张健    副研究员

教育背景

北京航空航天大学，流体机械及工程专业，工学博士（2007）

北京航空航天大学，飞行器动力工程专业，工学学士（2001）

工作履历

2020.01-至今 清华大学 航空发动机研究院，副研究员

2019.09-2019.11 瑞典梅拉达伦大学，能源系，访问学者

2010.12-2020.01 中国科学院力学研究所，非线性力学国家重点实验室，副研究员

2011.01-2012.10 美国密歇根大学，工学院，博士后

2007.07-2010.12 中国科学院力学研究所，非线性力学国家重点实验室，助理研究员

研究领域

湍流燃烧；湍流大涡模拟理论与模型；湍流混合

研究概况

    主要从事航空发动机内湍流燃烧过程研究。包括点/熄火的燃烧动力学过程、熄火稳定性等方面；完成了非预混燃烧、部分预混燃烧、MILD燃烧、射流火焰、钝体火焰、火焰的强制点火、火焰的自着火等复杂物理过程的高保真模拟。在Proceedings of the Combustion Institute，Journal of Computational Physics，Flow Turbulence and Combustion，Science China-Phys., Mech. & Astro等权威期刊上发表多篇论文；主持国家自然科学基金项目3项、中央军委装备预研基金项目1项、国家重点实验室专项经费研究项目，中国科学院-财政部修购专项等；以课题骨干身份参加国家重点基础研究发展计划（973计划）1项；入选国家留学基金委“国际清洁能源拔尖创新人才培养项目”。

奖励与荣誉

入选国家留学基金委员会“国际清洁能源拔尖创新人才培养项目”（2019）

Invited PC member for the 11th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements (2016)

国家留学基金委员会全额公派留学奖学金（2009）

中国科学院力学研究所优秀青年奖 (2009)

光华奖学金（2002）

Rolls-Royce 奖学金（2000）

Honeywell 奖学金（1999）

学术兼职

Member of American Physical Society;

Member of International Combustion Institute;

Member of American Institute of Aeronautics and Astronautics;

Member of American Society of Mechanical Engineering；

Member of the Technical Review Committee for the 10th Asia-Pacific Conference on Combustion;

Member of the Technical Review Committee for GPPS 2017 & 2019；

Member of the Technical Review Committee for ASME Power & Energy Conference 2019

学术成果

1. J. Wei, M. Yao, J. Zhang*, Z. Ren, Statistics and Dynamics of Instantaneous Leading Point in Non-premixed Bluff-body Flames. AIAA Journal，2022，60：3324-3336

2. J. An, F. Qin, J. Zhang, Z. Ren*, Explore artificial neural networks for solving complex hydrocarbon chemistry in turbulent reactive flows. Fundamental Research, 2022

3. J. Wei, Q. Xie, J. Zhang*, Z. Ren, Flow, mixing, and flame stabilization in bluff-body burner with decreased central jet velocity. Physics of Fluids, 2021, 33, 067122

4. Q. Lan, J. Zhang*, Y. Liu, Forced ignition of bluff-body flame in nitrogen diluting coflow. 25^th International Congress of Theoretical and Applied Mechanics (25^th ICTAM), Milano, Italy, 2021

5.  J. Zhang, L. Wang*，Y. Guo, Filtered turbulent flamelet model in large eddy simulation of the Sydney non-premixed bluff-body flame. Sci. Chi.-Phys., Mech. & Astro, 2020

6.  J. Ju, Z. Jin*, H. Zhang, Z. Yang, J. Zhang. The impact and freezing processes of a water droplet on different cold spherical surfaces. Experimental Thermal and Fluid Science, 2018, 96：430-440.

7.  T. Yang, J. Zhang*, Effects of the air-fuel velocity ratio for non-premixed bluff-body flames, Proceedings of the ASME 2017 Power and Energy Conference, Power Energy 2017, June 25-30, 2017, Charlotte, North Carolina, USA.

8.  张健*, 刘柽钰，杨涛，基于过程变量-火焰面模型的湍流燃烧大涡模拟， 中国科学: 物理学 力学 天文学， 2017，47：07007

9.  杨涛，张健*，吕金明，晋国栋，钝体射流火焰及其点火过程的大涡模拟，力学学报，2016， 48:1290-1300.

10.  J. Chen, G. Jin*, J. Zhang, Large eddy simulation of orientation and rotation of ellipsoidal particles in isotropic turbulent flow, Journal of Turbulence, 17:308-326, 2016

11.  J. Chen, G. Jin*, J. Zhang, Lagrangian statistics in isotropic turbulent flows with deterministic and stochastic forcing schemes, Acta Mechanica Sinica, 31: 25-31, 2015

12.  J. Zhang*, F. Gao, G. Jin and G. He, Conditionally statistical description of turbulent scalar mixing at subgrid-scale, Flow Turbulence and Combustion, 93: 125-140, 2014

13.  L. Wang*, N. Chakraborty, J. Zhang, Streamline segment analysis of turbulent premixed flames, Proceedings of the Combustion Institute, 34: 1401-1409, 2013

14.  G. Jin, Y. Wang, J. Zhang and G. He*, Turbulent clustering of point particles and finite-size particle in isotropic turbulent flows, Industrial & Engineering Chemistry Research, 52: 11294-11301, 2013

15.  M. Ihme*, J. Zhang, G. He and B. B. Dally, Large-eddy simulation of a jet-in-hot-coflow burner operating in the oxygen-diluted combustion regime, Flow Turbulence and Combustion, 89: 449-464, 2012

16.  M. Ihme*, L. Shunn, J. Zhang, Regularization of reaction progress variable for application to flamelet- based combustion models, Journal of Computational Physics, 231: 7715-7721, 2012

17.  张健*， 张星，姚华栋， 条件滤波大涡模拟方程封闭模型检验， 工程热物理学报，32: 357-359, 2011

18.  J. Zhang, G. He*, G. Jin, An implicit relation between temperature and reaction rate in the SLFM, Theoretical and Applied Mechanics Letters, 1: 012003, 2011

19.  J. Zhang, G. Jin, G. He*, Effects of the scalar dissipation rate on the steady laminar flamelet model, Physica Scripta, 142: 014048, 2010

20. G. Jin, J. Zhang, G. He* and L. Wang, Assessment of large-eddy simulation in capturing preferential concentration of heavy particles in isotropic turbulent flows, Physica Scripta, 142: 014061, 2010

21.  G. Jin, G. He*, L. Wang, and J. Zhang, Subgrid scale fluid velocity time scales seen by inertial particles in large-eddy simulation of particle-laden turbulence, International Journal of Multiphase Flow, 36: 432-437, 2010

22. J. Zhang, G. He, L. Lu, Subgrid-scale contributions to Lagrangian time correlations in isotropic turbulence, Acta Mechanica Sinica, 25: 45-49, 2009

23.  张健，何国威*，陆利蓬，王银春，大涡模拟中的条件滤波耗散和扩散的统计特性，力学学报， 38: 433-437, 2006

24.  张健*，陆利蓬，刘恩洲，SPH方法在溃坝流动模拟中的应用， 自然科学进展，16: 1326-1330, 2006