2014.09 至 2019.09，上海交通大学，动力工程及工程热物理，工学博士
2010.09 至 2014.06，山东大学，能源与动力工程，工学学士

2023.07 至今，上海交通大学副教授、博士生导师
2022.02 至 2023.07，阿卜杜拉国王科技大学，博士后（合作导师：Deanna Lacoste教授）
2019.07 至 2022.02，上海交通大学，博士后（合作导师：吕兴才教授）

1. 低碳零碳燃料高压燃烧反应动力学
2. 真实燃料着火与燃烧
3. 热、电催化化学氨制氢技术
4. 等离子体强化着火、推进、燃烧稳定性
5. 高压旋流火焰与热声不稳定
6. 空天与船海先进动力系统
7. 人工智能在能源科学中的应用

1. 企业技术合作项目，液氨直接电解制氢装置技术开发，2024-02 至 2024-10，在研，负责人；
2. 国家自然科学基金青年项目，模型燃料组分变化对着火延迟NTC特性的影响研究，2021-01 至 2023-12，结题，负责人；
3. 中国博士后科学基金特别资助，氨气掺混对基础参比燃料（PRF）低温氧化特性的影响研究，2020-08 至 2022-01，结题，负责人；
4. 中国博士后科学基金面上一等资助, 典型长链脂肪酸甲酯自着火特性的试验与反应动力学研究，2019-11 至 2022-01，结题，负责人；
5. 上海市“超级博士后”激励计划，航空燃料组分差异对自着火特性的影响机制研究， 2019-07 至 2021-06，结题，负责人；
6. KAUST科学项目，纳秒脉冲等离子体放电调控高压燃烧稳定性与爆轰，主要完成人；
7. 上海市优秀学术带头人计划资项目，航空煤油组分变化对热声震荡的影响，2019.01至2022.12，结题，主要完成人；
8. 国家自然科学基金国际合作与交流项目，丁醇-生物柴油二元燃料着火与燃烧机理及其实现高效超低排放的研究，2019-01 至 2021-12，结题，主要完成人；
9. 国家自然科学基金 重大计划重点项目，航空煤油模型燃料着火与燃烧机理及其组分变化对燃烧稳定性的影响； 2017-01 至 2020-1，结题，主要完成人；
10. 国家杰出青年科学基金项目，内燃机燃烧与排放，2015-01 至 2019-12，结题，主要完成人。

