Response of a conical, laminar premixed flame to low amplitude acoustic forcing - a comparison between experiment and kinematic theories
Response of a conical, laminar premixed flame to low amplitude acoustic forcing - a comparison between experiment and kinematic theories
This paper presents an experimental study on the dynamics of a ducted, conical, laminar premixed flame subjected to low amplitude acoustic excitation from upstream. The heat release response of the flame to velocity disturbances is investigated through measurement of the so called ‘flame transfer function’ for a wide range of forcing frequencies. The results are compared with those predicted by the existing linear kinematic theories. It is observed that these theories are in general agreement with the experiment, although there exist some disparities. A detailed comparison of the experimental data with the kinematic theories shows that the phase speed of flame disturbances has an essential influence upon the level of agreement between the theory and experiment. The data-set presented in this work complements that reported in an earlier study. In keeping with others, visualisation of the excited flames clearly shows that the flame response includes waves on the flame front which are formed at the base and then convect along the flame.
490-500
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
15 December 2014
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Karimi, N.
(2014)
Response of a conical, laminar premixed flame to low amplitude acoustic forcing - a comparison between experiment and kinematic theories.
Energy, 78, .
(doi:10.1016/j.energy.2014.10.036).
Abstract
This paper presents an experimental study on the dynamics of a ducted, conical, laminar premixed flame subjected to low amplitude acoustic excitation from upstream. The heat release response of the flame to velocity disturbances is investigated through measurement of the so called ‘flame transfer function’ for a wide range of forcing frequencies. The results are compared with those predicted by the existing linear kinematic theories. It is observed that these theories are in general agreement with the experiment, although there exist some disparities. A detailed comparison of the experimental data with the kinematic theories shows that the phase speed of flame disturbances has an essential influence upon the level of agreement between the theory and experiment. The data-set presented in this work complements that reported in an earlier study. In keeping with others, visualisation of the excited flames clearly shows that the flame response includes waves on the flame front which are formed at the base and then convect along the flame.
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Published date: 15 December 2014
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Local EPrints ID: 508876
URI: http://eprints.soton.ac.uk/id/eprint/508876
ISSN: 0360-5442
PURE UUID: 856a2f51-158a-49e3-90c7-aee9513e93c5
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Date deposited: 05 Feb 2026 17:45
Last modified: 06 Feb 2026 03:12
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N. Karimi
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