2005.9 - 2009.7 西安交通大学 过程装备与控制工程 学士学位
2009.8 - 2011.8 美国克莱姆森大学 机械工程 博士在读
2011.9 - 2014.5 美国弗吉尼亚理工大学 航空航天工程 博士学位

2014.5- 2014.12 美国弗吉尼亚理工大学 航空航天工程 研究工程师
2015.1- 2017.8 美国明尼苏达大学 机械工程 博士后研究员
2017.9 至今 上海交通大学 机械与动力工程 副教授

主要涵盖利用实验和数值模拟方式对实际燃烧器（如汽车发动机,航空发动机等）进行理论分析及优化设计；以燃烧（及其他化学反应）机理研究与分析为基础，以先进光学诊断方法及其他测量技术为手段，以标准实验燃烧反应器（如快速压缩膨胀机等）为工具，通过系统的研究来实现优化燃烧效率，降低燃烧排放的最终目的。主要研究方向包括：
1.流场燃烧建模理论分析，主要包括计算流体力学有限元分析在喷雾、热物理和燃烧反应中的应用、层流反应建模、发动机机随机反应器建模机理研究，以及柴油催化重整建模分析和机理研究；
2.高速多维激光燃烧诊断技术的应用，包括激光吸收光谱诊断技术、高光谱断层诊断技术、二维激光诱导荧光技术、多重散射诊断技术、电脑断层化学荧光诊断技术在燃烧温度场、中间产物浓度分布场、火焰结构测量、喷雾诊断技术中的应用、以及利用光纤束实现光学诊断技术在实际燃烧器中的应用；
3. 燃烧与能源转化实验设备的设计，搭建及分析，如轨迹可控式的快速压缩膨胀机设计和对冲式柴油重整反应器的设计搭建，对内燃机等化学反应设备反应产物进行化学组分质谱分析，新型能源转化机构和方式的开发等；
4.优化算法和统计算法的应用，包括对模拟退火算法、蒙特卡罗算法、以及马尔科夫链算法等在诊断和燃烧分析上应用的研究探索，其中包括对新式断层诊断重建技术的探索和应用，对复杂物理化学现象的模拟和分析，以及对反应器设计和运行的优化等

任职课程：

工程学导论，本科PRP，本科毕业设计

上海市科委 新型高光学深度介质激光诊断重构方法的基础研究，负责人
上海市质量监督局 新能源与智能网联汽车高质量标准体系和发展路径研究， 负责人
国家自然科学基金面上项目 高速细微喷雾碰壁后油膜流动与破碎的动态机理研究， 第二完成人

