B. E. Milton scite author profile

This paper presents an alternative approach to investigating the origin and the development process of knock vibrations that occur in an indirect injection (IDI) diesel engine. In contrast to the conventional analysis of the pressure rise rate, this study focuses on the analysis of instantaneous resonant frequencies at different moments during combustion. The smoothed pseudo-Wigner-Ville distribution (SPWVD) and Hilbert transform methods are applied to estimate the resonant frequency under different conditions representing various knock intensities. Two important factors are found significantly to influence knock development. Finally, design strategies and preferable fuel injection patterns are suggested for reducing knock intensity.

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Shock wave calibration of under-expanded natural gas fuel jets

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Milton

2008

Shock Waves

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B. E. Milton

Laminar burning velocities in stoichiometric hydrogen and hydrogenhydrocarbon gas mixtures

Air Flow and Heat Transfer in Ventilated Disc Brake Rotors With Diamond and Tear-Drop Pillars

Periodic cavitation shedding in a cylindrical orifice

Influence of the resonant frequency on the control of knock in diesel engines

Shock wave calibration of under-expanded natural gas fuel jets

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