Viscous eddies near a 90° and a 45° corner in flow through a curved tube of triangular cross-section

W. M. Collins; S. C. R. Dennis

doi:10.1017/S0022112076000712

Abstract

A numerical calculation is presented for the slow flow of a viscous fluid in a region bounded by a right-angled isosceles triangle. The particular flow considered is the secondary flow generated in the plane of a cross-section by the primary axial flow, under a constant pressure gradient, through a slightly curved tube of triangular cross-section. The flow is assumed to be at small Dean number so that the stream function of the secondary flow satisfies the biharmonic equation. The sequence of eddies of decreasing size and intensity first identified by Moffatt (1964a) is observed in each of the corners. Numerical details of a number of these eddies are given and their properties are found to be in excellent agreement with the theory.

References

Allen, D. N. de G. & Dennis, S. C. R. 1951 Quart. J. Mech. Appl. Math. 4, 439.

Burggraf, O. R. 1966 J. Fluid Mech. 24, 113.

Cheng, K. C. & Akiyama, M. 1970 Int. J. Heat Mass Transfer. 13, 471.

Collins, W. M. & Dennis, S. C. R. 1975 Quart. J. Mech. Appl. Math. 28, 133.

Dean, W. R. 1927 Phil. Mag. 4, 208.

Dean, W. R. 1928 Phil. Mag. 5, 673.

Dean, W. R. & Montagnon, P. E. 1949 Proc. Camb. Phil. Soc. 45, 389.

Moffatt, H. K. 1964a J. Fluid Mech 18, 1.

Moffatt, H. K. 1964b Arch. Mech. Stosowanej. 14, 365.

Pan, F. & Acrivos, A. 1967 J. Fluid Mech. 28, 643.

Rayleigh, Lord 1920 Scientific Papers, vol. 6, p. 18. Cambridge University Press.

Smith, F. T. 1976 Proc. Roy. Soc. A 347, 345.

Smith, G. D. 1965 Numerical Solution of Partial Differential Equations. Oxford University Press.

Taylor, G. I. 1960 Aeronautics and Astronautics (ed. Hoff & Vincenti), p. 12. Pergamon.

Woods, L. C. 1954 Aero. Quart. 5, 176.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

1976. Steady flow in a curved tube of triangular cross section. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences, Vol. 352, Issue. 1669, p. 189.

Taneda, Sadatoshi 1979. Visualization of Separating Stokes Flows. Journal of the Physical Society of Japan, Vol. 46, Issue. 6, p. 1935.

Lewis, E. 1979. Steady flow between a rotating circular cylinder and fixed square cylinder. Journal of Fluid Mechanics, Vol. 95, Issue. 03, p. 497.

Hasimoto, Hidenori 1979. Creeping Viscous Flow past a Circular Arc with Special Reference to Separation. Journal of the Physical Society of Japan, Vol. 47, Issue. 1, p. 347.

Moffatt, H. K. and Duffy, B. R. 1980. Local similarity solutions and their limitations. Journal of Fluid Mechanics, Vol. 96, Issue. 2, p. 299.

Dennis, S. C. R. 1980. Calculation of the steady flow through a curved tube using a new finite-difference method. Journal of Fluid Mechanics, Vol. 99, Issue. 3, p. 449.

1980. Steady flow through a channel with a symmetrical constriction in the form of a step. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences, Vol. 372, Issue. 1750, p. 393.

Sano, Osamu and Hashimoto, Hidenori 1980. Three-Dimensional Moffatt-Type Eddies Due to a Stokeslet in a Corner. Journal of the Physical Society of Japan, Vol. 48, Issue. 5, p. 1763.

Moffatt, H. K. 1980. Approximation Methods for Navier-Stokes Problems. Vol. 771, Issue. , p. 371.

Hancock, C. and Lewis, E. 1985. The effects of inertia on the structure of viscous corner eddies. Computers & Fluids, Vol. 13, Issue. 1, p. 47.

Mercer, A. McD. 1986. Moffatt eddies in viscous flow through a curved tube of square cross section. AIChE Journal, Vol. 32, Issue. 1, p. 159.

Moreau, Fran�oise and Bourot, Joseph -Maurice 1993. Ecoulements cellulaires de Stokes produits en canal plan illimit� par la rotation de deux cylindres. ZAMP Zeitschrift f�r angewandte Mathematik und Physik, Vol. 44, Issue. 5, p. 777.

Nandakumar, K. Mees, P. A. J. and Masliyah, J. H. 1993. Multiple, two-dimensional solutions to the Dean problem in curved triangular ducts. Physics of Fluids A: Fluid Dynamics, Vol. 5, Issue. 5, p. 1182.

Spedding, P.L. Benard, E. and Mcnally, G.M. 2004. Fluid Flow through 90 Degree Bends. Developments in Chemical Engineering and Mineral Processing, Vol. 12, Issue. 1-2, p. 107.

Chaudhary, Kuldeep Cardenas, M. Bayani Deng, Wen and Bennett, Philip C. 2013. Pore geometry effects on intrapore viscous to inertial flows and on effective hydraulic parameters. Water Resources Research, Vol. 49, Issue. 2, p. 1149.

Zhang, Lintao and Pothérat, Alban 2013. Influence of the geometry on the two- and three-dimensional dynamics of the flow in a 180° sharp bend. Physics of Fluids, Vol. 25, Issue. 5,

Magalhães, João P.P. Albuquerque, Duarte M.S. Pereira, José M.C. and Pereira, José C.F. 2013. Adaptive mesh finite-volume calculation of 2D lid-cavity corner vortices. Journal of Computational Physics, Vol. 243, Issue. , p. 365.

WANG, Cuihua LIU, Shengju WU, Jianhua and LI, Yaxia 2013. Laminar Flow and Heat Transfer Characteristics in Jackets of Triangular Flow Channels. Chinese Journal of Chemical Engineering, Vol. 21, Issue. 11, p. 1224.

Biswas, Sougata and Kalita, Jiten C. 2016. Moffatt vortices in the lid-driven cavity flow. Journal of Physics: Conference Series, Vol. 759, Issue. , p. 012081.

Bazant, Martin Z. 2016. Exact solutions and physical analogies for unidirectional flows. Physical Review Fluids, Vol. 1, Issue. 2,

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Viscous eddies near a 90° and a 45° corner in flow through a curved tube of triangular cross-section

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Viscous eddies near a 90° and a 45° corner in flow through a curved tube of triangular cross-section

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