Many methodologies have been developed in the past for misfire detection purposes based on the analysis of the instantaneous engine speed. The missing combustion is usually detected, thanks to the sudden engine speed decrease that takes place after a misfire event. Misfire detection and, in particular, cylinder isolation are nevertheless still a challenging issue for engines with a high number of cylinders, for engine operating conditions at low load or high engine speed, and for multiple misfire events. When a misfire event takes place, a torsional vibration is excited and shows up in the instantaneous engine speed wave form. If a multiple misfire occurs, this torsional vibration is excited more than once in a very short time interval. The interaction between these successive vibrations can generate false alarms or misdetection, and an increased complexity when dealing with cylinder isolation. This paper presents the development of a powertrain torsional behavior model in order to identify the effects of a misfire event on the instantaneous engine speed signal. The identified wave form has then been used to filter out the torsional vibration effects in order to enlighten the missing combustions even in the case of multiple misfire events. The model response is also used to speed up the setup process for the detection algorithm employed, thus evaluating, before running specific experimental tests on a test bench facility, the values for the threshold and the optimal setup of the procedure. The proposed algorithm is developed in this paper for an SI L4 engine; its application to other engine configurations is possible, as is also discussed in this paper.
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March 2008
Research Papers
Development of a Torsional Behavior Powertrain Model for Multiple Misfire Detection
Fabrizio Ponti
Fabrizio Ponti
DIEM,
University of Bologna
, Bologna 40136, Italy
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Fabrizio Ponti
DIEM,
University of Bologna
, Bologna 40136, ItalyJ. Eng. Gas Turbines Power. Mar 2008, 130(2): 022803 (13 pages)
Published Online: February 25, 2008
Article history
Received:
September 20, 2005
Revised:
July 13, 2007
Published:
February 25, 2008
Citation
Ponti, F. (February 25, 2008). "Development of a Torsional Behavior Powertrain Model for Multiple Misfire Detection." ASME. J. Eng. Gas Turbines Power. March 2008; 130(2): 022803. https://doi.org/10.1115/1.2770486
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