Statistic evaluation of usability of optical radiation intensity for the knock detection

• Autorzy: Piernikarski D.
• Języki publikacji: EN

Abstrakty

EN

The author presents some results of statistic evaluation of usability of the optical radiation for the knock detection in a gasoline engine - as a preliminary stage of further signal analysis. Research was done using modified one-cylinder SI test engine. The source of the signal was resultant wide-band intensity of optical radiation gathered using optical combustion sensor with direct access to the combustion chamber. The optical signal was then transmitted by a waveguide bundle to the set of photodetectors and after conversion - recorded using analog-digital card. Data analysis has shown good correlation between indicated pressure treated as a reference signal and signal of intensity of optical radiation. Optical signal was also more sensitive to the changing conditions of engine operation. Therefore wide-band intensity of optical radiation can be a good source of information regarding onset and intensity of knock in a gasoline engine. However further processing will require more advanced analysis like band-pass filtering and transformation into frequency domain.

• Wydawca: Komitet Termodynamiki i Spalania PAN
• Czasopismo: Archivum Combustionis
• Rocznik: 2006
• Tom: Vol. 26 nr 3-4
• Strony: 103--120
• Opis fizyczny: Bibliogr. 18 poz., rys., tab.

Twórcy

autor

Piernikarski D.

• Lublin University of Technology, Department of Internal Combustion Engines and Transportation Poand, 20-618 Lublin, 36 Nadbystrzycka Str., fax: (091)53-81 258,

Bibliografia

• [1] AVL Visiolution. Product leaflet. AVL List GmbH. 03/2001.
• [2] Brunt M., Pond C., Biundo J.: Gasoline engine knock analysis using cylinder pressure data. SAE pap. 980896, 1998.
• [3] Chang C., Clasen E., Song K., Campbell S., Rhee K. T., Jiang H.: Quantitative Imaging of In-Cylinder Processes by Multispectral Methods. SAE Pap. 970872, 1997.
• [4] Decker H., Gruber H.: Knock control of gasoline engines – a comparison of solutions and tendencies, with special references to future European emission legislation. SAE pap. 850298, 1985.
• [5] Grandin B.: Full Load performance of a turbo charge SI engine in the presence of EGR. Tryck KTH Högskoletryckeriet, Stockholm 1999.
• [6] Hunicz J., Piernikarski D.: Transient In-Cylinder AFR Management Based on Optical radiation Signals, SAE pap. 2004-01-0516, 2004.
• [7] Leppard W.R.: Individual cylinder knock occurrence and intensity in multicylinder engine. SAE pap. 820074, 1982.
• [8] Merkisz J., Mazurek S.: Pokładowe systemy diagnostyczne pojazdów samochodowych. (On-board diagnostic systems of automotive vehicles). WKiŁ, Warsaw 2002.
• [9] Nutton D., Pinnock R.A.: Closed Loop Ignition and Fueling Control Using Optical Combustion Sensors. SAE pap. 900486, 1990.
• [10] Ohyama Y., Ohsuga M., Kuroiwa H.: Study on Mixture Formation and Ignition Process in Spark Ignition Engine Using Optical Combustion Sensor. SAE Pap. 901712, 1990.
• [11] Piernikarski D.: Integrated optical system for investigation and diagnostics of abnormal combustion in an automotive engine, Lightguides and their Applications II, Proc. of SPIE, vol. 5576, 2004, pp. 284-289.
• [12] Saminy B., Rizzoni G.: Engine knock analysis and detection using time-frequency analysis. SAE pap. 960618, 1996.
• [13] Sasayma T., Oho S., Kuroiwa H., Suzuki S.: Recent Developments of Optical Fiber Sensors in Automotive Use. Fiber Optic Systems For Mobile Platforms, SPIE Vol. 840, 1987.
• [14] Shoji H., Shimizu T., Nishizawa T. et al.: Spectroscopic Measurement of Radical Behavior Under Knocking Operation. SAE Pap. 962104, 1996.
• [15] Smith G., Luque G., Park C. et al.: Low Pressure Determinations of Rate Constants for OH(A) and CH(A) Chemiluminescence. Combustion and Flame, 131, 2002.
• [16] Sohma K., Yukitake Y., Azuhata Y., Takaku Y.: Application of Rapid Optical Measurement to Detect the Fluctuations of the Air-Fuel Ratio and Temperature of a Spark Ignition Engine. SAE Pap. 910499, 1991.
• [17] Sun Z., Blackshear P.L., Kittelson D.B.: Spark Ignition Engine Knock Detection Using In-Cylinder Optical Probes. SAE pap. 962103, 1996.
• [18] Yang J., Plee S., Remboski D.: Relationship Between Monochromatic Gas Radiation Characteristics and SI Engine Combustion Parameters. SAE Pap. 930216, 1993.