第一作者或通讯作者*
[1] L. Yu, B. Aravind*, D. A. Lacoste, Mitigating the response of lean premixed swirl flames to acoustic excitation by nanosecond repetitively pulsed discharges at elevated pressures, Combust. Flame. 256 (2023) 112944.
[2] L. Yu, H. Wu, W. Zhao, Y. Qian, L. Zhu, X. Lu*, Experimental study on the application of n-butanol and n-butanol/kerosene blends as fuel for spark ignition aviation piston engine, Fuel. 304 (2021) 121362.
[3] L. Yu, W. Zhou, Y. Feng, W. Wang, J. Zhu, Y. Qian, X. Lu*, The effect of ammonia addition on the low-temperature autoignition of n-heptane: An experimental and modeling study, Combust. Flame. 217 (2020) 4–11.
[4] L. Yu, W.Y. Wang, S.X. Wang, Y. Feng, Y. Qian, X. Lu*, An experimental and modeling study of n-hexadecane autoignition under low-to-intermediate temperatures, Sci. China Technol. Sci. 63 (2020) 719–730.
[5] L. Yu, Y. Qiu, Y. Mao, S. Wang, C. Ruan, W. Tao, Y. Qian, X. Lu*, A study on the low-to-intermediate temperature ignition delays of long chain branched paraffin: Iso-cetane, Proc. Combust. Inst. 37 (2019) 631–638.
[6] L. Yu, Y. Mao, Y. Qiu, S. Wang, H. Li, W. Tao, Y. Qian, X. Lu*, Experimental and modeling study of the autoignition characteristics of commercial diesel under engine-relevant conditions, Proc. Combust. Inst. 37 (2019) 4805–4812.
[7] L. Yu, Y. Mao, A. Li, S. Wang, Y. Qiu, Y. Qian, D. Han, L. Zhu, X. Lu*, Experimental and modeling validation of a large diesel surrogate: Autoignition in heated rapid compression machine and oxidation in flow reactor, Combust. Flame. 202 (2019) 195–207.
[8] L. Yu, S. Wang, W. Wang, Y. Qiu, Y. Qian, Y. Mao, X. Lu*, Exploration of chemical composition effects on the autoignition of two commercial diesels: Rapid compression machine experiments and model simulation, Combust. Flame. 204 (2019) 204–219.
[9] L. Yu, Z. Wu, Y. Qiu, Y. Qian, Y. Mao, X. Lu*, Ignition delay times of decalin over low-to-intermediate temperature ranges: Rapid compression machine measurement and modeling study, Combust. Flame. 196 (2018) 160–173.
[10] B. Aravind, L. Yu*, D. A. Lacoste, Enhancement of lean blowout limits of swirl stabilized NH3-CH4-Air flames using nanosecond repetitively pulsed discharges at elevated pressures (AECS, under review)
[11] Y. Zhang, W. Zhou, Y. Liang, L. Yu*, X. Lu, An experimental and detailed kinetic modeling study of the auto-ignition of NH3/diesel mixtures: Part 2- Wide pressures up to 120 bar, (Combust. Flame, under review)
[12] W. Zhou, Y. Liang, Z. Wang, L Yu*, X. Lu Low-to-intermediate temperature autoignition of methyl myristate: Ignition delay time measurement and skeletal model development, (Combust. Flame, under review)
[13] Y. Zhang, W. Zhou, Y. Liang, L. Yu*, X. Lu, An experimental and detailed kinetic modeling study of the auto-ignition of NH3/diesel mixtures: Part 1- NH3 substitution ratio from 20% to 90%, Combust. Flame. (2022) 112391.
[14] W. Zhou, Y. Zhang, Y. Liang, L. Yu*, X. Lu, Combustion reaction kinetics of biodiesel/n-butanol blends: Experiments in an ultrahigh-pressure rapid compression machine, Combust. Flame. 245 (2022) 112313.
[15] J. Zhu, J. Li, S. Wang, M. Raza, Y. Qian, Y. Feng, L. Yu*, Y. Mao, X. Lu, Ignition delay time measurements and kinetic modeling of methane/diesel mixtures at elevated pressures, Combust. Flame. 229 (2021) 111390.
[16] Y. Qiu, W. Zhou, Y. Feng, S. Wang, L. Yu*, Z. Wu, Y. Mao, Y. Qian, X. Lu, An experimental and modeling study of autoignition characteristics of butanol/diesel blends over wide temperature ranges, Combust. Flame. 217 (2020) 175–187.
