Experimental study of fuel stratification for HCCI high load extension

Fuel stratification has the potential to extend the high load limits of homogeneous charge compression ignition (HCCI) combustion by improving the control over the combustion phase as well as reducing the maximum rate of pressure rise. In this work, experiments were carried out on a single-cylinder engine equipped with a dual-fuel-injection system – a port injector for preparing a homogeneous charge and a direct in-cylinder injector for creating the desired fuel stratification. The homogeneous charge was prepared using gasoline fuel while the fuel stratification was created with the in-cylinder injection of either gasoline or methanol during the compression stroke. The test results indicate that high load extension using gasoline for fuel stratification is limited by the trade-off between CO and NOx emissions. Weak gasoline stratification leads to an advanced combustion phase and an increase in NOx emission, while increasing the stratification with a higher quantity of gasoline direct injection, results in a significant deterioration in both the combustion efficiency and the CO emission. Engine tests using methanol for the stratification retarded the ignition timing and prolonged the combustion duration, resulting in a substantial reduction in the maximum rate of pressure rise and the maximum cylinder pressure – a prerequisite for HCCI high load extension. Further tests were then conducted with methanol stratification to extend the HCCI load limit and to optimize the stratified methanol-to-gasoline fuel ratio. Compared to gasoline HCCI, a 50% increase in the maximum IMEP attained was achieved with an acceptable maximum pressure rise rate of 0.5MPa/°CA while maintaining a high thermal efficiency.

[1]  Alasdair Cairns,et al.  The Effects of Combined Internal and External Exhaust Gas Recirculation on Gasoline Controlled Auto-Ignition , 2005 .

[2]  Nicholas P. Cernansky,et al.  Potential of Thermal Stratification and Combustion Retard for Reducing Pressure-Rise Rates in HCCI Engines, Based on Multi-Zone Modeling and Experiments , 2005 .

[3]  Uwe Wagner,et al.  An Experimental Study of Homogeneous Charge Compression Ignition (HCCI) with Various Compression Ratios, Intake Air Temperatures and Fuels with Port and Direct Fuel Injection , 2003 .

[4]  Takeshi Morikawa,et al.  Expanding the HCCI Operation With the Charge Stratification , 2004 .

[5]  Wei Chen,et al.  A fundamental study on the control of the HCCI combustion and emissions by fuel design concept combined with controllable EGR. Part 2. Effect of operating conditions and EGR on HCCI combustion , 2005 .

[6]  Jian Li,et al.  Research and Development of Controlled Auto-Ignition (CAI) Combustion in a 4-Stroke Multi-Cylinder Gasoline Engine , 2001 .

[7]  Wang Jianxin,et al.  Unregulated Emissions and Combustion Characteristics of Low-Content Methanol-Gasoline Blended Fuels , 2010 .

[8]  Zhi Wang,et al.  Potential of High Load Extension for Gasoline HCCI Engine Using Boosting and Exhaust Gas Recirculation , 2009 .

[9]  A. Megaritis,et al.  Applying boosting to gasoline HCCI operation with residual gas trapping , 2005 .

[10]  Tat Leung Chan,et al.  Effect of diesel/methanol compound combustion on diesel engine combustion and emissions , 2008 .

[11]  Zhi Wang,et al.  Study of Multimode Combustion System With Gasoline Direct Injection , 2007 .

[12]  Wei Chen,et al.  A fundamental study on the control of the HCCI combustion and emissions by fuel design concept combined with controllable EGR. Part 1. The basic characteristics of HCCI combustion , 2005 .

[13]  John E. Dec,et al.  Smoothing HCCI Heat-Release Rates Using Partial Fuel Stratification with Two-Stage Ignition Fuels , 2006 .

[14]  Fuquan Zhao,et al.  Homogeneous charge compression ignition (HCCI) engines : key research and development issues , 2003 .

[15]  Bengt Johansson,et al.  HCCI Operating Range in a Turbo-charged Multi Cylinder Engine with VVT and Spray-Guided DI , 2009 .

[16]  John E. Dec,et al.  Isolating the Effects of Fuel Chemistry on Combustion Phasing in an HCCI Engine and the Potential of Fuel Stratification for Ignition Control , 2004 .

[17]  Wang Jianxin,et al.  Limitation of Charge Stratification for High Load Extension of HCCI Combustion in a GDI Engine with NVO , 2009 .

[18]  Bengt Johansson,et al.  Operating range in a Multi Cylinder HCCI engine using Variable Compression Ratio , 2003 .