Hall Current Effect in MHD Oscillatory Couple Stress Dusty Fluid through an Inclined Saturated Permeable Channel

[1] Saffman P G, On the stability of laminar flow of a dusty gas, J. of Fluid Mech. Vol. 13, 1962, pp 120–128.

[2] Gabriela Varvara, Florin Topoliceanu, Dan Zaharia, The Blood Two-phase Dusty fluid flow modelling, IFAC Modelling and Control in Biomedical Systems, Warwick, UK, 1997.

[3] D Makinde, P Y Mhone, Heat Transfer to MHD Oscillatory Flow in a Channel filled with permeable medium, Rom. Journ. Phys. , Vol. 50, 2005, pp 931–938.

[4] V. K. Stokes, Couple stresses in fluids, Vol. 9, 1996, pp 1709-1715.

[5] Kulshretha P K and Puri P, Wave structure in oscillatory Couette flow of a dusty gas, Acta Mech. Springer Verlag, Vol. 46, pp 127–128.

[6] Gireesha B J, Roopa G S and Bagewadi C S, Unsteady flow and heat transfer of a dusty fluid through a rectangular channel, Mathematical Problems in Engineering Hindawi Publishing Corporation.

[7] Makinde O D and Chinyoka T, MHD transient flows and heat transfer of dusty fluid in a channel with variable physical properties and Navier slip condition, Comput. Math. Appl., Vol. 60 pp 660–669.

[8] Prakash O Kumar D and Dwivedi Y K, MHD free convection flow of a visco-elastic dusty gas through a semi infinite plate moving with velocity decreasing exponentially with time and radiative heat transfer AIP 2011.

[9] R Vijayalakshmi, A Govindarajan, J Sasikumar, E P Siva, Chemical reaction effects on radiative MHD oscillatory flow in a permeable channel with mass transfer and heat absorption Int. J. of Scientific & Engineering Research Vol. 6 Issue 3 March 2015.

[10] M Vidhya, R Vijayalakshmi, A Govindarajan, Chemical reaction effects on radiative MHD oscillatory flow in a permeable channel with heat and mass transfer in an asymmetric channel ARPN Journal of Engg. And Applied Sciences Vol. 10 No. 4 March 2015.

[11] R. Vijayalakshmi, A. Govindarajan, Slip effect on radiative MHD oscillatory flow with chemical reaction in an asymmetric channel, Global Journal of Pure and Applied Mathematics Vol. 12 No. 2 (2016)

[12] R. Vijayalakshmi, A. Govindarajan, Chemically reacting MHD oscillatory slip flow in an asymmetric channel with both concentration and temperature variation, International Journal of Pure and Applied Mathematics, Vol. 114, No. 6, 2017, pp 61 – 66.

[13] Om Prakash O D Makinde Heat transfer to MHD oscillatory dusty fluid flow in a channel filled with a permeable medium Sadhana Vol 40 June 2015 pp 1273–1282.

[14] A Ogulu A R Bestman, Deep Heat Muscle Treatment - A Mathematical Model pp 3–16.

[15] Govindarajan, R. Vijayalakshmi, V. Ramamurthy, Combined effects of heat and mass transfer to magneto hydrodynamics oscillatory dusty fluid flow in a permeable channel, Journal of Physics: Conference Series 1000, 2018

[16] Nirmala P. Ratchagar, V. Balakrishnan and R. Vasanthakumari, Effect of Hall current in oscillatory flow of a couple stress fluid in an inclined channel, Annals of Pure and Applied Mathematics, Vol. 16, 2018, pp 151 – 169.

[17] M. Thamizhsudar, J. Pandurangan, Hall effects and rotation effects on MHD flow past an exponentially accelerated vertical plate with combined heat and mass transfer effects, Int. J. of Applied Mechanics and Engineering, Vol. 20, No. 3, 2015, pp 605 – 616.

[18] Dulal Pal, Babulal Talukdar, Influence of Hall current and Thermal radiation on MHD convective heat and mass transfer in a rotating permeable channel with chemical reaction, International Journal of Engineering Mathematics, Vol. 2013.

[19] K. D. Singh, Khem Chand and Shavnam Sharma, Hydromagnetic oscillatory flow of dusty fluid in a rotating permeable channel, International J. of Mathematical Archive, 2012, pp 2331 – 2339.

[20] Khem Chand, Sanjeev Kumar, Effect of Hall current and rotation on chemically reacting and radiating MHD oscillatory dusty viscoelastic flow through permeable vertical channel, Int. J. of Applied Mathematics and Computation, Vol. 5, 2013, pp 17-32.