[17] S. Wang, L. Yu*, Z. Wu, Y. Mao, H. Li, Y. Qian, L. Zhu, X. Lu*, Gas-phase autoignition of diesel/gasoline blends over wide temperature and pressure in heated shock tube and rapid compression machine, Combust. Flame. 201 (2019) 264–275.
[18] W. Zhong, Q. Yuan, J. Liao, N.M. Mahmoud, W. Yuan, Z. He*, Q. Wang, L. Yu*, X. Lu, Experimental and modeling study of the autoignition characteristics of gasoline/hydrogenated catalytic biodiesel blends over low-to-intermediate temperature, Fuel. 313 (2022).
[19] J. Zhu, Y. Liang, S. Wang, L. Yu*, D. Zhou, Y. Qian, X. Lu, Parametric study on dual-fuel ignition characteristics under marine engine-relevant conditions, Fuel. 311 (2022).
[20] W. Wang, L. Yu*, Y. Feng, Y. Qian, D. Ju, X. Lu, Autoignition study of methyl decanoate using a rapid compression machine, Fuel. 266 (2020) 117060.
[21] Y. Feng, J. Zhu, Y. Mao, M. Raza, Y. Qian, L. Yu*, X. Lu, Low-temperature auto-ignition characteristics of NH3/diesel binary fuel: Ignition delay time measurement and kinetic analysis, Fuel. 281 (2020).
[22] 于亮,吴丹阳,吕兴才*,碳碳双键对3-己烯酸甲酯着火延迟的影响,上海交通大学学报 52 (2018) 437-446.
[23]于亮, 孙书洲, 陶文操, 吕兴才*, 正癸烷的中低温着火特性, 燃烧科学与技术 23 (2017) 325-330.
其他共同作者
[24] W. Zhou, Y. Liang, X. Pei, Y. Zhang, L. Yu, X. Lu*, Autoignition of methyl palmitate in low to intermediate temperature: Experiments in rapid compression machine and kinetic modeling, Combust. Flame. 249 (2023) 112619.
[25] J. Zhu, D. Zhou, L. Yu, Y. Qian, X. Lu*, Construction of a skeletal multi-component diesel surrogate model by integrating chemical lumping and genetic algorithm, Fuel. 313 (2022).
[26] J. Zhu, S. Wang, M. Raza, Y. Feng, J. Li, Y. Mao, L. Yu, Y. Qian, X. Lu*, Autoignition behavior of methanol/diesel mixtures: Experiments and kinetic modeling, Combust. Flame. 228 (2021) 1–12.
[27] J. Zhu, M. Raza, J. Li, S. Wang, Y. Mao, Y. Feng, Y. Qian, L. Yu, X. Lu*, Impact of small-amount diesel addition on methane ignition behind reflected shock waves: Experiments and modeling, Fuel. 288 (2021).
[28] Z. Wu, Y. Mao, L. Yu, Y. Qian, X. Lu*, Auto-ignition characteristics of a near-term light surrogate fuel for marine diesel: An experimental and modeling study, Combust. Flame. 228 (2021) 302–314.
[29] S. Wang, Y. Liang, J. Zhu, M. Raza, J. Li, L. Yu, Y. Qian, X. Lu*, Experimental and modeling study of the autoignition for diesel and n-alcohol blends from ethanol to n-pentanol in shock tube and rapid compression machine, Combust. Flame. 227 (2021) 296–308.
[30] Y. Mao, L. Yu, Y. Qian, S. Wang, Z. Wu, M. Raza, L. Zhu, X. Hu, X. Lu*, Development and validation of a detailed kinetic model for RP-3 aviation fuel based on a surrogate formulated by emulating macroscopic properties and microscopic structure, Combust. Flame. 229 (2021).
[31] Y. Mao, J. Xia, C. Ruan, Z. Wu, Y. Feng, J. Zhu, S. Wang, L. Yu, X. Lu*, An experimental and kinetic modeling study of a four-component surrogate fuel for RP-3 kerosene, Proc. Combust. Inst. 38 (2021) 555–563.
[32] J. Li, J. Zhu, S. Wang, Y. Feng, W. Zhou, Y. Qian, L. Yu, X. Lu*, An experimental and modeling study of autoignition characteristics of two real low-octane gasoline fuels in a heated rapid compression machine at elevated pressures, Fuel. 295 (2021).
[33] Y. Feng, J. Zhu, S. Wang, L. Yu, Z. He, Y. Qian, X. Lu*, Theoretical and Experimental Study of 3-Pentanol Autoignition: Ab Initio Calculation, Shock Tube Experiments, and Kinetic Modeling, J. Phys. Chem. A. 125 (2021) 5976–5989.
[34] S. Wang, Y. Feng, Y. Qian, Y. Mao, M. Raza, L. Yu, X. Lu*, Experimental and kinetic study of diesel/gasoline surrogate blends over wide temperature and pressure, Combust. Flame. 213 (2020) 369–381.
