ESDU Aircraft Noise Series
Noise pollution is of concern in many environments but perhaps it is the noise from aircraft that has the most wide-spread impact on our lives. It is necessary to have reliable methods for the prediction of sound levels generated by various sources and an understanding of the control and suppression of noise. The ESDU Aircraft Noise Series provides validated data on the prediction, propagation and suppression of noise. The Series is aimed primarily at the aerospace industry but many parts of it (for example, Items on noise barriers and sound propagation) have much wider application.
The information provided may be grouped under two main headings: noise prediction and sound propagation. Aircraft noise sources considered include propulsion system noise from the various components of gas turbine jet engines, jet noise, including static-to-flight effects, propeller noise, airframe noise and boundary layer noise. Cabin noise is considered. Aspects of sound propagation covered include atmospheric attenuation and ground reflection effects in the presence of wind and temperature gradients. The attenuation provided by noise barriers is also covered.
Information on noise in air-conditioning systems is provided in the Fluid Mechanics, Internal Flow Series.
Section 1: Organizational Documents
Aircraft Noise Series: record of documents.
- ESDU 00010
Section 2: General
Section 3: Noise Reduction
Normal incidence absorption coefficients and acoustic impedances of typical single layer fibrous lining materials.
Normal incidence absorption coefficients and acoustic impedances of single layer perforated sheet liners.
The acoustic attenuation of absorbent linings in cylindrical flow ducts.
The acoustic attenuation of absorbent linings in rectangular flow ducts with application to annular flow ducts
Far-field sound radiation from circular ducts.
- ESDU 74003
Section 4: Noise Estimation - Gas Turbine Engine Noise Sources
Estimation of far-field sound pressure levels due to buzz-saw noise of a supersonic fan or compressor.
The prediction of shock noise from supersonic jets including the near-field
Prediction of noise generated by fans and compressors in turbojet and turbofan engines.
Prediction of combustor noise from gas turbine engines.
Prediction of turbine noise from aero-engines
- ESDU 75020
Section 5: Noise Estimation - Near-Field Jet
Computer-based estimation procedure for near-field single-stream jet noise.
- ESDU 99006
Section 6: Noise Estimation - Far-Field Jet
Computer-based estimation procedure for single-stream jet noise. Including far-field, static jet mixing noise database for circular nozzles
The prediction of the far-field mixing noise from coaxial subsonic jets based on a database for stationary coplanar conical nozzles
Estimation of subsonic far-field jet-mixing noise from single-stream circular nozzles.
- ESDU 98019
Section 7: Noise Estimation - Jet Static-To-Flight Correction
Section 8: Noise Estimation - Miscellaneous Sources
Section 9: Noise Estimation - Propeller Sources
Estimation of the maximum discrete frequency noise from isolated rotors and propellers.
Prediction of near-field and far-field harmonic noise from subsonic propellers with non-axial inflow
Estimation of the unsteady lift coefficient of subsonic propeller blades in non-axial inflow.
- ESDU 76020
Section 10: Sound Propagation - Atmospheric Attenuation
Section 11: Sound Propagation - Lateral Attenuation and Overground Sound Propagation
An introduction to aircraft noise lateral attenuation.
Estimation of lateral attenuation of air-to-ground jet or turbofan aircraft noise in one-third octave bands.
ESDU 82027 Addendum
Estimation of lateral attenuation of air-to-ground jet or turbofan aircraft noise in one-third octave bands. Addendum - Estimation of sideline noise in subjective noise metrics.
The prediction of sound attenuation as a result of propagation close to the ground.
- ESDU 81035
Section 12: Sound Propagation - Ground Reflection, Wind/Temperature Effects
Prediction of sound attenuation in a refracting turbulent atmosphere with a Fast Field Program.
The calculation of overground sound propagation in the presence of wind and temperature gradients.
The correction of measured noise spectra for the effects of ground reflection.
- ESDU 04011
Section 13: Noise Shielding
Section 14: Internal Noise
Aerodynamics and aero-acoustics of rectangular planform cavities. Part I: Time-averaged flow.
Aerodynamics and aero-acoustics of rectangular planform cavities. Part II: Unsteady flow and aero-acoustics.
Noise transmission into aircraft cabins.
ESDU 07001 Addendum
Noise transmission into aircraft cabins. Addendum: Estimation of section properties of fuselage stiffeners.
- ESDU 02008
- Aircraft Noise
- Fatigue - Endurance Data
- Fatigue - Fracture Mechanics
- Fluid Mechanics, Internal Flow
- Fluid Mechanics, Internal Flow (Aerospace)
- Heat Transfer
- Physical Data, Chemical Engineering
- Stress and Strength
- Transonic Aerodynamics
- Vibration and Acoustic Fatigue
- Wind Engineering