64. S Yang, Q Zhai, X Li, D Hung, M Xu*, "Flash boiling fuel initial disturbance in a transparent step-hole nozzle and its effect on external flows", Fuel 274 117768 (2020) [IF=4.908]
63. X Li, S Yang, S Qiu, T Li, M Xu*, "Investigation on flash boiling spray fluctuations in the near-field and far-field under gasoline direct injection related conditions", Applied Thermal Engineering 179, 115665 (2020) [IF=4.026]
62. C Ye, Z Sun, M Cui, X Li, D Hung, M Xu*, "Ultra-lean Limit Extension for Gasoline Direct Injection Engine Application via Flash Boiling Atomization", Accepted, Proceedings of the Combustion Institute (2020) [IF=5.627]
61. Z Sun, M Cui, C, Ye, S Yang, X Li, D Hung, M Xu*, "Split Injection Flash Boiling Spray for high efficiency and low emissions in a GDI Engine under Lean Combustion Condition", Accepted, Proceedings of the Combustion Institute (2020) [IF=5.627]
60. M Nour, Z Sun, M Cui, X Li*, D Hung, M Xu, "Effect of flash boiling injection on combustion and PN emissions of DISI optical engine fueled with butanol isomers/TPRF blends", Selected oral presentation for 38th International Combustion Symposium (2020)
59. D Han, Y Fan, Z Sun, M Nour, X Li*, "Combustion and Emissions of Isomeric Butanol/Gasoline Surrogates Blends on an Optical GDI Engine", Fuel, 272, 117690 (2020) [IF=4.908]
58. X Li*, S Yang, X Di, S Wang, "Numerical Reconstruction of Turbid Slab Optical Properties using Global Optimization Algorithms", Lasers in Medical Science, https://doi.org/10.1007/s10103-020-03001-6 (2020) [IF=2.076]
57. P Yin, S Yang, X Li, M Xu*, "Numerical Simulation of In-nozzle Flow Characteristics under Flash Boiling Conditions", International Journal of Multiphase Flow 127, 103275 (2020) [IF=2.829]
56. Q Gu, M Xu*, C Ye; D Hung, X Li, "Investigation of the Impacts of Spark Plug Orientation on Combustion Stability under Lean SI Operation", WCX SAE World Congress, 2020-01-1121(2020)
55. B Yao, H Xu, S Wang, Z Yuan, X Li*, S Jin, "Effect of Spray Characteristics on the Combustion Process in an Optical Engine", WCX SAE World Congress, 2020-01-0288(2020)
54. Y Fan, T Wu, X Li, M Xu*, D Hung, "Influence of Port Water Injection on the Combustion Characteristics and Exhaust Emissions in a Spark-Ignition Direct-Injection Engine", WCX SAE World Congress, 2020-01-0294(2020)
53. P Yin, X Li, D Hung, Y Fan, M Xu*, "Numerical Investigation of the Effects of Port Water Injection Timing on Performance and Emissions in a Gasoline Direct Injection Engine", WCX SAE World Congress, 2020-01-0287(2020)
52. S Yang, Z Ma, X Li*, D Hung, M Xu, “A Review on the Experimental Non-intrusive Investigation of Fuel Injector Phase Changing Flow", Fuel, 259, 116188 (2020) [IF=4.908]
51. X Li, S Yang, T Li, D Hung, M Xu*, “Investigations on Near-field Atomization of Flash Boiling Sprays for Gasoline Direct Injection Related Applications”, Fuel, 257, 116080(2019)[ IF=4.908]
50. S Yang, X Li, D Hung, M Arai, M Xu*, “In-nozzle Flash Boiling Flow of Multi-component Fuel and its Effect on Near-nozzle Spray”, Fuel, 252, 55-67(2019)[ IF=4.908]
49. Q Xu, H Pan, Y Gao, X Li*, M Xu, “Investigation of Two-hole Flash-boiling Plume-to-plume Interaction and Its Impact on Spray Collapse”, International Journal of Heat and Mass Transfer, 138, 608-619(2019)[ IF=3.891]
48. H Pan, D Xiao, D Hung, M Xu, X Li*, “Experimental Investigations of Wall Jet Droplet Impact on Spray Impingement Fuel Film Formation”, Fuel, 241, 33-41(2019)[IF=4.908]
47. Z Sun, Z Ma, X Li, M Xu, “Study of Flash Boiling Spray Combustion in a Spark Ignition Direct Injection Optical Engine Using Digital Image Processing Diagnostics”, WCX SAE World Congress, 2019-01-0252(2019)
46. S Yang, X Li, DLS Hung, M Xu, “Effect of Injection Pressure on Nozzle Internal Flow and Jet Breakup under Sub-Cooled and Flash Boiling Test Conditions”, WCX SAE World Congress, 2019-01-0286(2019)
45. D Xiao, X Li, DLS Hung, M Xu, “Characteristics of Impinging Spray and Corresponding Fuel Film under Different Injection and Ambient Pressure”, WCX SAE World Congress, 2019-01-0277(2019)
44. S Yang, Z Ma, S Wu, X Li*, M Xu, “Dynamic Characteristics of In-nozzle Flash Boiling Bubbles and Corresponding Temporal Responses of External Spray”, Experiments in Fluids(2019)[ IF=2.195]
