Academic Group of Engine Emission Control Technology

DATEDecember 31, 2022

Research Interests

Engine clean combustion and pollutant control technology、Engine exhaust after treatment technology、Four stroke internal combustion engine or solid oxide fuel cell using ammonia or methanol fuel


[1] Xuefei Wu, Yongming Feng*, Guodong Xu, Yuanqing Zhu, Pingjian Ming, et al. Numerical investigations on charge motion and combustion of natural gas-enhanced ammonia in marine pre-chamber lean-burn engine with dual-fuel combustion system, International Journal of Hydrogen Energy,2022,online First.

[2] Jinbo Qu, Yongming Feng, Guodong Xu, Ming Zhang, Yuanqing Zhu, et al. Design and thermodynamics analysis of marine dual fuel low speed engine with methane reforming integrated high pressure exhaust gas recirculation system, Fuel, 2022, 319:123747.

[3] Chong Xia, Wei Zhang, Yongming Feng, Tong Wang, Yuanqing Zhu, et al. Investigation on control strategy optimisation of harsh transient condition for a marine natural gas engine, Ships and Offshore Structures, 2022,2116213.

[4] Yongming Feng, Zhiqiang Du, Majed Shreka, Yuanqing Zhu, Song Zhou, et al. Thermodynamic analysis and performance optimization of the supercritical carbon dioxide Brayton cycle combined with the Kalina cycle for waste heat recovery from a marine low-speed diesel engine, Energy Conversion and Management, 2020, 206:112483.

[5] Zhanguang Wang,Song Zhou,Yongming Feng,Yuanqing Zhu,EGR Modeling and Fuzzy Evaluation of Low-Speed Two-Stroke Marine Diesel Engines, Science of The Total Environment, 2020, 706:135444.

[6] Yuanqing Zhu*, Weihao Zhou, Chong Xia, Qichen Hou. Application and Development of Selective Catalytic Reduction Technology for Marine Low-Speed Diesel Engine: Trade-Off among High Sulfur Fuel, High Thermal Efficiency, and Low Pollution Emission. Atmosphere 2022, 13: 731.(ESI Hot Paper)

[7] Chong Xia, Yuanqing Zhu*, Song Zhou, Hui Peng, Yongming Feng, et al. Simulation study on transient performance of a marine engine matched with high-pressure SCR system. International Journal of Engine Research 2022, online First.

[8] Jie Shi, Yuanqing Zhu*, Hui Peng, Haoyu Yan, Tinghui Li, Jin Zhang. Modeling and simulation of marine SCR system based on Modelica. International Journal of Engine Research 2022, online First.

[9] Yuanqing Zhu, Rongpei Zhang, Song Zhou, Chunan Huang, Yongming Feng*, Majed Shreka, Chaolei Zhang. Performance Optimization of High-pressure SCR System in a Marine Diesel Engine. Part II: Catalytic Reduction and Process. Topics in Catalysis 2019, 62: 40-48. (SCI, IF: 2.226)

[10] Yuanqing Zhu, Rongpei Zhang, Song Zhou*, Chunan Huang, Yongming Feng, Chaolei Zhang. Performance Optimization of High-pressure SCR System in a Marine Diesel Engine. Part I: Flow Optimization and Analysis. Topics in Catalysis 2019, 62: 27-39. (SCI, IF: 2.226)

Xi Hongyuan, Zhou Song*, Zhou Jinxi. New experimental results of NO removal from simulated marine engine exhaust gases by Na2S2O8/urea solutions [J]. Chemical Engineering Journal, 2019, 362: 12-20.

[11]Xi Hongyuan, Zhou Song*, Zhou Jinxi, Zhang Zhao. A novel combined system using Na2S2O8/urea to simultaneously remove SO2 and NO in marine diesel engine exhaust [J]. Journal of Hazardous Materials, 2020, 399: 123069.

[12]Xi Hongyuan, Zhou Song*, Zhang Zhao. A novel method for the synchronous absorption of SO2 and NO from marine diesel engines [J]. Fuel Processing Technology, 2020, 210: 106560.

[13]Zhang Zhao, Xi Hongyuan*, Zhou Song, Zhou Weijian, Majed Shreka. Efficient removal of NOx from simulated marine exhaust by using O3-Na2SO3: Experimental factors and optimization analysis [J]. Fuel, 2022, 313:122659.

[14]Zhang Zhao, Zhou Song*, Xi Hongyuan*, Zhou Weijian. Study on removing NO from simulated marine diesel engine exhaust gas using the novel composite system of Ozone-Na2SO3/(NH2)2CO [J]. Chemical Engineering Journal, 2022, 430: 132707.


Key technologies and applications of HP-SCR system for marine low speed diesel engines. Science and Technology Progress Award of China Society of Naval Architecture and Engineering, Second Prize, 2022.12.


Song Zhou