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Journal of Taibah University for Science Volume 14, 2020 - Issue 1
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Research Articles

Transient generalized Taylor-Couette flow: a semi-analytical approach

Basant Kumar JhaDepartment of Mathematics, Ahmadu Bello University, Zaria, Nigeria
&
Yahaya Jibrin DanjumaDepartment of Mathematics, Ahmadu Bello University, Zaria, NigeriaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-3701-1585
ORCID Icon
Pages 445-453 | Received 28 Nov 2018, Accepted 09 Mar 2020, Published online: 28 Mar 2020

References

  • Taylor GI. Stability of a viscous fluid containing between two rotating cylinders. Philos Trans R Soc A. 1923;223:289.
  • Dou H-S, Khoo BC, Yeo KS. Instability of Taylor-Couette flow between concentric rotating cylinders. Int J Thermal Sci. 2008;47(11):1422–1435. doi: 10.1016/j.ijthermalsci.2007.12.012
  • Aider AA, Kadem L. Transition to turbulence of the Dean and Taylor-Couette flows: Similarities. Multiphysics, Barcelona, 2011.
  • Azadditalab M, Houshmand A, Sedaghat A. Numerical study on skin friction reduction of nano fluid flows in a Taylor – Couette system. Tribol Int. 2016;94:329–335. doi: 10.1016/j.triboint.2015.09.046
  • Barenghi CF, Jones CA. Modulated Taylor-Couette flow. J Fluid Mech. 1989;208:127–160. doi: 10.1017/S0022112089002806
  • Dean B, Bhushan B. Shark skin surface for fluids drag reduction in turbulent flow: a review. Philos Trans R Soc A. 2010;368:4775–4806. doi: 10.1098/rsta.2010.0201
  • Dubrulle B, Dauchot O, Daviaud F, et al. Stability and turbulent transport in Taylor – Couette flow from analysis of experimental data. Phys Fluids Am Inst Phys. 2005;17:095103. doi: 10.1063/1.2008999
  • Lasagna D, Tutty O, Chernyshenko S. Flow regimes in a simplified Taylor-Couette-type flow model. Eur J Mech B/Fluids. 2015.
  • Liu W, Goodman J, Herron I, et al. Helical magnetorotational instability in magnetized Taylor-Couette flow. Astrophysics. 2008: 1–16.
  • Hristova H, Roch S, Schmid PJ, et al. Transient growth in Taylor-Couette flow. Phys Fluids. 2002;14:3475–3484. doi: 10.1063/1.1502658
  • Meseguer A. Nonnormal energy transient growth in the Taylor-Couette problem. July, 2001.
  • Hye MA, Rahman MM. A numerical study on non isothermal flow through a rotating curved duct with square cross section. Int J Appl Sci Eng. 2014;12(4):241–256.
  • Aberkane S, Ihdene M, Moderes M, et al. Effect of an axial magnetic field on the heat and mass transfer in rotating annulus. Inter J Phys Sci. 2014;9(16):368–379. doi: 10.5897/IJPS2014.4170
  • Adeniyan A, Abioye IA. Mixed convection radiating flow and heat transfer in a vertical channel partially filled with a Darcy-Forchheimer porous substrate. General Maths Notes. 2016;32(2):80–104.
  • Russell JD. Taylor-Couette flows: the early days. Physics Today: Americans Institute of Physics. 1991.
  • Setha GS, Mandala PK, Chamkha AJ. MHD free convective flow past an impulsively moving vertical plate with ramped heat flux through porous medium in the presence of inclined magnetic field. Front Heat Mass Transf. 2016;7:23.
  • Weisberg AY, Kevrekidis IG, Smits AJ. Delaying transition in Taylor-Couette flow with axial motion of the inner cylinder. J Fluid Mech. 1997;11:1–12.
  • Wereley ST, Lueptow RM. Velocity field for Taylor-Couette flow with an axial flow. Phys Fluids. 1999;11(12):3637–3649. doi: 10.1063/1.870228
  • Zhang C, Cheng Y, Huang S, et al. Improving the stability of the multiple-relaxation-time Lattice Boltzmann method by a viscosity counteracting approach. Adv Appl Math Mech. 2016;8(1):37–51. doi: 10.4208/aamm.2014.m512
  • Kawabe T, Hayamizu Y, Gonda T, et al. A micromixer using Taylor-Dean flow: rotation effect of the channel walls on the mixing. Adv Exp Mech. 2016;1:47–51.
  • Jha BK, Apere CA. Time-dependent MHD Couette flow in a porous annulus. Commun Nonlinear Sci Numer Simul. 2013;18:1959–1969. doi: 10.1016/j.cnsns.2013.01.008
  • Tsangaris S, Kondaxakis D, Vlachakis NW. Exact solution of the Navier – Stokes equations for the pulsating Dean flow in a channel with porous walls. Int J Eng Sci. 2006;44:1498–1509. doi: 10.1016/j.ijengsci.2006.08.010
  • Tsangaris S, Vlachakis NW. Exact solution for the pulsating finite gap Dean flow. Appl Math Model. 2007;31:1899–1906. doi: 10.1016/j.apm.2006.06.011
  • Jha BK, Yahaya JD. Transient Dean flow in an annulus: a semi-analytical approach. J Taibah Univ Sci. 2018;13(1):169–176. doi: 10.1080/16583655.2018.1549529
  • Jha BK, Danjuma YJ. Transient Dean flow in a channel with suction/injection: a semi-analytical approach. Proc Inst Mech Eng E J Process Mech Eng. 2019;233(5):1036–1044. doi: 10.1177/0954408919825718
  • Jha BK, Danjuma YJ. Unsteady Dean flow formation in an annulus with partial slippage: a Riemann-sum approximation approach. Results Eng. 2020;5. DOI:10.1016/j.rineng.2019.100078.
  • Jha BK, Apere CA. Unsteady MHD Couette flow in an annulus: the Riemann – sum approach. J Phys Soc Japan. 2010;79:1–5. doi: 10.1143/JPSJS.79SA.1
  • Jha BK, Yusuf TS. Transient free convective flow in an annulus porous medium: a semi – analytical approach. Eng Sci Technol Int J. 2016;19:1936–1948. doi: 10.1016/j.jestch.2016.09.022
  • Khadrawi AF, Nimr MA. Unsteady natural convection fluid flow in a vertical micro channel under the effect of dual-phase – lag heat conduction model. Int J Thermophys. 2007;28:1387–1400. doi: 10.1007/s10765-007-0207-x
  • Yahaya Jibrin Danjuma. Transient Flow Formation inside an Annulus: A Semi-Analytical Approach. 1stLAMBERT Academic Publishing; 2019.
  • Tzou DY. Macro to microscale heat transfer: the lagging behavior. Washington (DC): Taylor and Francis; 1997.

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