An International Journal, 4(3) (2013) 23-236.
3. R. Kandasamy,K. Periasamyand K.K.S. Prabhu, Chemical reaction, heat and mass transfer on MHD flow over a vertical stretching surface with heat source and thermal stratification effects. Int. J. Heat and Mass Transfer,48(21-22) (2005) 4557- 4561.
4. A. Mahdy, Effect of chemical reaction and heat generation or absorption on double-diffusive convection from a vertical truncated cone in a porous media with variable viscosity,International Communications in Heat and Mass Transfer,37 (2010) 548-554.
5. S.P. Anjali Devi, R. Kandasamy,Effects of a chemical reaction heat and mass transfer on MHD flow past a semi-infinite plate,Z. Angew. Math. Mech. 80 (2000) 697-701.
6. W. A. Khan and A.M. Rashad, Combined effects of radiation and chemical reaction on heat and mass transfer by MHD stagnation point flow of a micro polar fluid towards a stretching surface, Journal of the Nigerian mathematical society,36 (2017) 219-238.
7. R.N. Barik,Chemical reaction and radiationeffects of MHD freeconvectiveflow past an impulsivelymovingverticalplate with ramped wall temperature and concentration,European Journal of Advances in Engineering and Technology,1(2) (2014) 56-68.
8. Nehad Ali Shah, Azhar Ali Zafar and Shehraz Akhtar, General solution for MHD-free convection flow over a vertical plate with ramped wall temperature and chemical reaction, Arabian Journal of Mathematics,7 (2017) 49-60.doi.org/10.1007/s40065-017-0187-z.
9. A.J. Chamkha, MHD flow of uniformly stretched vertical permeable surface in the presence of heat generation/absorption and a chemical reaction, Int. Comm. Heat Mass transfer,30 (2003) 413 – 422.
10. G.S. Seth, Md.S. Ansari and R. Nandkeolyar, MHD natural convection flow with radiative heat transfer past an impulsively moving plate with ramped wall temperature, Heat and Mass Transfer,47(5) (2011) 551-561.
11. M.A. Sattar and M.M. Alam, Analytical solution of the free convection and mass transfer flow with thermal diffusion, Dhaka University Journal of Science,49 (2001) 95-104.
12. O.D. Makinde, Similarity solution of hydro magnetic heat and mass transfer over a vertical plate with a convective surface boundary condition. Int .J.Phy.Sci.vol.5(6) (2010) 700-710.
13. J.R. Pattnaik, G.C. Dash and S. Singh, Effect of heat and mass transfer on MHD free convection flow past an impulsively moving infinite vertical plate with ramped wall temperature, International Journal of Fluid Mechanics,4(1) (2012) 5-81.
14. P. Chandra Reddy, M.C. Raju, G.S.S. Raju, Soret and Dufour effects on MHD free convection flow of Rivlin-Ericksen fluid past a semi infinite vertical plate, Advances and Applications in Fluid Mechanics, 19 (2016) 401-414. doi:10.17654/FM019020401.
15. T. Ayat, M. Mustafa, and I. Pop, Heat and mass transfer for Soret and Dufour’s effect on mixed convection boundary layer flow over a stretching vertical surface in a porous medium filled with a viscoelastic fluid. Communications in Nonlinear Science and Numerical Simulation, 5 (2010) 1183–1196.
16. P. Chandra Reddy, M.C. Raju, G.S.S. Raju, Thermal and solutal buoyancy effect on MHD boundary layer flow of a visco-elastic fluid past a porous plate with varying suction and heat source in the presence of thermal diffusion, Journal of Applied & Computational Mathematics, 4(5) (2015) 1-7. doi:10.4172/2168-9679.1000249.
17. M.U. Ahammadand Md. ShirazulHoqueMollah, Numerical study of MHD free convection flow and mass transfer over a stretching sheet considering Soret and Dufour effects in the presence of magnetic field, International Journal of Engineering & Technology,11(5) (2011) 4-11.
