Knock is a phenomenon of abnormal combustion which has to be avoided during the operation of a spark ignition engine. Traditional techniques for knock detection use the in-cylinder pressure signal. At the current state of art, this kind of signal is impossible to measure on a marching vehicle due to several drawbacks. In this work the possibility of reconstructing the incylinder pressure by using the engine block vibrational signals is investigated. The reconstruction has been made applying the complex cepstrum transform to the signal coming from an accelerometer which has been placed on the engine head. The presented results show how the reconstruction is possible, with low percentage error, in zone of the pressure waveform over the top dead centre, which is the critical zone for knock occurrence. © 2014 Praise Worthy Prize S.r.l.-All rights reserved.
Vibrational signals processing for in-cylinder pressure reconstruction of a four cylinder spark ignition engine
Siano D;
2014
Abstract
Knock is a phenomenon of abnormal combustion which has to be avoided during the operation of a spark ignition engine. Traditional techniques for knock detection use the in-cylinder pressure signal. At the current state of art, this kind of signal is impossible to measure on a marching vehicle due to several drawbacks. In this work the possibility of reconstructing the incylinder pressure by using the engine block vibrational signals is investigated. The reconstruction has been made applying the complex cepstrum transform to the signal coming from an accelerometer which has been placed on the engine head. The presented results show how the reconstruction is possible, with low percentage error, in zone of the pressure waveform over the top dead centre, which is the critical zone for knock occurrence. © 2014 Praise Worthy Prize S.r.l.-All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
