《柴油/甲醇二元燃料燃烧理论与实践》参编,天津大学出版社,2015。 1. Junheng Liu, Anren Yao, Chunde Yao, et al. Effects of diesel injection pressure on the performance and emissions of a HD common-rail diesel engine fueled with diesel/methanol dual fuel, Fuel, 2015, 140: 192-200 (SCI一区、IF=8.035、ESI高被引论文) 2. Junheng Liu*, Yuan Liu, Qian Ji, et al. Effects of split injection strategy on combustion stability and GHG emissions characteristics of natural gas/diesel RCCI engine under high load, Energy, 2023, 266: 126542 (SCI一区、IF=8.857) 3. Junheng Liu*, Haoran Ma, Wenwen Liang, et al. Experimental investigation on combustion characteristics and influencing factors of PODE/methanol dual-fuel engine, Energy, 2022, 260: 125131 (SCI一区、IF=8.857) 4. Junheng Liu*, Pengcheng Wu, Qian Ji, et al. Experimental study on effects of pilot injection strategy on combustion and emission characteristics of diesel/methanol dual-fuel engine under low load, Energy, 2022, 247: 123464 (SCI一区、IF=8.857) 5. Shuyue Bao, Ping Sun, Jianxin Zhu, Qian Ji, Junheng Liu*. Improved multi-dimensional dynamic programming energy management strategy for a vehicle power-split hybrid powertrain, Energy, 2022, 256: 124682 (SCI一区、IF=8.857) 6. Junheng Liu*, Jun Yang, Ping Sun, et al. Experimental investigation of in-cylinder soot distribution and exhaust particle oxidation characteristics of a diesel engine with nano-CeO2 catalytic fuel, Energy, 2018, 161, 17-27 ((SCI一区、IF=8.857) 7. Junheng Liu*, Jun Yang, Ping Sun, et al. Compound combustion and pollutant emissions characteristics of a common-rail engine with ethanol homogeneous charge and polyoxymethylene dimethyl ethers injection, Applied Energy, 2019, 239, 1154-1162 (SCI一区、IF=11.446) 8. Junheng Liu*, Jun Yang, He Huang, et al. Experimental investigation on performance, combustion and emission characteristics of a common-rail diesel engine fueled with polyoxymethylene dimethyl ethers-diesel blends, Applied Energy, 2017, 202, 527-536 (SCI一区、IF=11.446) 9. Junheng Liu*, Haoran Ma, Lejian Wang, et al. Effects of EGR on combustion and emission characteristics of PODE/methanol RCCI mode at high load, Applied Thermal Engineering, 2023, 223: 120036 (SCI一区、IF=6.465) 10. Junheng Liu, Yuan Liu, Qian Ji, et al. Theoretical and experimental investigation of physicochemical properties and combustion performance of PODE/methanol blends, Fuel, 2023, 334: 126668 (SCI一区、IF=8.035) 11. Junheng Liu*, Lejian Wang, Pan Wang, et al. An overview of polyoxymethylene dimethyl ethers as alternative fuel for compression ignition engines, Fuel, 2022, 318: 123582 (SCI一区、IF=8.035) 12. Junheng Liu*, Pengcheng Wu, Ping Sun, et al. Effects of iron-based fuel borne catalyst addition on combustion, in-cylinder soot distribution and exhaust emission characteristics in a common-rail diesel engine, Fuel, 2021, 290: 120096 (SCI一区、IF=8.035) 13. Junheng Liu*, Lejian Wang, Ping Sun, et al. Effects of iron-based fuel borne catalyst addition on microstructure, element composition and oxidation activity of diesel exhaust particles, Fuel, 2020, 270: 117597 (SCI一区、IF=8.035) 14. Lejian Wang, Junheng Liu*, Qian Ji, et al. Experimental study on the high load extension of PODE/methanol RCCI combustion mode with optimized injection strategy, Fuel, 2022, 314: 122726 (SCI一区、IF=8.035) 15. Tianting Wang, Junheng Liu*, Ping Sun, et al. Influence of injection parameters on combustion, gaseous emissions and particle size distribution of a CRDI diesel engine operating with PODE/diesel blends, Fuel, 2020, 281: 118733 (SCI一区、IF=8.035) 16. Jie Li, Junheng Liu*, Qian Ji, et al. Effects of pilot injection strategy on in-cylinder combustion and emission characteristics of PODE/methanol blends, Fuel Processing Technology, 2022, 228: 107168 (SCI一区、IF=8.129) 17. Junheng Liu*, Haoran Ma, Ping Sun, et al. Simulation study on in-cylinder combustion and pollutant generation characteristics of PODE/methanol blends, Fuel Processing Technology, 2022, 228: 107165 (SCI一区、IF=8.129) 18. Junheng Liu*, Zengguang Liu, Lejian Wang, et al. Numerical simulation and experimental investigation on pollutant emissions characteristics of PODE/methanol dual-fuel combustion, Fuel Processing Technology, 2022, 231: 107228 (SCI一区、IF=8.129) |