Inter-cycle variability of in-cylinder pressure parameters in an ethanol fumigated common rail diesel engine

The effects of ethanol fumigation on the inter-cycle variability of key in-cylinder pressure parameters in a modern common rail diesel engine have been investigated. Specifically, maximum rate of pressure rise, peak pressure, peak pressure timing and ignition delay were investigated. A new methodology for investigating the start of combustion was also proposed and demonstrated—which is particularly useful with noisy in-cylinder pressure data as it can have a significant effect on the calculation of an accurate net rate of heat release indicator diagram. Inter-cycle variability has been traditionally investigated using the coefficient of variation. However, deeper insight into engine operation is given by presenting the results as kernel density estimates; hence, allowing investigation of otherwise unnoticed phenomena, including: multi-modal and skewed behaviour. This study has found that operation of a common rail diesel engine with high ethanol substitutions (>20% at full load, >30% at three quarter load) results in a significant reduction in ignition delay. Further, this study also concluded that if the engine is operated with absolute air to fuel ratios (mole basis) less than 80, the inter-cycle variability is substantially increased compared to normal operation.

[1]  Zoran Ristovski,et al.  Gaseous and particle emissions from an ethanol fumigated compression ignition engine , 2012 .

[2]  Bob Skelton Special Issue: Bio-fuels , 2007 .

[3]  Antonio Paolo Carlucci,et al.  Experimental investigation and combustion analysis of a direct injection dual-fuel diesel–natural gas engine , 2008 .

[4]  Moh'd Abu-Qudais,et al.  The effect of alcohol fumigation on diesel engine performance and emissions , 2000 .

[5]  F. Rosillo-calle,et al.  Global market for bioethanol: historical trends and future prospects , 2006 .

[6]  Ujjwal K. Saha,et al.  Effect of engine parameters and type of gaseous fuel on the performance of dual-fuel gas diesel engines—A critical review , 2009 .

[7]  C. Kemfert,et al.  An overview of biofuel policies across the world , 2010 .

[8]  Alberto Broatch,et al.  Combustion chamber resonances in direct injection automotive diesel engines: A numerical approach , 2004 .

[9]  T. Chan,et al.  Reducing Emissions of a Diesel Engine Using Fumigation Ethanol and a Diesel Oxidation Catalyst , 2010 .

[10]  M. Selim Effect of engine parameters and gaseous fuel type on the cyclic variability of dual fuel engines , 2005 .

[11]  R. Hickling,et al.  Knock‐induced cavity resonances in open chamber diesel engines , 1979 .

[12]  Michael F. J. Brunt,et al.  Calculation of Heat Release in Direct Injection Diesel Engines , 1999 .

[13]  G. Nagarajan,et al.  Experimental investigation of timed manifold injection of acetylene in direct injection diesel engine in dual fuel mode , 2010 .

[14]  Shahriar Shafiee,et al.  When will fossil fuel reserves be diminished , 2009 .

[15]  Douglas A. Feldmaier,et al.  Cavity resonances in engine combustion chambers and some applications , 1983 .

[16]  Mohamed Y. E. Selim,et al.  Improving the performance of dual fuel engines running on natural gas/LPG by using pilot fuel derived from jojoba seeds , 2008 .

[17]  John B. Heywood,et al.  Internal combustion engine fundamentals , 1988 .

[18]  M. Rosenblatt Remarks on Some Nonparametric Estimates of a Density Function , 1956 .

[19]  J.F. Bohme,et al.  Statistical Processing of Car Engine Signals for Combustion Diagnosis , 1994, IEEE Seventh SP Workshop on Statistical Signal and Array Processing.

[20]  O. Durgun,et al.  Experimental investigation of gasoline fumigation in a single cylinder direct injection (DI) diesel engine , 2008 .

[21]  N. V. Mahalakshmi,et al.  Performance and emission characteristics of a turpentine–diesel dual fuel engine , 2007 .

[22]  Timothy A. Bodisco,et al.  Bayesian models for the determination of resonant frequencies in a DI diesel engine , 2011 .

[23]  Q. Fang,et al.  Influences of pilot injection and exhaust gas recirculation (EGR) on combustion and emissions in a HCCI-DI combustion engine , 2012 .

[24]  Bhupendra Singh Chauhan,et al.  Experimental studies on fumigation of ethanol in a small capacity Diesel engine , 2011 .

[25]  Dimitrios C. Rakopoulos,et al.  Experimental heat release analysis and emissions of a HSDI diesel engine fueled with ethanol–diesel fuel blends , 2007 .

[26]  Charles A. Amann,et al.  Cylinder-Pressure measurement and Its Use in Engine Research , 1985 .

[27]  Naeim A. Henein,et al.  Combustion phenomena of alcohols in C.I. engines , 1989 .

[28]  E. Parzen On Estimation of a Probability Density Function and Mode , 1962 .

[29]  Alberto Broatch,et al.  New methodology for in-cylinder pressure analysis in direct injection diesel engines—application to combustion noise , 2005 .

[30]  Nicholas C Surawski,et al.  Particle emissions, volatility, and toxicity from an ethanol fumigated compression ignition engine. , 2010, Environmental science & technology.

[31]  R. B. Randall,et al.  Influence of the resonant frequency on the control of knock in diesel engines , 1999 .

[32]  Giorgio Rizzoni,et al.  Mechanical signature analysis using time-frequency signal processing: application to internal combustion engine knock detection , 1996, Proc. IEEE.

[33]  D. A. Kouremenos,et al.  Comparative performance and emission studies for vaporized diesel fuel and gasoline as supplements in swirl-chamber diesel engines , 1990 .

[34]  C. D. Rakopoulos,et al.  A stochastic-experimental investigation of the cyclic pressure variation in a di single-cylinder diesel engine , 1992 .

[35]  M. Shehata Cylinder pressure, performance parameters, heat release, specific heats ratio and duration of combustion for spark ignition engine , 2010 .

[36]  Xavier Tauzia,et al.  Experimental study of inlet manifold water injection on combustion and emissions of an automotive direct injection Diesel engine , 2010 .

[37]  M Gavaises,et al.  Effect of piezo-driven and solenoid-driven needle opening of common-rail diesel injectors on internal nozzle flow and spray development , 2006 .

[38]  Andrew L. Randolph,et al.  Methods of Processing Cylinder-Pressure Transducer Signals to Maximize Data Accuracy , 1990 .

[39]  R. A. White,et al.  The Effect of Fumigation of Different Ethanol Proofs on a Turbocharged Diesel Engine , 1988 .