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Response analysis of a laminar premixed M-flame to flow perturbations using a linearized compressible Navier-Stokes solver
Abstract : The response of a laminar premixed methane-air flame subjected to flow perturbations around a steady state is examined experimentally and using a linearized compressible Navier-Stokes solver with a one-step chemistry mechanism to describe combustion. The unperturbed flame takes an M-shape stabilized both by a central bluff body and by the external rim of a cylindrical nozzle. This base flow is computed by a nonlinear direct simulation of the steady reacting flow, and the flame topology is shown to qualitatively correspond to experiments conducted under comparable conditions. The flame is then subjected to acoustic disturbances produced at different locations in the numerical domain, and its response is examined using the linearized solver. This linear numerical model then allows the componentwise investigation of the effects of flow disturbances on unsteady combustion and the feedback from the flame on the unsteady flow field. It is shown that a wrinkled reaction layer produces hydrodynamic disturbances in the fresh reactant flow field that superimpose on the acoustic field. This phenomenon, observed in several experiments, is fully interpreted here. The additional perturbations convected by the mean flow stem from the feedback of the perturbed flame sheet dynamics onto the flow field by a mechanism similar to that of a perturbed vortex sheet. The different regimes where this mechanism prevails are investigated by examining the phase and group velocities of flow disturbances along an axis oriented along the main direction of the flow in the fresh reactant flow field. It is shown that this mechanism dominates the low-frequency response of the wrinkled shape taken by the flame and, in particular, that it fully determines the dynamics of the flame tip from where the bulk of noise is radiated.
Cited literature [79 references]
https://hal-polytechnique.archives-ouvertes.fr/hal-01178888
Contributor : Denis Roura <>
Submitted on : Tuesday, July 21, 2015 - 11:08:48 AM
Last modification on : Monday, June 14, 2021 - 10:25:04 AM
Long-term archiving on: : Thursday, October 22, 2015 - 10:34:49 AM
Contributor : Denis Roura <>
Submitted on : Tuesday, July 21, 2015 - 11:08:48 AM
Last modification on : Monday, June 14, 2021 - 10:25:04 AM
Long-term archiving on: : Thursday, October 22, 2015 - 10:34:49 AM
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