On flow through furrowed channels. Part 1. Calculated flow patterns

Ian J. Sobey

doi:10.1017/S002211208000198X

Abstract

Bellhouse et al. (1973) have developed a high-efficiency membrane oxygenator which utilizes pulsatile flow through furrowed channels to achieve high mass transfer rates. We present numerical solutions of the time-dependent two-dimensional Navier–Stokes equations in order to show the structure of the flow. Experimental observations which support this work are presented in a companion paper (Stephanoff, Sobey & Bellhouse 1980).

Steady flow through a furrowed channel will separate provided the Reynolds number is sufficiently large. The effect of varying the Reynolds number and the geometric parameters is given and comparisons with solutions calculated using the modern boundary-layer theory of Smith (1976) show excellent agreement. Unsteady flow solutions are given as the physical and geometric parameters are varied. The structure of the flow patterns leads to an explanation of the high efficiency of the devices of Bellhouse.

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References

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Crossref Citations

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

Stephanoff, K. D. Sobey, Ian J. and Bellhouse, B. J. 1980. On flow through furrowed channels. Part 2. Observed flow patterns. Journal of Fluid Mechanics, Vol. 96, Issue. 1, p. 27.

O’Brien, V. 1981. Stagnation regions of separation. The Physics of Fluids, Vol. 24, Issue. 6, p. 1005.

Jeffree, M. A. Peacock, J. Sobey, I. J. and Bellhouse, B. J. 1981. Gel Layer Limited Haemofiltration Rates can be Increased by Vortex Mixing. Clinical and Experimental Dialysis and Apheresis, Vol. 5, Issue. 4, p. 373.

Peregrine, D. H. 1981. The fascination of fluid mechanics. Journal of Fluid Mechanics, Vol. 106, Issue. , p. 59.

Sobey, Ian J. 1982. Oscillatory flows at intermediate Strouhal number in asymmetric channels. Journal of Fluid Mechanics, Vol. 125, Issue. , p. 359.

Latinopoulos, P. and Ganoulis, J. 1982. Numerical simulation of pulsatile flow in constricted axi-symmetric tubes. Applied Mathematical Modelling, Vol. 6, Issue. 1, p. 55.

Degtyareva, V. V. Mukhin, V. A. and Nakoryakov, V. E. 1982. Experimental study of mass exchange in axisymmetric cavities. Journal of Engineering Physics, Vol. 43, Issue. 2, p. 829.

Sobey, Ian J. 1983. The occurrence of separation in oscillatory flow. Journal of Fluid Mechanics, Vol. 134, Issue. , p. 247.

Stephanoff, K. D. Pedley, T. J. Lawrence, C. J. and Secomb, T. W. 1983. Fluid flow along a channel with an asymmetric oscillating constriction. Nature, Vol. 305, Issue. 5936, p. 692.

Peacock, J. A. Bellhouse, B. J. Abel, K. Bellhouse, E. L. Bellhouse, F. H. Jeffree, M. A. Sykes, M. K. and Gardaz, J. P. 1983. Initial In Vitro Evaluation of a Pediatric Vortex‐Mixing Membrane Lung. Artificial Organs, Vol. 7, Issue. 2, p. 227.

GHADDAR, N. PATERA, A. and MIKIC, B. 1984. Heat transfer enhancement in oscillatory flow in a grooved channel.

Tsangaris, S. and Leiter, E. 1984. On laminar steady flow in sinusoidal channels. Journal of Engineering Mathematics, Vol. 18, Issue. 2, p. 89.

Savvides, C. N. and Gerrard, J. H. 1984. Numerical analysis of the flow through a corrugated tube with application to arterial prostheses. Journal of Fluid Mechanics, Vol. 138, Issue. , p. 129.

Sobey, Ian J. 1985. Dispersion caused by separation during oscillatory flow through a furrowed channel. Chemical Engineering Science, Vol. 40, Issue. 11, p. 2129.

Stairmand, J.W. and Haworth, W.S. 1985. A novel measurement of convective mass transfer. Chemical Engineering Science, Vol. 40, Issue. 6, p. 1003.

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Sobey, Ian J. 1985. Observation of waves during oscillatory channel flow. Journal of Fluid Mechanics, Vol. 151, Issue. , p. 395.

Dorrington, K.L. Ralph, M.E. Bellhouse, B.J. Gardaz, J-P and Sykes, M.K. 1985. Oxygen and CO2 transfer of a polypropylene dimpled membrane lung with variable secondary flows. Journal of Biomedical Engineering, Vol. 7, Issue. 2, p. 89.

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Lahbabi, Abdelmourhite and Chang, Hsueh-Chia 1986. Flow in periodically constricted tubes: Transition to inertial and nonsteady flows. Chemical Engineering Science, Vol. 41, Issue. 10, p. 2487.

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On flow through furrowed channels. Part 1. Calculated flow patterns

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