J.K. Kilham scite author profile

J.K. Kilham

3Publications

90Citation Statements Received

0Citation Statements Given

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214

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University of Leeds, Applied Science Private University

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Noise Generation by Open Turbulent Flames

Smith

Kilham

1962

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In order to provide fundamental data on the acoustic energy released by combustion processes, measurements were made of the noise arising from open turbulent flames. These studies of the acoustic radiation from premixed open flames, which relate the characteristics of the noise to the various geometric and fluid-flow parameters defining the flames, are described. Examination of the combustion-noise spectra showed that their peaks could be expressed by a constant value of the Strouhal number (fmax⋅D/Ub), where D is the burner-port diameter and Ub the normal burning velocity. The acoustic power (P) generated by a turbulent flame was found to be related to the fluid-flow parameters by the expression P∝q2⋅Ufn(Ub), where q is the mixture flow rate and U the flow velocity. In this expression, the exponent of the mixture velocity varies in such a way that the rate of increase in acoustic-power output with mixture velocity is greatest for low values of the combustion velocity, and is reduced as the combustion velocity increases. [This work was supported by the Joint Research Committee of the Gas Council and by The University of Leeds.]

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The kinetics of polymerisation reactions in aqueous solution

Baxendale¹,

Evans²,

Kilham³

1946

Trans. Faraday Soc.

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Noise Generation by Open Turbulent Flames

Smith

Kilham

1963

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In order to provide fundamental data on the acoustic energy released by combustion processes, measurements were made of the aerodynamic sound generated by premixed open turbulent flames. Studies are described that relate the characteristics of the noise to the various geometric and flow parameters defining the flame, and it is shown that the sound radiated may be considered to arise from a statistical distribution of monopole sources throughout the zone of combustion. Examination of the combustion-noise spectra indicated that their peak frequencies may be expressed by a constant value of a Strouhal number, in terms of the burner-port diameter, the mixture flow velocity, and the flame speed. The acoustic power radiated by a turbulent flame was found to be related to the flow parameters by the expression per P ∝ (ρU4D2/c)(Ub/U)2. This relationship is shown to be similar to the basic equation for the acoustic-power output of a monopole source.

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J.K. Kilham

Noise Generation by Open Turbulent Flames

The kinetics of polymerisation reactions in aqueous solution

Noise Generation by Open Turbulent Flames

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