NONLINEAR SOUND ABSORPTION OF HELMHOLTZ RESONATORS WITH EXTENDED NECKS AT HIGH SOUND PRESSURE LEVELS

Keyphrases

• Extended Neck 100%
• Sound Absorption 100%
• Helmholtz Resonator 100%
• High Sound Pressure Level 100%
• Helmholtz Resonator with an Extended Neck 100%
• Sound Pressure Level 37%
• Numerical Simulation 25%
• Absorption Coefficient 25%
• Aero-engine 25%
• Absorption Performance 25%
• Technology-based 12%
• Analytical Model 12%
• Vorticity 12%
• Vortex 12%
• Absorption Spectra 12%
• Nonlinear Acoustics 12%
• Nonlinear Effects 12%
• Flow Field 12%
• Analytical Prediction 12%
• Liner 12%
• Noise Intensity 12%
• High Amplitude 12%
• Noise Problem 12%
• Kinetic Energy 12%
• Flow Characteristics 12%
• Acoustic Properties 12%
• Operating Frequency 12%
• Transfer Matrix Method 12%
• Aerodynamic Sound 12%
• Acoustic Energy 12%
• Small Thickness 12%
• Aerodynamic Noise 12%
• Nonlinear Absorption 12%
• Control Technology 12%
• Velocity-dependent 12%
• Acoustic Characteristics 12%
• Thin Thickness 12%
• Noise Mitigation 12%
• Installation Space 12%
• HKUST 12%
• Acoustic Resistance 12%
• Acoustic Treatment 12%
• Acoustic Noise Control 12%
• Equivalent Density 12%
• Sound Excitation 12%
• Flow Tube 12%
• Equivalent Medium Theory 12%
• Aerodynamic Control 12%
• Aero-engine Fan Noise 12%

Engineering

• Sound Pressure Level 100%
• Sound Absorption 100%
• Helmholtz Resonator 100%
• Aeroengine 33%
• Absorption Performance 22%
• Absorptivity 22%
• Absorption Coefficient 22%
• Promising Candidate 11%
• Experimental Measurement 11%
• Good Agreement 11%
• Numerical Prediction 11%
• Acoustic Energy 11%
• Operating Frequency 11%
• Incident Sound 11%
• Intensity Noise 11%
• Nonlinear Effect 11%
• Nonlinear Absorption 11%
• Equivalent Density 11%
• Vortex 11%
• Analytical Model 11%
• Flow Characteristics 11%
• Acoustic Noise 11%
• Flow Distribution 11%
• Matrix Method 11%
• Vorticity 11%
• Aerodynamics 11%

Physics

• Helmholtz Resonator 100%
• Sound Transmission 100%
• Sound Pressure 100%
• Transfer-Matrix Method 11%
• Vorticity 11%
• Noise Control 11%
• Nonlinear Effect 11%
• Kinetic Energy 11%
• Nonlinear Acoustics 11%
• Acoustic Property 11%
• Aerodynamics 11%
• Absorption Spectra 11%
• Flow Distribution 11%
• Flow Characteristics 11%
• Noise Intensity 11%