Victor J. Virchis scite author profile

The paper describes an investigation of a subjectively distinguishable element of high speed jet noise known as ‘crackle’. ‘Crackle’ cannot be characterized by the normal spectral description of noise. It is shown to be due to intense spasmodic short-duration compressive elements of the wave form. These elements have low energy spread over a wide frequency range. The crackling of a large jet engine is caused by groups of sharp compressions in association with gradual expansions. The groups occur at random and persist for some 10−1s, each group containing about 10 compressions, typically of strength 5 × 10−3 atmos at a distance of 50 m. The skewness of the amplitude probability distribution of the recorded sound quantifies crackle, though the recording process probably changes the skewness level. Skewness values in excess of unity have been measured; noises with skewness less than 0·3 seem to be crackle free. Crackle is uninfluenced by the jet scale, but varies strongly with jet velocity and angular position. The jet temperature does not affect crackle, neither does combustion. Supersonic jets crackle strongly whether or not they are ideally expanded through convergent-divergent nozzles. Crackle is formed (we think) because of local shock formation due to nonlinear wave steepening at the source and not from long-term nonlinear propagation. Such long-term effects are important in flight, where they are additive. Some jet noise suppressors inhibit crackle.

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Response of an accelerating vehicle to random road undulation

Virchis¹,

Robson²

1971

Journal of Sound and Vibration

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Dynamic Simulation, with Independent Variable Transformation, Using Bond Graphs

Virchis

Hammond

1985

Vehicle System Dynamics

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Radiation characteristics of acoustic sources in circular motion

Virchis

Wright

1976

Journal of Sound and Vibration

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Dynamic Simulation, With Independent Variable Transformation, Using Bond Graphs

Virchis

Hammond

1986

Vehicle System Dynamics

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Victor J. Virchis

‘Crackle’: an annoying component of jet noise

Response of an accelerating vehicle to random road undulation

Dynamic Simulation, with Independent Variable Transformation, Using Bond Graphs

Radiation characteristics of acoustic sources in circular motion

Dynamic Simulation, With Independent Variable Transformation, Using Bond Graphs

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