18. Siva Reddy Sheri and R.Srinivasa Raju,Soret effects on Unsteady MHD free convective flow past a semi-infinite vertical plate in the presence of viscous dissipation”, International journal for computational methods in engineering science and mechanics, 16 (2015)132-240.
19. C.Y. Cheng, Soret and Dufour effects on heat and mass transfer by natural convection from a vertical truncated cone in a fluid – saturated porous medium with variable wall temperature and concentration, International Communications in Heat and Mass Transfer, 37(8) (2010) 1031- 1035.
20. D. Srinivasacharya, B. Mallikarjuna and R. Bhuvanavijaya, Soret and Dufour effects on mixed convection along a vertical wavy surface in a porous medium with variable properties, Ain Shams Engineering Journal6 (2015),553–564. doi:10.1016/j.asej.2014.11.007.
21. A.J. Chamka, A.M. Ali and Z.A.S. Raizah,Double-Diffusion MHD free convective flow along a sphere in the presence of homogeneous-chemical reaction and soret and dufuor effects, Applied and computational mathematics, 6 (2017) 34-44.
22. B.ShankarGoud and M.N.RajaShekar,Finite element study of soret and radiation effects on mass transfer flow through a highly porous medium with heat generation and chemical reaction, International journal of computational and applied mathematics,12 (2017) 53-64.
23. Kh.A. Maleque, Dufour and Soret effects on unsteady MHD Convective heat and mass transfer flow due to a rotating disk, Latin American Applied Research, 40 (2010) 105-111.
24. M. Umamaheswar, S.V.K. Varma, M.C. Rajuand A.J. Chamkha,Unsteady magnetohydrodynamic free convective double-diffusive viscoelastic fluid flow past an inclined permeable plate in the presence of viscous dissipation and heat absorption., Special Topics & Reviews in Porous Media, 6 (4) (2015) 333-342.
25. G.C. Dash, P.K. Rath, N. Mohapatra and P.K. Dash, Free convective MHD flow through porous media of a rotating Visco-elastic fluid past an infinite vertical porous plate with heat and mass transfer in the presence of chemical reaction, AMSE Model. 78(4) (2009) 21-37.
26. K. Vivek, K. Pardeep, K.A. Mukesh, Hydrodynamic and hydromagnetic triply diffusive convection in a viscoelastic fluid through porous medium, Special Topics &Reviews in Porous Media: An International Journal, 6 (4) (2015), 297- 311.
27. K.S. Mukesh, Kuldip Singh and Ashok Kumar, MHD flow and heat transfer through non-Darcy porous medium bounded between two parallel plates with viscous and joule dissipation, Special Topics & Reviews in Porous Media: An International Journal, 5 (1) (2014) 1-11.
28. R. Choudhury, P. Dhar and D. Dey, Viscoelastic MHD boundary layer flow with heat and mass transfer over a continuously moving inclined surface in presence of energy dissipation, WSEAS Transactions on Heat and Mass Transfer. 8(4) (2013)146-155.
29. D. Srinivasacharya, G.S.Reddy, Free convection in a non-Newtonian power law fluid in saturated porous medium with chemical reaction and radiation effects, Special Topics & Reviews in Porous Media, 4 (3) (2013) 223-236.
30. L. Rama Mohan Reddy, M. C. Raju, G. S. S. Raju, Unsteady MHD free convection flow of a visco-elastic fluid past a vertical porous plate in the presence of thermal radiation, radiation absorption, heat generation/absorption and chemical reaction, International Journal of Applied Science and Engineering, 14 (2) (2016) 69-85.
31. G.S. Seth, B. Kumbhakar, R. Sharma, Unsteady MHD free convection flow with Hall effect of a radiating and heat absorbing fluid past a moving vertical plate with variable ramped temperature. Journal of the Egyptian Mathematical Society, 1-8(2015).dx.doi.org/10.1016/j.joems.2015.07.007.
32. A. Raptisand C. Perdikis,Unsteady flow through a highly porous medium in the presence of radiation ,Transp. Porous Media. 57 (2004) 171-179.
