Experimental evaluation of strategies to increase the operation range of a biogas HCCI engine for power generation." Applied Energy 97 (2011): 618-629."
Experimental study of biogas combustion characteristics and emissions in a HCCI engine for power generation." 1, no. 53 (2011): 154-162."
Increasing the signal-to-noise ratio of sparkplug ion sensors through addition of a potassium acetate fuel additive." In Proceedings of the Combustion Institute, 3081-3088. Vol. 33., 2011."
Maximizing power output in an automotive scale multi-cylinder HCCI engine." In SAE World Congress., 2011."
Extending Lean Operating Limit and Reducing Emissions of Methane Spark-Ignited Engines Using a Microwave-Assisted Spark Plug." Journal of Combustion 2012 (2012)."
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."
Understanding Loss Mechanisms and Efficiency Improvement Options for HCCI Engines Using Detailed Exergy Analysis., 2012.
Wet ethanol in HCCI engines with exhaust heat recovery to improve the energy balance of ethanol fuels." Applied Energy 98 (2012): 448-457."
Electrical consumption of two-, three- and four-wheel light-duty electric vehicles in India." Applied Energy 115 (2013): 582-590."
Fundamental Phenomena affecting Low Temperature Combustion and HCCI Engines, High Load Limits and Strategies for Extending these Limits, Progress in Energy & Combustion Science., 2013.
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)."
Key Factors Influencing Autonomous Vehicles’ Energy and Environmental Outcome." In Road Vehicle Automation, 127-135. , 2014."
Understanding Optimal Engine Operating Strategies for Gasoline-Fueled HCCI Engines using Crank-Angle Resolved Exergy Analysis." Applied Energy 114 (2014): 155-163."