S. Oh, K. Koh, J. Kim*, "Development of thermoelectric exhaust energy recovery system of a hydrogen internal combustion engine in a city bus using a Three-Dimensional multiphysics model", Energy Conversion and Management, Vol. 300(1), pp. 1-13, 2024.
J. Kim*, "Exhaust Emissions and Aftertreatments of Hydrogen Internal Combustion Engines: A Review", International Journal of Automotive Technology, Vol. 24(6), pp. 1681-1690, 2023.
S. Kim, J. Kim*, "Assessing fuel economy and NOx emissions of a hydrogen engine bus using neural network algorithms for urban mass transit systems", Energy, Vol. 275, 2023.
S. Lee, C. Kim, S. Lee, J. Lee, J. Kim*, "Experimental investigation on combustion and particulate emissions of the high compressed natural gas reactivity controlled compression ignition over wide ranges of intake conditions in a multi-cylinder engine using a two-stage intake boost system", Fuel Processing Technology, vol. 228, 2022.
S. Kim, J. Kim*, "Feasibility assessment of hydrogen-rich syngas spark-ignition engine for heavy-duty long-distance vehicle application", Energy Conversion and Management, vol. 252, 2022.
S. Lee, C. Kim, S. Lee, S. Oh, J. Kim, J. Lee*, "Characteristics of non-methane hydrocarbons and methane emissions in exhaust gases under natural-gas/diesel dual-fuel combustion", Fuel, vol. 290, 2021.
S. Lee, C. Kim, S. Lee, J. Lee, J. Kim*, "Diesel injector nozzle optimization for high CNG substitution in a dual-fuel heavy-duty diesel engine", Fuel, vol. 262, 2020.
S. Oh, C. Kim, Y. Lee, S. Yoon, J. Lee, J. Kim*, "Experimental investigation of the hydrogen-rich offgas spark ignition engine under the various compression ratios", Energy Conversion and Management, vol. 201, pp.112-136, 2019.
Y. Lee, S. Oh, C. Kim, J. Lee, K. Lee, and J. Kim*, “The dual-port fuel injection system for fuel economy improvement in an automotive spark-ignition gasoline engine,” Applied Thermal Engineering, vol. 138, pp. 300–306, Jun. 2018.
T. Y. Kim and J. Kim*, “Assessment of the energy recovery potential of a thermoelectric generator system for passenger vehicles under various drive cycles,” Energy, vol. 143, pp. 363–371, Jan. 2018.
K. Kim, J. Kim, S. Oh, C. Kim, and Y. Lee*, “Evaluation of injection and ignition schemes for the ultra-lean combustion direct-injection LPG engine to control particulate emissions,” Applied Energy, vol. 194, pp. 123–135, May 2017.
K. Kim, J. Kim, S. Oh, C. Kim, and Y. Lee*, “Lower particulate matter emissions with a stoichiometric LPG direct injection engine,” Fuel, vol. 187, pp. 197–210, Jan. 2017.
J. Kim, K. Kim, and S. Oh*, “An assessment of the ultra-lean combustion direct-injection LPG (liquefied petroleum gas) engine for passenger-car applications under the FTP-75 mode", Fuel Processing Technology, vol. 154, pp. 219–226, Dec. 2016.
J. Kim, K. Kim, S. Oh, and S. Lee*, An assessment of the biodiesel low-temperature combustion engine under transient cycles using single-cylinder engine experiment and cycle simulation", Energy, vol. 95, pp. 471–482, Jan. 2016.
K. Kim, S. Oh, Y. Lee, S. Lee, and J. Kim*, “Intake condition requirements for biodiesel modulated kinetic combustion concept to achieve a simultaneous NOx and soot removal,” Energy Conversion and Management, vol. 103, pp. 119–128, Oct. 2015.
J. Kim, J. Jang, K. Lee, Y. Lee, S. Oh, and S. Lee, “Combustion and emissions characteristics of Diesel and soybean biodiesel over wide ranges of intake pressure and oxygen concentration in a compression–ignition engine at a light-load condition,” Fuel, vol. 129, pp. 11–19, Aug. 2014.
S. Park, R. D. Reitz, and J. Kim*, “Combustion and emission characteristics of converging group-hole nozzle under lean engine operating conditions,” Fuel, vol. 90, no. 11, pp. 3259–3267, Nov. 2011.
J. Kim, R. D. Reitz, S. W. Park, and K. Sung, “Reduction of NOx and CO Emissions in Stoichiometric Diesel Combustion Using a 3-Way Catalyst," Journal of Engineering for Gas Turbine and Power, pp. 389–397, Jan. 2009.
S. Kim, J. Kim, "Analysis of flow characteristics according to piston shape of hydrogen combustion engine for commercial vehicles", Korea Society of Automotive Engineers, Fall Conference, 2023.