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李庆

个人简介
姓名:李庆

系所:新能源科学与工程系;热工设备全息仿真与可视化研究所

职称:副教授

邮箱:qingli@csu.edu.cn

湖南衡阳人,博士,副教授。全国百篇优秀博士学位论文获得者,入选中南大学“升华猎英”人才计划,主持国家自然科学基金等4项科研项目。

2002-2006年就读于西安交通大学,获工学学士学位,

2006-2011年就读于西安交通大学,获工学博士学位,师从中国科学院院士何雅玲教授,

2011-2014年于英国南安普顿大学从事博士后研究,

2014年6月加入中南大学,任职副教授,

2014年8月至2015年6月于美国洛斯阿拉莫斯国家实验室访学,由Los Alamos国家实验室Director’s Fellowship资助。

近年来出版学术著作1部,获教育部自然科学一等奖1项,在国际著名学术刊物上发表SCI期刊论文30余篇,受邀作为第一作者为能源类顶级期刊Progress in Energy and Combustion Science(影响因子:19.22)撰写关于多相流与相变传热的介观方法综述。所提出的方法已被美国、英国、德国、加拿大、瑞士、意大利、希腊、伊朗等国外学者以及我国大陆和台湾地区的同行在相关研究工作中直接采用。


讲授课程
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本科生课程,工程热力学,56学时,专业基础课,必修


科研方向
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介观数值模拟方法的理论与应用研究;

多相流与相变传热,相变储能;

喷雾冷却;


学术成果
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1. 科研项目

中南大学“创新驱动”计划项目,新型复合表面强化相变传热的实验和数值研究,65万,项目负责人,2016-2017;

基于格子Boltzmann方法的喷雾冷却过程液滴冲击与相变传热机理研究,国家自然科学青年基金项目,21万,项目负责人,2016-2018;

教育部全国优秀博士论文作者专项资助项目,66万 (教育部负责50%),项目负责人,2014-2018;

中南大学“升华猎英”人才计划,50万,项目负责人,2014-2018;

2. 科研论文

代表论文:

1. Q. Li, K. H. Luo, Q. J. Kang, Y. L. He, Q. Chen, and Q. Liu, Lattice Boltzmann methods for multiphase flow and phase-change heat transfer. Progress in Energy and Combustion Science 52, 62-105 (2016).

2. Q. Li, Q. J. Kang, M. M. Francois, and A. J. Hu, Lattice Boltzmann modeling of self-propelled Leidenfrost droplets. Soft Matter 12, 302 (2016).

3. Q. Li, Q. J. Kang, M. M. Francois, Y. L. He, and K. H. Luo, Lattice Boltzmann modeling of boiling heat transfer: The boiling curve and the effects of wettability, International Journal of Heat and Mass Transfer 85, 787 (2015).

4. Q. Li, K. H. Luo, Q. J. Kang, and Q. Chen, Contact angles in the pseudopotential lattice Boltzmann modeling of wetting, Physical Review E 90, 053301 (2014).

5. Q. Li and K. H. Luo, Effect of the forcing term in the pseudopotential lattice Boltzmann modeling of thermal flows, Physical Review E 89, 053022 (2014).

6. Q. Liu, Y. L. He, Q. Li, and W. Q. Tao, A multiple-relaxation-time lattice Boltzmann model for convection heat transfer in porous media, International Journal of Heat and Mass Transfer 73, 761 (2014).

7. Q. Li and K. H. Luo, Thermodynamic consistency of the pseudopotential lattice Boltzmann model for simulating liquid-vapor flows, Applied Thermal Engineering 72, 56 (2014).

8. Q. Li and K. H. Luo, Achieving tunable surface tension in the pseudopotential lattice Boltzmann modeling of multiphase flows, Physical Review E 88, 053307 (2013).

9. Q. Li, K. H. Luo, and X. J. Li, Lattice Boltzmann modeling of multiphase flows at large density ratio with an improved pseudopotential model, Physical Review E 87, 053301 (2013).

10 . Q. Li, K. H. Luo, and X. J. Li, Lattice Boltzmann method for relativistic hydrodynamics: Issues on conservation law of particle number and discontinuities, Physical Review D 86, 085044 (2012).

11. Q. Li, K. H. Luo, and X. J. Li, Forcing scheme in pseudopotential lattice Boltzmann model for multiphase flows, Physical Review E 86, 016709 (2012).

12. Q. Li, K. H. Luo, Y. J. Gao, and Y. L. He, Additional interfacial force in lattice Boltzmann models for incompressible multiphase flows, Physical Review E 85, 026704 (2012).

13. Q. Li, K. H. Luo, Y. L. He, Y. J. Gao, and W. Q. Tao, Coupling lattice Boltzmann model for simulation of thermal flows on standard lattices, Physical Review E 85, 016710 (2012).

14. Q. Li, Y. L. He, G. H. Tang, and W. Q. Tao, Lattice Boltzmann modeling of microchannel flows in the transition flow regime, Microfluidics and Nanofluidics 10, 607 (2011).

15. Q. Li, Y. L. He, G. H. Tang, and W. Q. Tao, Improved axisymmetric lattice Boltzmann scheme, Physical Review E 81, 056705 (2010).

16. Q. Li, Y. L. He, G. H. Tang, and W. Q. Tao, Lattice Boltzmann model for axisymmetric thermal flows, Physical Review E 80, 037702 (2009).

17. Q. Li, Y. L. He, Y. Wang, and W. Q. Tao, Coupled double-distribution-function lattice Boltzmann method for the compressible Navier-Stokes equations, Physical Review E 76, 056705 (2007).


学术奖励
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2011年,教育部自然科学一等奖(第三完成人);

2013年,全国百篇优秀博士学位论文;

2014年,Director’s Fellowship,Los Alamos National Lab., USA