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Radiation of noise in turbulent non-premixed flames
Matthias Ihme
, Heinz Pitsch
,
Daniel Bodony
Grainger College of Engineering
Aerospace Engineering
Mechanical Science and Engineering
Materials Research Lab
National Center for Supercomputing Applications (NCSA)
Research output
:
Contribution to journal
›
Conference article
›
peer-review
Overview
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Dive into the research topics of 'Radiation of noise in turbulent non-premixed flames'. Together they form a unique fingerprint.
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Keyphrases
Non-premixed Flame
100%
Spurious Noise
100%
Acoustics
66%
Flow Field
33%
Physics-based
33%
Hybrid Method
33%
Individual Contribution
33%
Combustion
33%
Large Eddy Simulation
33%
Numerical Prediction
33%
Convection
33%
Complex Flow
33%
Low-pass Filter
33%
Acoustic Source
33%
Flow Configuration
33%
Hydrogen-air Flame
33%
Variable Model
33%
Noise Generation Mechanism
33%
Mixture Fraction
33%
OASPL
33%
Computational Aeroacoustics
33%
Acoustic Spectrum
33%
Combustion Noise
33%
Lighthill Acoustic Analogy
33%
Reaction Progress Variable
33%
Methane-air Mixture
33%
Flamelet Progress Variable
33%
Engineering
Premixed Flame
100%
Good Agreement
50%
Methane
50%
Numerical Prediction
50%
Hybrid Approach
50%
Lowpass Filter
50%
Acoustic Source
50%
Flow Configuration
50%
Sound Pressure Level
50%
Field Quantity
50%
Lighthill's Acoustic Analogy
50%
Flamelets
50%
Flow Distribution
50%
Physics
Premixed Flame
100%
Physics
50%
Sound Pressure
50%
Flow Distribution
50%
Methane
50%
Computational Aeroacoustics
50%