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Abstract

This paper describes an experimental investigation of the non-swirling flow through an axisymmetric port and poppet valve assembly under steady flow conditions using laser Doppler anemometry. The three velocity components and the associated Reynolds stresses were measured by ensemble-averaged techniques and the turbulence kinetic energy and its production rate were determined. Time-resolved measurements were also taken in order to determine turbulence time and length scales and the dissipation rate of the turbulence kinetic energy. The Reynolds number, based on the minimum cross-sectional area of the port, was 25000.

The flow is characterized by an annular jet which forms two vortices, one on either side of the jet. A jet flapping instability is also evident since the skewness and kurtosis of the velocity probability distribution function depart from the Gaussian form. This instability causes an intermittent mixing between eddies in the jet region and the vortices which introduces a non-turbulent contribution to the measured quantities. The production rates of the turbulence kinetic energy were found to be negative in some regions of the flow, indicating counter-gradient transport of momentum by turbulence; according to the coherent structures approach, the distribution of the Reynolds shear stresses and the length scales in these regions imply possible changes in the orientation of eddies.

Keywords

intake port poppet valve flow intermittency turbulence scales production dissipation

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References

Bicen

A. F.

Vafidis

Whitelaw

J. H.

Steady and unsteady airflow through the intake valve of a reciprocating engine. Trans. ASME, J. Fluids Engng, 1985, 107, 413–420.

Vafidis

Aerodynamics of reciprocating engines. PhD thesis, Imperial College, University of London, 1985.

Cheung

R. S. W.

An investigation of flow patterns inside inlet ports. PhD thesis, King's College London, University of London, 1989.

Annand

W. J. D.

Engine breathing. Auto. Engr, 1969, 59, 50–55.

Kastner

L. J.

Williams

T. J.

White

J. B.

Poppet inlet valve characteristics and their influence on the induction process. Proc. Instn Mech. Engrs, 1963, 178, 955–975.

Nadarajah

Experimental investigation of flow patterns through inlet ports and valves. PhD thesis, King's College London, University of London, 1992.

Melling

Whitelaw

J. H.

Turbulent flow in a rectangular duct. J. Fluid Mechanics, 1976, 78(2), 289–315.

Bray

K. N. C.

Libby

P. A.

Moss

J. B.

Unified modelling approach for premixed turbulent combustion—Part 1: General formulation. Combust. Flame, 1985, 61, 87–102.

Andreopoulos

Bradshaw

Measurements of interacting turbulent shear layers in the near wake of a flat plate. J. Fluid Mechanics, 1980, 100(3), 639–668.

10.

Veeravalli

Warhaft

The shearless turbulence mixing layer. J. Fluid Mechanics, 1989, 207, 191–229.

11.

Tennekes

Lumley

J. L.

A First Course in Turbulence, 1972 (MIT Press, Cambridge, Massachusetts).

12.

Chandrsuda

Bradshaw

Turbulence structure of a reattaching mixing layer. J. Fluid Mechanics, 1981, 110, 171–194.

13.

Heitor

M. V.

Taylor

A. M. K. P.

Whitelaw

J. H.

The interaction of turbulence and pressure gradient in a baffle-stabilised premixed flame. J. Fluid Mechanics, 1987, 181, 387–413.

14.

Hinze

J. O.

Turbulence, 1975 (McGraw-Hill, New York).

15.

Patterson

G. K.

Van Doorn

Distribution of turbulence energy dissipation rates in a Rushton turbine stirred mixer. Exp. in Fluids, 1989, 8, 153–160.

16.

Gosman

A. D.

Flow processes in cylinders. In The Thermodynamics and Gas Dynamics of Internal-Combustion Engines (Eds Horlock

J. H.

Winterbone

D. E.

), 1986, Vol. 2, Ch. 11 (Clarendon Press, Oxford).

17.

Rodi

Basic equations for turbulent flow in Cartesian and cylindrical coordinates. Internal Report BL/TN/A/36, Mechanical Engineering Department, Imperial College, 1970.

18.

Wygnanski

Fiedler

H. E.

Some measurements in the self preserving jet. J. Fluid Mechanics, 1969, 38(3), 577–612.

19.

Bradshaw

An Introduction to Turbulence and Its Measurement, 1971 (Pergamon Press, Oxford).

20.

Hussain

A. K. M. F.

Coherent structures and turbulence. J. Fluid Mechanics, 1986, 173, 303–356.

21.

Hussain

A. K. M. F.

Zaman

K. B. M. Q.

An experimental study of organised motions in the turbulent mixing layer. J. Fluid Mechanics, 1985, 159, 85–104.

22.

Townsend

A. A.

The Structure of Turbulent Shear Flow, 1980 (Cambridge University Press).

23.

Lilek

Nadarajah

Peric

Tindal

M. J.

Yianneskis

Measurements and simulation of the flow around a poppet valve. In Proceedings of 8th Symposium on Turbulent Shear Flows, Munich, Germany,) 1991.

The turbulence structure of the annular non-swirling flow past an axisymmetric poppet valve

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