33. S. Ahmed,A. Batin and A.J. Chamkha, Numerical/Laplace transform analysis for MHD radiating heat/mass transport in a Darcian porous regime bounded by an oscillating vertical surface, Alexandria Eng. J., 54(2014) 45-54. dx.doi.org/10.1016/j.aej.2014.11.006.
34. K.V.S. Raju, T.S. Reddy, M.C. Raju, P.V. Satyanarayana and S. Venkataramana,MHD convective flow through porous medium in a horizontal channel with insulated and impermeable bottom wall in the presence of viscous dissipation and Joule’s heating,Ain Sham’s engineering Journal, 5 (2) (2014) 543-551.doi: 10.1016/j.asej.2013.10.007.
35. K.R. Cramer,S.I. Pai, Magnetofluiddynamics for engineers and applied physics, McGraw Hill Book company ,New York,USA, (1973).
36. R. Muthucumaraswami and G. S. Reddy, Theoretical study of heat transfer effects on flow past a parabolic started vertical plate in the presence of chemical reation of first order, Int. J. Appl. Mech. Eng. 19(2) (2014) 275-284.
37. S. Harinath Reddy, M. C. Raju, E. Keshava Reddy, Unsteady MHD free convection flow of a Kuvshinski fluid past a vertical porous plate in the presence of chemical reaction and heat source/sink, International Journal of Engineering Research in Africa Vol. 14 (2015) pp. 13-27.
38. S.H. Reddy, M. C. Raju, E. Keshava Reddy, Magneto Convective Flow of a Non-Newtonian Fluid through Non-Homogeneous Porous Medium past a Vertical Porous Plate with Variable Suction, Journal of Applied Mathematics and Physics, 4, 233-248, 2016.
39. S.H. Reddy, M. C. Raju, E. Keshava Reddy, Radiation absorption and chemical reaction effects on MHD flow of heat generating Casson fluid past Oscillating vertical porous plate, Frontiers in Heat and Mass Transfer, 7, 21; 1-9 (2016). DOI: 10.5098/hmt.7.21
40. S. Harinath Reddy, M. C. Raju, E. Keshavareddy, Soret and Dufour effects on radiation absorption fluid in the presence of exponentially varying temperature and concentration in conducting field, Special Topics & Reviews in Porous Media - An International Journal, Vol.7 No.2, 2016, 115-129.
41. B. Mamtha, M. C. Raju, S. V. K.Varma, Thermal diffusion effect on MHD mixed convection unsteady flow of a micro polar fluid past a semi-infinite vertical porous plate with radiation and mass transfer, International Journal of Engineering Research in Africa, Vol. 13 (2015) pp 21-37.
42. M. C. Raju, and S.V. K.Varma, Soret effects due to natural convection in a non-Newtonian fluid flow in porous medium with heat and mass transfer, Journal of Naval architecture and Marine Engineering, Vol. 11 (2), 2014, pp. 147-156.
43. V. Ravikumar , M. C. Raju, G. S. S. Raju., MHD three dimensional Couette flow past a porous plate with heat transfer, IOSR Jour. Maths., Vol. 1, no.3, pp. 3-9, 2012.
44. M. C. Raju, S. V. K. Varma, R. R. K. Rao, “Unsteady MHD free convection and chemically reactive flow past an infinite vertical porous plate”, i-manager Journal of Future Engineering and Technology, Vol.8 (3), 2013, 35-40.
45. T. Suneetha, A. Sailakumari "Heat and Mass Transfer Characteristics of Mhd Free Convective Rivlin-Ericksen Fluid Flow Past a Porous Plate", International Journal of Mathematics Trends and Technology (IJMTT). V53(6):441-452 January 2018.

Citation :

K.Vijaya Kumar, E.Keshava Reddy, "Exponentially Varying Temperature and Concentration Boundary Layer Influence on Thermal Diffusiveheat Generating Fluid in Conducting Field," International Journal of Mathematics Trends and Technology (IJMTT), vol. 54, no. 3, pp. 202-216, 2018. Crossref, https://doi.org/10.14445/22315373/IJMTT-V54P522