Impact of burner plenum acoustics on the sound emission of a turbulent lean premixed open flame

Abstract: The acoustic field of a turbulent lean cpremixed open flame is numerically investigated by a hybrid method solving the Navier-Stokes equations in a large-eddy simulation formulation and the acoustic perturbation equations. The interaction of acoustic modes of a burner plenum and the turbulent flame is analyzed with respect to the sound emission of the flame. It is investigated if a simplified computation yields a good broadband agreement of the sound pressure spectrum with experimental measurements. The result… Show more

“…The acoustic analysis is based on the flow solver presented in Section 2.1 which has been validated extensively against experimental data for a slot flame. For the axisymmetric jet flame, a comparison of numerically and experimentally determined flow statistics is shown, for example, in Herff et al [21].…”

“…The acoustic modes exciting the jet flame originate from the burner plenum. These modes and their impact on the motion of the jet flame and thus the acoustic emission were analyzed in detail in Herff et al [21]. An additional peak occurs in the CAA simulation at Hz, which is the frequency of the Helmholtz resonance of the burner.…”

“…The acoustic analysis is based on the flow solver presented in Section 2.1 which has been validated extensively against experimental data for a slot flame. For the axisymmetric jet flame, a comparison of numerically and experimentally determined flow statistics is shown, for example, in Herff et al [21]. Figure 13 comparatively juxtaposes the experimental sound pressure level (SPL) and the CAA calculated spectra based on the formulation with the complete set of source terms.…”

Analysis of the sound sources of lean premixed methane–air flames

“…The acoustic analysis is based on the flow solver presented in Section 2.1 which has been validated extensively against experimental data for a slot flame. For the axisymmetric jet flame, a comparison of numerically and experimentally determined flow statistics is shown, for example, in Herff et al [21].…”

“…The acoustic modes exciting the jet flame originate from the burner plenum. These modes and their impact on the motion of the jet flame and thus the acoustic emission were analyzed in detail in Herff et al [21]. An additional peak occurs in the CAA simulation at Hz, which is the frequency of the Helmholtz resonance of the burner.…”

“…The acoustic analysis is based on the flow solver presented in Section 2.1 which has been validated extensively against experimental data for a slot flame. For the axisymmetric jet flame, a comparison of numerically and experimentally determined flow statistics is shown, for example, in Herff et al [21]. Figure 13 comparatively juxtaposes the experimental sound pressure level (SPL) and the CAA calculated spectra based on the formulation with the complete set of source terms.…”

Analysis of the sound sources of lean premixed methane–air flames

Dynamic Load Balancing for Coupled Simulation Methods

Investigation of combustion noise generated by an open lean-premixed H2/air low-swirl flame using the hybrid LES/APE-RF framework