李钰(邮箱：liyu@just.edu.cn)，男， 能源与动力学院硕士导师，入选江苏省“双创博士”人才项目。研究方向为电催化还原CO₂为高附加值工业产品、CO₂捕集高效低能耗材料开发、合成气转化高附加值产品开发及精细化工、水力机械流场优化以及机械减振降噪。担任Thermal Science and Engineering Progress , Journal of Low Frequency Noise, Vibration and Active Control, Advance in Mechanical Engineering等国际期刊的审稿工作。中国工程热物理学会会员。负责《能源与动力工程测试技术》、《新能源专业英语》、《燃料电池理论基础》等必修课教学。指导学生获得 第七届全国大学生船舶能源与动力创新大赛 二等奖。

部分发表论文：

[1]Yu Li.Experimental and theoretical study on performanceof Cu-Fe spinel supported with certain inerts during chemical looping combustion.Chemical Engineering

Journal（国际一区top期刊，IF:13.3）, 2024, 495, 153591.

[2]Yu Li. Mechanistic study of the effect of oxygen vacancy and sulfur poisoning on the reaction of copper ferrite spinel with CO during chemical-looping combustion.Fuel（国际一区top期刊）, 2021,299: 120931.

[3]Yu Li. Interaction mechanism between CO and H₂S over CuFe₂O₄oxygen carrier during chemical-looping combustion: A DFT study.Fuel（国际一区top期刊）,2022,324: 124720.

[4]Yu Li.Computational design and experimental validation of transition-metal dopedCuFe₂O₄as oxygen carriers in chemical-looping combustion.Fuel（国际一区top期刊）,2022,330: 125584.

[5]Yu Li. Theoretical insights into H₂S reaction mechanism over CuFe₂O₄oxygen carrier.Journal of the Energy Institute（二区期刊）, 2021, 99: 120–126.

[6]Yu Li. Influence of doping Al on the reactivity performance of Cu–Fe spinel-type oxygen carrier during chemical-looping combustion.Journal of the Energy Institute（二区期刊）,2022, 105: 25–32.

[7]Yu Li.Experimental and theoretical insights into sulfur resistance of transition metal-doped Cu-Fe spinel during chemical looping combustion.International Journal of Hydrogen Energy（国际二区top期刊）,2023，48：16897-16909.