| Main studying and working experiences: 2020.07-Now, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Professor 2015.11-2020.06, Nagoya University, Japan, Researcher 2013.01-2013.04, Nagoya University, Japan, Researcher Assistant 2011.10-2016.03, Nagoya University, Japan, Ph.D 2008.09-2011.03, East China University of Science and Technology, China, Master 2004.09-2008.06, Changzhou University, China, Bachelor Main research directions: 1. Fuel utilization technology and combustion burner development 2. Combustion dynamics, combustion mechanism analysis, combustion pollutant control technology 3. Combustion waste heat recovery technology, chemical heat pump, chemical heat storage technology Focus on the clean and efficient utilization of non-carbon and/or low-carbon fuels, combustion mechanism analysis, pollutant formation mechanism, and efficient recovery and utilization of combustion waste heat, presided over and participated in the "BR Plan Project" of Chinese Academy of Sciences, key research projects of Aichi County, Japan, joint research projects of Denso, Ricoh, and Japan catalyst company, etc., More than 30 SCI papers in international journals, such as energy, International Journal of hydrogen energy and RSC advances, has been published as the first / corresponding author. Participated in more than 20 international academic conferences. Scholarly Works: [1] Jun Li, Hongyu Huang, Lisheng Deng, Zhaohong He, Yugo Osaka, Noriyuki Kobayashi. Effect of hydrogen addition on combustion and heat release characteristics of ammonia flame. Energy 2019, 175: 604-617. [2] Jun Li, Hongyu Huang, Yu Bai, Shijie Li, Noriyuki Kobayashi, Combustion and heat release characteristics of hydrogen/air diffusion flame on a micro-jet array burner. International Journal of Hydrogen Energy 2018, 43: 13563-13574. [3] Jun Li, Hongyu Huang, Noriyuki Kobayashi, Chenguang Wang, Haoran Yuan. Numerical study on laminar burning velocity and ignition delay time of ammonia flame with hydrogen addition. Energy 2017, 126: 796-809. [4] Jun Li, Hongyu Huang, Noriyuki Kobayashi, Zhaohong He, Yugo Osaka, Tao Zeng. Numerical study on effect of oxygen content in combustion air on ammonia combustion. Energy 2015, 93: 2053-2068. [5] Jun Li, Hongyu Huang, Noriyuki Kobayashi, Zhaohong He, and Yoshihiro Nagai. Study on using hydrogen and ammonia as fuels: Combustion characteristics and NOx formation. International Journal of Energy Research 2014, 38(9): 1214-1223. [6] Jun Li, Hongyu Huang, Noriyuki Kobayashi, Zhaohong He, Yugo Osaka, Tao Zeng, Research on combustion and emission characteristics of ammonia under preheating conditions. Journal of Chemical Engineering of Japan 2016, 49: 641-648. [7] Hongyu Huang, Jun Li*, Zhaohong He, Tao Zeng, Noriyuki Kobayashi, Mitsuhiro Kubota. Porous-Resin-Supported Calcium Sulfate Materials for Thermal Energy Storage. Energy Technology 2016, 4(11): 1401-1408. [8] Xuecheng Liu, Yugo Osaka, Hongyu Huang, Jun Li*, Zhaohong He, Xixian Yang, Huhetaoli, Shijie Li, Noriyuki Kobayashi. Development of a compact MnO2 filter for removal of SO2 from diesel vehicle emissions. RSC Advances 2017, 7: 18500-18507. [9] Shijie Li, Hongyu Huang, Jun Li*, Noriyuki Kobayashi, Yugo Osaka, Zhaohong He, Haoran Yuan. The effect of 3D carbon nanoadditives on lithium hydroxi3.00de monohydrate based composite materials for highly efficient low temperature thermochemical heat storage. RSC Advances 2018, 8199-8208. [10] Long Wu, Noriyuki Kobayashi, Zhanyong Li, Hongyu Huang, Jun Li. Emission and heat transfer characteristics of methane–hydrogen hybrid fuel laminar diffusion flame. International Journal of Hydrogen Energy 2015, 40(30): 9579-9589. [11] 李军,袁帅,梁钦锋,周志杰,王辅臣. 煤及其模型化合物快速热解过程中HCN和NH3逸出规律的研究. 高校化学工程学报,2011, 25(1): 55-60. [12] Shuai Yuan, Zhijie Zhou, Jun Li, Fuchen Wang. Nitrogen conversion during rapid pyrolysis of coal and petroleum coke in a high-frequency furnace. Applied Energy 2012, 92: 854-59. [13] Shuai Yuan, Zhijie Zhou, Jun Li, Fuchen Wang. HCN and NH3 (NOx precursors) released under rapid pyrolysis of biomass/coal blends. Journal of Analytical and Applied Pyrolysis 2011, 92: 463-69. [14] Shuai Yuan, Xueli Chen, Jun Li, Fuchen Wang. CO2 Gasification Kinetics of Biomass Char Derived from High-Temperature Rapid Pyrolysis. Energy& Fuels 2011, 25: 2314-21. [15] Shuai Yuan, Xueli Chen, Jun Li, Fuchen Wang. HCN and NH3 Released from Biomass and Soybean Cake under Rapid Pyrolysis. Energy& Fuels 2010, 24: 6166-71. |
