Open Access
Subscription Access
Open Access
Subscription Access
Study of Jeffrey Fluid Flow in an Inclined Tube with Overlapping Stenosis
Subscribe/Renew Journal
This problem deals with the theoretical study of Jeffrey fluid flow through an inclined tube with overlapping stenosis. The nonlinear equations are simplified by considering mild stenosis. The exact solutions are obtained for velocity, pressure drop, flow rate, resistance to the flow and wall shear stress. Effects of different physical parameters like Jeffrey fluid parameter and angle of inclination on resistance to the flow and wall shear stress are studied. The effects of various emerging parameters are discussed through graphs for different values of interest.
Keywords
Overlapping Stenosis, Resistance to the Flow, Shear Stress, Stenosis Throat, Jeffrey Fluid Parameter.
Subscription
Login to verify subscription
User
Font Size
Information
- Naz R. Mahomed F.M. and Mason D.P. “Comparison of different approaches to conservation laws for some partial differential equations in fluid mechanics”. Appl.ied Mathematics and Computation. 205 (2008): 212-230.
- Shukla P.K. and Rahman H.U. “The Rayleigh –Taylor model with sheared plasma flows”. Ohysia Scripta. 57(2011): 286-289.
- Rashid Ali. Ramindar Kaur. Katiyar. V. K. and Singh. M. P. “Mathematical modeling of blood flow through vertebral artery with stenoses”. Indian J. Bio Mechanics. (2009): 151-158.
- Majhi. S. N. and Nair. V. R. “Pulsatile flow of third grade fluids under body acceleration modeling blood flow”. Int. J. Eng. Sci. 32(1994): 839-846.
- Ranadhir Roy. Daniel Riahi. N. and Nelson Carrasquero. “Mathematical modeling of blood flow in an artery with an unsteady stenosis using power-law fluid model”. Sop Transactions on Applied Mathematics1(2014)1: 2378-2480.
- Mishra. S. Siddiqui. S.U. and Medhavi. A.” Blood flow through a composite stenosis in an artery with permeable walls”. Appl. Math 6(1)( 2011): 1798-1813.
- Nadeem. S. Akbar. N. S. Hayat. T. and Hendi. “A Power law fluid model for blood flow through a tapered artery with a stenosis”. Appl. Math. Comput 217( 2011): 7108–7116.
- Abdullah. I. Amin. N. and Hayat. T. “Magnetohydrodynamic effects on blood flow through an irregular stenosis. International Journal for Numerical Methods in Fluids”. 67(2011): 1642-1636.
- Santosh. N. Radhakrishnamacharya. “Jeffrey fluid flow through a narrow tube in the presence of magnetic field”. Procedia Engineering. 127(2015) : 185 – 192.
- Akbar. N. S. and Nadeem.S. “Simulation of variable viscosity and Jeffrey fluid model for blood flow through a tapered artery with a stenosis”. Commun. Theor. Phys.57 ( 2012): 133-140.
- Srivastava. V.P. Shailesh Mishra and Rati Rastogi. “Non-Newtonian arterial blood flow through an overlapping stenosis”. AAM. 5(2010): 225-238.
- Chakravarthy. S. and Mandal. P.K. “A nonlinear two-dimensional model of blood flow in an overlapping arterial stenosis subjected to body acceleration”. Mathl. Comput. Modelling. 24(1996): 43-58.
- Makheimer. K.H. and El kot. M.A. “Mathematical modeling of unsteady flow of a Sisko fluid through an anisotropically tapered elastic arteries with time-variant overlapping stenosis”. J. Appl. Math Model. 36(2012): 5393-5407.
- Maruthi Prasad. K. and Radhakrishnamacharya. G. “Flow of Herschel–Bulkley Fuid through an Inclined Tube of Non-Uniform Cross-Section with Multiple Stenoses”. Arch. Mech. 60(2008): 161–172.
- Bhuvana Vijaya. R. Maruthi Prasad. K. and Uma Devi. C. “A mathematical model of Herschel-Bulkley fluid through an inclined tube of uniform cross section with overlapping stenosis”. IJMA. 2015; 6(4): 71-77.
- Young. D.F. “Effects of a time-dependent stenosis on flow through tube”. J.Engng.Ind.90(1968): 248-254.
Abstract Views: 160
PDF Views: 0