A critical review of noise production models for turbulent, gas-fueled burners
J. R. Mahan, Lewis Research Center, United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch, Virginia Polytechnic Institute and State University
National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1984 - Science - 52 pages
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acoustic analogy acoustic monopoles acoustic source Aeroacoustics AIAA AIAA Paper assumption Bragg's bustion cells of mixture centrally ignited Chiu and Summerfield Combustion Generated Noise combustion heat release combustion noise combustion roar combustor convective diffusion flame direct combustion noise directionality distributed reaction model Doak downstream ducted burner energy entropy experimental results exponent farfield sound pressure firing rate flame front flame length Fluid Mechanics fuel mass fraction function gas turbine Gas-Fueled Burners Giammar hot products irrotational jet noise laminar flame speed literature Mahan mass fraction mixture flow velocity noise production nonhomogeneous wave equation nozzle open turbulent premixed oscillations parameters peak frequency port diameter predict premixed flame Putnam radiated sound power reaction zone report the results Shivashankara Smith and Kilham sound field sound pressure level source activity spectra Strahle Strouhal number correlation temperature thermoacoustic efficiency transverse modes turbulent eddies turbulent flame unburned mixture unsteady combustion velocity fluctuation wrinkled flame model