43. Y Gao, S Wu, X Dong, X Li, M Xu*, “Evaporation and Atomization Characteristics of Dual-fuel System under Fash Boiling Conditions”, Applied Thermal Engineering, 161, 114161(2019)[ IF=3.771]
42. F Zhao, M Liu, P Ge, DLS Hung*, X Li, M Xu, X Yang, C Idicheria, “Multi-plane Time-resolved Particle Image Velocimetry (PIV) Flow Field Measurements In an Optical Spark-Ignition Direct-Injection (SIDI) Engine for Large-Eddy Simulation (LES) Model Validations”, Oil & Gas Science and Technology–Revue d’IFP Energies Nouvelles, 74, 52(2019)[ IF=1.184]
41. X Li, T Li, M Xu*, “Effect of Ambient Temperature on Flash-boiling Spray Characteristics for a Multi-hole Gasoline Injector”, Experiments in Fluids(2019)[IF=2.195]
40. X Li, D Xiao, SE Parrish, RO Grover, D L.S Hung, M Xu*, “Dynamics of Spray Impingement Wall Film under Cold Start Conditions”, International Journal of Engine Research(2019)[IF=2.775]
39. D Xiao, I Yukihiko, X Li, D Hung, K Nishida, M Xu*, “Film Breakup of Tilted Impinging Spray under Various Pressure Conditions”, International Journal of Engine Research(2019)[IF=2.775]
38. J Cao, Z Ma, X Li, M Xu*, “Three Dimensional Proper Qrthogonal Decomposition Analysis of Engine In-cylinder Velocity Fields”, Measurement Science and Technology(2019) [IF=1.585]
37. X Dong, J Yang, DLS Hung, X Li, M Xu*, “Effects of Flash Boiling Injection on In-cylinder Spray, Mixing and Combustion of a Spark-ignition Direct-injection Engine”, Proceedings of the Combustion Institute, 37 (4), 4921-4928(2019)[IF=5.336]
36. T Li, X Dong, DLS Hung, X Li, M Xu*, “Analysis of Evaporation Characteristics and Heat Transfer for Flash-boiling Sprays”, International Journal of Heat and Mass Transfer, 127, 244-254(2018)[IF=3.891]
35. S Yang, X Li, DLS Hung, M Xu*, “Characteristics and Correlation of Nozzle Internal Flow and Jet Breakup under Flash Boiling Conditions”, International Journal of Heat and Mass Transfer, 127, 959-969(2018)[IF=3.891]
34. S Yang, D Xiao, X Li, Z Ma*, “Markov Chain Investigation of Discretization Schemes and Computational Cost Reduction in Modeling Photon Multiple Scattering”, Applied Sciences, 8 (11), 2288(2018)[IF=2.217]
33. WF Northrop*, D Zarling, X Li, “Considerations in Using Photometer Instruments for Measuring Total Particulate Matter Mass Concentration in Diesel Engine Exhaust”, Journal of Engineering for Gas Turbines and Power, 140 (11), 112802(2018)[IF=1.653]
32. X Li, H Pan, X Dong, D Hung, M Xu*, “Spray Impingement Wall Film Breakup by Wave Entrainment”, Proceedings of the Combustion Institute(2018)[IF=5.336]
31. J Hwang, X Li, W Northrop, “Exploration of Dual Fuel Diesel Engine Operation with On-Board Fuel Reforming”, SAE Technical Paper(2017)
30. S Kane, X Li, B Wolk, I Ekoto, WF Northrop, “Investigation of Species from Negative Valve Overlap Reforming Using a Stochastic Reactor Model”, SAE Technical Paper(2017)
29. A Ehn, J Zhu, X Li, J Kiefer*, “Advanced Laser-based Techniques for Gas-phase Diagnostics in Combustion and Aerospace Engineering”, Applied spectroscopy, 71 (3), 341-366(2017)[IF=1.642]
28. Y Lin, WF Northrop, X Li*, “Markov Chain Solution of Photon Multiple Scattering through Turbid Slabs”, Optics express, 24 (23), 26942-26947(2016)[IF=3.356]
27. X Li*, WF Northrop, “A Markov Chain-based Quantitative Study of Angular Distribution of Photons Through Turbid Slabs Via Isotropic Light Scattering”, Computer Physics Communications, 201, 77-84(2016)[IF=3.748]
26. L Ma, X Li, MW Kang, WG Lamont, K Venkatesan, S Wehe, “3D Flame Measurements at 5 kHz on a Jet Fueled Aviation Combustor”, ASME Turbo Expo 2015: Turbine Technical Conference and Exposition(2015)
25. X Li, L Ma*, “Capabilities And Limitations of 3D Flame Measurements Based on Computed Tomography of Chemiluminescence”, Combustion and Flame, 162 (3), 642-651(2015)[IF=4.494]
24. MW Kang, X Li, L Ma*, “Three-dimensional Flame Measurements Using Fiber-based Endoscopes”, Proceedings of the Combustion Institute, 35 (3), 3821-3828(2015)[IF=5.336]
23. MW Kang, X Li, L Ma*, “Investigation of Fiber-based Endoscopes for Quantitative 3D Flow and Flame Imaging”, CLEO: Science and Innovations, SF2I. 1(2014)
