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Simulations of unsteady oscillations in turbulent nonpremixed swirling flames

Simulations of unsteady oscillations in turbulent nonpremixed swirling flames
Simulations of unsteady oscillations in turbulent nonpremixed swirling flames
Simulations of turbulent non-premixed swirling flames based on the Sydney swirl burner experiments under different flame characteristics are conducted using large eddy simulations (LES). The simulations attempt to capture the unsteady flame oscillations and explore the underlying instability modes responsible for a centre jet precession and the large scale recirculation zone oscillation. The selected flame series known as SMH flames have a fuel mixture of methane-hydrogen (50:50 by volume). The LES program solved the governing equations on a structured Cartesian grid using finite volume method and the subgrid turbulence and combustion models used the localized dynamic form of Smagorinsky eddy viscosity model and the steady laminar flamelet model respectively. The results show that the LES predicts two types of instability modes near fuel jet region and the bluff body stabilized recirculation zone region. The Mode I instability defined as cyclic precession of a centre jet is identified using time periodicity of the centre jet in flames SMH1 and SMH2. The Mode II instability defined as cyclic expansion and collapse of the recirculation zone is identified using time periodicity of the recirculation zone in flame SMH3. The calculated frequency spectrums found reasonably good agreement with the experimental precession frequencies. Overall, the LES yield a good qualitative and quantitative agreement with the experimental observations, although some discrepancies are apparent.
Ranga Dinesh, K.K.J.
6454b22c-f505-40f9-8ad4-a1168e8f87cd
Jenkins, K.W
eec6783a-46fd-4386-9346-52bd81875ce2
Kirkpatrick, M.P
fdf5fc3f-893c-4ae2-879f-58ee0e8f20d4
Ranga Dinesh, K.K.J.
6454b22c-f505-40f9-8ad4-a1168e8f87cd
Jenkins, K.W
eec6783a-46fd-4386-9346-52bd81875ce2
Kirkpatrick, M.P
fdf5fc3f-893c-4ae2-879f-58ee0e8f20d4

Ranga Dinesh, K.K.J., Jenkins, K.W and Kirkpatrick, M.P (2009) Simulations of unsteady oscillations in turbulent nonpremixed swirling flames. ASME Turbo Expo 2009: Power for Land, Sea and Air, Orlando, United States. 08 - 12 Jun 2009. 7 pp .

Record type: Conference or Workshop Item (Paper)

Abstract

Simulations of turbulent non-premixed swirling flames based on the Sydney swirl burner experiments under different flame characteristics are conducted using large eddy simulations (LES). The simulations attempt to capture the unsteady flame oscillations and explore the underlying instability modes responsible for a centre jet precession and the large scale recirculation zone oscillation. The selected flame series known as SMH flames have a fuel mixture of methane-hydrogen (50:50 by volume). The LES program solved the governing equations on a structured Cartesian grid using finite volume method and the subgrid turbulence and combustion models used the localized dynamic form of Smagorinsky eddy viscosity model and the steady laminar flamelet model respectively. The results show that the LES predicts two types of instability modes near fuel jet region and the bluff body stabilized recirculation zone region. The Mode I instability defined as cyclic precession of a centre jet is identified using time periodicity of the centre jet in flames SMH1 and SMH2. The Mode II instability defined as cyclic expansion and collapse of the recirculation zone is identified using time periodicity of the recirculation zone in flame SMH3. The calculated frequency spectrums found reasonably good agreement with the experimental precession frequencies. Overall, the LES yield a good qualitative and quantitative agreement with the experimental observations, although some discrepancies are apparent.

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Published date: June 2009
Venue - Dates: ASME Turbo Expo 2009: Power for Land, Sea and Air, Orlando, United States, 2009-06-08 - 2009-06-12
Organisations: Engineering Science Unit

Identifiers

Local EPrints ID: 347905
URI: http://eprints.soton.ac.uk/id/eprint/347905
PURE UUID: 9c9cf6c0-9092-45c0-a58a-6516f4d6bff2
ORCID for K.K.J. Ranga Dinesh: ORCID iD orcid.org/0000-0001-9176-6834

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Date deposited: 13 Feb 2013 12:04
Last modified: 15 Mar 2024 03:46

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Contributors

Author: K.K.J. Ranga Dinesh ORCID iD
Author: K.W Jenkins
Author: M.P Kirkpatrick

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