Understanding Loss Mechanisms and Efficiency Improvement Options for HCCI Engines Using Detailed Exergy Analysis., 2012.
Understanding Optimal Engine Operating Strategies for Gasoline-Fueled HCCI Engines using Crank-Angle Resolved Exergy Analysis." Applied Energy 114 (2014): 155-163."
Numerical Analysis of Biogas Composition Effects on Combustion Parameters and Emissions in Biogas Fueled HCCI Engines for Power Generation." ASME Journal of Engineering for Gas Turbines and Power 135, no. 7 (2013)."
Experimental study of biogas combustion characteristics and emissions in a HCCI engine for power generation." 1, no. 53 (2011): 154-162."
Experimental evaluation of strategies to increase the operation range of a biogas HCCI engine for power generation." Applied Energy 97 (2011): 618-629."
A Sequential Chemical Kinetics-CFD-Chemical Kinetics Methodology to Predict HCCI Combustion and Main Emissions." In SAE 2012 World Congress & Exhibition, April 24, 2012. Detroit, Michigan, United States , 2012."