22. F He, X Li, L Ma*, “Combined Experimental and Numerical Study of Thermal Management of Battery Module Consisting of Multiple Li-ion Cells”, International Journal of Heat and Mass Transfer, 72, 622-629(2014)[IF=3.891]
21. AJ Wickersham, X Li, L Ma*, “Comparison of Fourier, Principal Component and Wavelet Analyses for High Speed Flame Measurements”, Computer Physics Communications, 185 (4), 1237-1245(2014)[IF=3.748]
20. X Li, L Ma*, “Volumetric Imaging of Turbulent Reactive Flows at kHz Based on Computed Tomography”, Optics express, 22 (4), 4768-4778(2014)[ IF=3.356]
19. X Li, L Ma*, “Three-dimensional Measurements of Turbulent Jet Flames at kHz Rate Based on Tomographic Chemiluminescence”, 52nd Aerospace Sciences Meeting, 0735(2014)
18. F He, X Li, L Ma*, “Thermal Management of Battery Module Consisting of Multiple Li-Ion Cells for Hybrid Power Systems”, 52nd Aerospace Sciences Meeting, 0532(2014)
17. W Cai, X Li, Y Cao, J Wang, L Ma *, “Practical Aspects of Three-dimensional Flame Imaging Using Tomographic Chemiluminescence”, 52nd Aerospace Sciences Meeting, 0394(2014)
16. MW Kang, X Li, L Ma*, “Calibration of Fiber Bundles for Flow and Combustion Measurements”, 52nd Aerospace Sciences Meeting, 0397(2014)
15. AJ Wickersham, X Li, L Ma*, “Advanced Methods for Extracting Flow and Combustion Physics from High Speed Laser Diagnostics”, 52nd Aerospace Sciences Meeting, 1353 (2014)
14. W Cai, X Li, L Ma*, “Practical Aspects of Implementing Three-dimensional Tomography Inversion for Volumetric Flame Imaging”, Applied optics, 52 (33), 8106-8116(2013)[ IF=1.791]
13. X Li, F He, L Ma*, “Thermal Management of Cylindrical Batteries Investigated Using Wind Tunnel Testing and Computational Fluid Dynamics Simulation”, Journal of Power Sources, 238, 395-402(2013)[IF=6.945]
12. W Cai, X Li, F Li, L Ma*, “Numerical and Experimental Validation of a Three-dimensional Combustion Diagnostic Based on Tomographic Chemiluminescence”, Optics express, 21 (6), 7050-7064(2013)[IF=3.356]
11. L Ma*, X Li, ST Sanders, AW Caswell, S Roy, DH Plemmons, JR Gord, “50-kHz-rate 2D imaging of Temperature and H2O Concentration at the Exhaust Plane of a J85 Engine Using Hyperspectral Tomography”, Optics Express 21 (1), 1152-1162(2013)[ IF=3.356]
10. W Cai, X Li, A Wickersham, L Ma*, “Three-dimensional Combustion Diagnostics Based on Computed Tomography of Chemiluminescence”, 51st AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition(2013)
9. X Li, L Ma*, “Effects of Line-narrowing of Amplified Spontaneous Emission Analyzed by a Monte Carlo Model”, Journal of Quantitative Spectroscopy and Radiative Transfer,114, 157-166(2013)[IF=2.288]
8. X Li, Y Zhao, L Ma*, “Method to Correct the Distortion Caused by Amplified Stimulated Emission as Motivated by LIF-based Flow Diagnostics”, Applied optics 51 (12), 2107-2117 (2012)[IF=1.791]
7. Y Zhao, X Li, L Ma*, “Multidimensional Monte Carlo Model for Two-photon Laser-Induced Fluorescence and Amplified Spontaneous Emission”, Computer Physics Communications, 183, 1588- 1595(2012)[IF=3.748]
6. L Ma*, X Li, S Roy, AW Caswell, JR Gord, DH Plemmons, X An, “Demonstration of High Speed Imaging in Practical Propulsion Systems Using Hyperspectral Tomography”, Laser Applications to Chemical, Security and Environmental Analysis, LM1B. 5 (2012) [IF=0.407]
5. X Li, L Ma*, “Scaling Law for Photon Transmission through Optically Turbid Slabs Based on Random Walk Theory”, Applied Sciences, 2 (1), 160-165 (2012)[IF=2.217]
4. X Sun, X Li, L Ma*, “A Closed-form Method for Calculating the Angular Distribution of Multiply Scattered Photons through Isotropic Turbid Slabs”, Optics Express, 19 (24), 23932-23937 (2011) [IF=3.356]
3. X Li, L Ma*, “Minimizing Binary Functions with Simulated Annealing Algorithm with Applications to Binary Tomography”, Computer Physics Communications, 183, 1588- 1595 (2012) [IF=3.748]
2. X An*, T Kraetschmer, K Takami, ST Sanders, L Ma, W Cai, X Li, S Roy, JR Gord, “Validation of Temperature Imaging by H2O Absorption Spectroscopy Using Hyperspectral Tomography in Controlled Experiments”, Applied Optics, 50 (4), A29-A37 (2011) [IF=1.791]
1. MA Lin*, X Li, W Cai, S Roy, JR Gord, ST Sanders, “Selection of Multiple Optimal Absorption Transitions for Nonuniform Temperature Sensing”, Applied spectroscopy, 64 (11), 1274-1282 (2010) [IF=1.729]

上海市浦江人才计划A类