Swirling spray flames dynamical blow out induced by transverse acoustic oscillations
Swirling spray flames dynamical blow out induced by transverse acoustic oscillations
Recent experiments on a laboratory scale annular system comprising multiple injectors (namely, MICCA-Spray), indicate that combustion instabilities coupled with azimuthal modes may induce large amplitude oscillations, which under certain conditions, lead to blow out of some of the flames established in the system, a phenomenon designated as dynamical blow out (DBO). An attempt is made in the present investigation to reproduce this phenomenon in a linear array of injectors (namely, TACC-Spray), where the acoustic field is externally applied to flames established by injector units that are identical to those used in the annular combustor. The acoustic field is generated by driver units placed on the lateral sides of a rectangular cavity. The pressure level induced in TACC-Spray can reach a peak value of 1700 Pa in a frequency range extending from 680 to 780 Hz, which corresponds to the typical frequency of azimuthal instabilities observed in the annular system. A theoretical model based on dimensional analysis serves to guide the choice of operating conditions that may lead to the DBO phenomenon. Experiments carried out in TACC-Spray and MICCA-Spray are then used to determine the DBO boundary, define the conditions that need to be fulfilled to observe this phenomenon, and gather high-speed visualizations providing some insights on the mechanisms that induce blow out.
4651-4659
Patat, Clement
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Baillot, Francoise
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Blaisot, Jean-Bernard
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Domingues, Eric
a012fa59-2b2e-469e-a516-e72e6eb33d5c
Vignat, Guillaume
f808aa32-377e-48a7-bc60-2db7e1767e09
Rajendram Soundararajan, Preethi
27962fcb-d8a8-405a-b137-086815ec8e29
Renaud, Antoine
aedb2589-2a4a-4614-b9fa-1da56f9c7b0d
Durox, Daniel
5abd6445-57f2-41a0-b831-983ef4239273
Candel, Sebastien
c8f272d5-74e9-4fdf-9052-30122eb3a372
8 June 2023
Patat, Clement
af6fcb86-f52a-4dd9-9598-d3adfebe8c13
Baillot, Francoise
73687869-aa80-4c27-9bbe-3efa73320c39
Blaisot, Jean-Bernard
d7ad7418-c27a-46d9-a07e-bf0daa457232
Domingues, Eric
a012fa59-2b2e-469e-a516-e72e6eb33d5c
Vignat, Guillaume
f808aa32-377e-48a7-bc60-2db7e1767e09
Rajendram Soundararajan, Preethi
27962fcb-d8a8-405a-b137-086815ec8e29
Renaud, Antoine
aedb2589-2a4a-4614-b9fa-1da56f9c7b0d
Durox, Daniel
5abd6445-57f2-41a0-b831-983ef4239273
Candel, Sebastien
c8f272d5-74e9-4fdf-9052-30122eb3a372
Patat, Clement, Baillot, Francoise, Blaisot, Jean-Bernard, Domingues, Eric, Vignat, Guillaume, Rajendram Soundararajan, Preethi, Renaud, Antoine, Durox, Daniel and Candel, Sebastien
(2023)
Swirling spray flames dynamical blow out induced by transverse acoustic oscillations.
Proceedings of the Combustion Institute, 39 (4), .
(doi:10.1016/j.proci.2022.08.029).
Abstract
Recent experiments on a laboratory scale annular system comprising multiple injectors (namely, MICCA-Spray), indicate that combustion instabilities coupled with azimuthal modes may induce large amplitude oscillations, which under certain conditions, lead to blow out of some of the flames established in the system, a phenomenon designated as dynamical blow out (DBO). An attempt is made in the present investigation to reproduce this phenomenon in a linear array of injectors (namely, TACC-Spray), where the acoustic field is externally applied to flames established by injector units that are identical to those used in the annular combustor. The acoustic field is generated by driver units placed on the lateral sides of a rectangular cavity. The pressure level induced in TACC-Spray can reach a peak value of 1700 Pa in a frequency range extending from 680 to 780 Hz, which corresponds to the typical frequency of azimuthal instabilities observed in the annular system. A theoretical model based on dimensional analysis serves to guide the choice of operating conditions that may lead to the DBO phenomenon. Experiments carried out in TACC-Spray and MICCA-Spray are then used to determine the DBO boundary, define the conditions that need to be fulfilled to observe this phenomenon, and gather high-speed visualizations providing some insights on the mechanisms that induce blow out.
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Accepted/In Press date: 3 August 2022
e-pub ahead of print date: 19 October 2022
Published date: 8 June 2023
Identifiers
Local EPrints ID: 505776
URI: http://eprints.soton.ac.uk/id/eprint/505776
ISSN: 1540-7489
PURE UUID: 0bec831b-0dd1-4646-9499-d9cc54db150f
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Date deposited: 20 Oct 2025 16:32
Last modified: 21 Oct 2025 02:12
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Author:
Clement Patat
Author:
Francoise Baillot
Author:
Jean-Bernard Blaisot
Author:
Eric Domingues
Author:
Guillaume Vignat
Author:
Preethi Rajendram Soundararajan
Author:
Antoine Renaud
Author:
Daniel Durox
Author:
Sebastien Candel
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