[35] Y. Mao, M. Raza, Z. Wu, J. Zhu, L. Yu, S. Wang, L. Zhu, X. Lu*, An experimental study of n-dodecane and the development of an improved kinetic model, Combust. Flame. 212 (2020) 388–402.
[36] Z. Wu, Y. Mao, L. Yu, S. Wang, J. Xia, Y. Qian, X. Lu*, Surrogate Formulation for Marine Diesel Considering Some Important Fuel Physical-Chemical Properties, Energy Fuels. 33 (2019) 3539–3550.
[37] Z. Wu, Y. Mao, M. Raza, J. Zhu, Y. Feng, S. Wang, Y. Qian, L. Yu, X. Lu*, Surrogate fuels for RP-3 kerosene formulated by emulating molecular structures, functional groups, physical and chemical properties, Combust. Flame. 208 (2019) 388–401.
[38] S. Wang, Y. Mao, M. Raza, L. Yu, X. Lu*, Autoignition of diesel/oxygen/nitrogen mixture under elevated temperature in a heated shock tube, Fuel. 254 (2019).
[39] M. Raza, Y. Mao, L. Yu, X. Lu*, Insights into the Effects of Mechanism Reduction on the Performance of n-Decane and Its Ability to Act as a Single-Component Surrogate for Jet Fuels, Energy Fuels. 33 (2019) 7778–7790.
[40] Y. Qian, Z. Li, L. Yu, X. Wang, X. Lu*, Review of the state-of-the-art of particulate matter emissions from modern gasoline fueled engines, Appl. Energy. 238 (2019) 1269–1298.
[41] Y. Mao, L. Yu, Z. Wu, W. Tao, S. Wang, C. Ruan, L. Zhu, X. Lu*, Experimental and kinetic modeling study of ignition characteristics of RP-3 kerosene over low-to-high temperature ranges in a heated rapid compression machine and a heated shock tube, Combust. Flame. 203 (2019) 157–169.
[42] Y. Mao, S. Wang, Z. Wu, Y. Qiu, L. Yu, C. Ruan, F. Chen, L. Zhu, X. Lu*, An experimental and kinetic modeling study of n-butylcyclohexane over low-to-high temperature ranges, Combust. Flame. 206 (2019) 83–97.
[43] Y. Mao, A. Li, L. Zhu, Z. Wu, L. Yu, S. Wang, M. Raza, X. Lu*, A detailed chemical mechanism for low to high temperature oxidation of n-butylcyclohexane and its validation, Combust. Flame. 210 (2019) 360–373.
[44] Y. Mao, Y. Feng, Z. Wu, S. Wang, L. Yu, M. Raza, Y. Qian, X. Lu*, The autoignition of iso-dodecane in low to high temperature range: An experimental and modeling study, Combust. Flame. 210 (2019) 222–235.
[45] A. Li, L. Yu, X. Lu*, Z. Huang, L. Zhu, Experimental and Modeling Study on Autoignition of a Biodiesel/ n-Heptane Mixture and Related Surrogate in a Heated Rapid Compression Machine, Energy Fuels. 33 (2019) 4552–4563.
[46] Y. Qiu, L. Yu, L. Xu, Y. Mao, X. Lu*, Workbench for the Reduction of Detailed Chemical Kinetic Mechanisms Based on Directed Relation Graph and Its Deduced Methods: Methodology and n-Cetane as an Example, Energy Fuels. 32 (2018) 7169–7178.
[47] Y. Qian, L. Yu, Z. Li, Y. Zhang, L. Xu, Q. Zhou, D. Han, X. Lu*, A new methodology for diesel surrogate fuel formulation: Bridging fuel fundamental properties and real engine combustion characteristics, Energy. 148 (2018) 424–447.
[48] H. Li, L. Yu, S. Sun, S. Wang, X. Lu*, Z. Huang, A Shock Tube Experimental and Modeling Study of Multicomponent Gasoline Surrogates Diluted with Exhaust Gas Recirculation, Energy Fuels. 32 (2018) 3800–3813.

机动2403班（钱学森班）班主任

1. Proceedings of the Combustion Institute, Combustion and Flame, Fuel, Energy & Fuels, Applied Energy, Combustion Science and Technology, Energy Conversion and Management等多个国际期刊审稿人
2. 国际燃烧学会（The Combustion Institute）、中国内燃机学会会员
3. 中国职业安全健康协会防火防爆专业委员会委员

2021年 上海交通大学博士后聘期考核优秀
2020年 中国内燃机学会优秀博士论文奖
2020年 上海交通大学优秀博士学位论文提名奖
2020年 上海市“超级博士后”激励计划
2019年 吴仲华优秀研究生奖
2019年 上海市优秀毕业生
2019年 博士研究生国家奖学金
2018年 上海交通大学hga010网页登录研究生“学术之星”

人才培养成果（与吕兴才教授共同指导）：
国家奖学金：周伟（2023）
联电-上海交通大学优秀博士联合资助：周伟（2022-2023）；梁玥莹（2023-2024）；