1979.9－1983.6 哈尔滨工业大学动力工程系，获工学学士学位

1986.9－1987.8 哈尔滨工业大学动力工程系，硕士研究生

1988.12－1993.3 莫斯科动力学院动力机械制造系，获博士(Ph.D)学位

1983.7－1986.8 航天工业部第一研究院，技术员

1993.4－1995.3 清华大学热能工程系，博士后

1995.4－至今 清华大学航天航空学院，副研究员、教授

Fuels & Energy Science Journal编委

Journal of Applied Chemistry编委

电力与能源进展(Advances in Energy and Power Engineering) 编委

• 火焰动力学与燃烧稳定性

• 燃烧反应动力学分析与机理简化

• 微推进与微动力系统

• 微尺度燃烧与催化燃烧

• 推进系统中燃烧过程的数值模拟

• 清洁燃烧理论与技术

主要从事燃料着火与稳定机制、燃烧源纳米级碳粒生成动力学过程、污染物的生成特性与控制技术、优化燃烧技术、催化燃烧和微尺度燃烧等领域的研究。近年来主持(完成)了包括国家重大专项、973、863和国家自然科学基金在内的多项国家级科研项目。

发表学术论文100多篇，代表性论文有：

1. B. J. Zhong, D. Zheng, Chemical Kinetic Mechanism of a Three-Component Fuel Composed of Iso-octane/n-Heptane/Ethanol, Combustion Science and Technology, 2013, 185: 627-644.

2. B. J. Zhong, J. Xi, Numerical Simulation of PAHs Formation and Effect of Operating Conditions in DI-Diesel Engines Based on a Comprehensive Chemical Mechanism, Advances in Mechanical Engineering Volume 2013, Article ID 567159, 19 pages.

3. T. Yao, B. J. Zhong, Small-Scale Chemical Kinetic Mechanism Models for Pyrolysis of n-Decane, Acta Phys. -Chim. Sin. 2013, 29 (7), 1385- 1395.

4. D. Zheng, Y. P. Zhang, B. J. Zhong, Chemical Kinetic Model for Polycyclic Aromatic Hydrocarbon Formation during Gasoline Surrogate Fuel Combustion, Acta Phys. -Chim. Sin. 2013, 29 (6), 1154- 1160.

5. B. J. Zhong, P. F. Xiong, F. Yang, Y. W. Yu, Thermal and Chemical Effects of Hydrogen in Catalytic Ignition of n-Butane/Air Mixture, Acta Phys. -Chim. Sin. 2013, 29 (5), 897- 902.

6. T. Yao, B. J. Zhong, Chemical Kinetic Model for Auto-Ignition and Combustion of n-Decane, Acta Phys. -Chim. Sin. 2013, 29 (2), 237- 244.

7. B. J. Zhong, F. Yang, Characteristics of hydrogen-assisted catalytic ignition of n-butane/air mixtures, International Journal of Hydrogen Energy, 2012, 37: 8716-8723.

8. B. J. Zhong, F. Yang, Q. T. Yang, Catalytic Combustion of n-C4H10 and DME in Swiss-Roll Combustor with Porous Ceramics, Combustion Science and Technology, 2012, 184(5): 573-584.

9. B. J. Zhong, S. Dang, Y. N. Song, J. S. Gong, 3-D simulation of soot formation in a direct-injection diesel engine based on a comprehensive chemical mechanism and method of moments, Combustion Theory and Modelling, 2012, 16(1): 143–171.

10. D. Zheng, B. J. Zhong, Chemical Kinetic Model for Ignition of Three-Component Fuel Comprising iso-Octane/n-Heptane/Ethanol, Acta Phys. -Chim. Sin., 2012, 28 (9): 2029- 2036.

11. F. Wen, B. J. Zhong, Skeletal Mechanism Generation Based on Eigenvalue Analysis Method, Acta Phys. -Chim. Sin., 2012, 28 (6): 1306- 1312.

12. P. F. Xiong, B. J. Zhong, F. Yang, Heterogeneous Mechanism of C1- C4 on a Platinum Catalyst, Acta Phys. -Chim. Sin. 2011, 27 (9): 2200- 2208.

13. B. J. Zhong, S. Dang, J, Xi, Three-Dimensional Flamelet Simulation of Polycyclic Aromatic Hydrocarbons Formation in DI-Diesel Engines, International Journal of Chemical Reactor Engineering, 2011, Volume 9, Article A18.

14. B. J. Zhong, J. H. Wang, Experimental Study on Premixed CH4/Air Mixture Combustion in Micro Swiss-Roll Combustors, Combustion and Flame, 2010, 157: 2222-2229.

15. B. J. Zhong, Q. T. Yang, F. Yang, Hydrogen-assisted catalytic ignition characteristics of different fuels, Combustion and Flame, 2010, 157: 2005-2007.

16. Y. N. Song, B. J. Zhong, Modeling of Soot and Polycyclic Aromatic Hydrocarbons in Diesel Difussion Combustion, Chemical Engineering and Technology, 2008, 31(10): 1-7.

17. B. J. Zhong, J. Jiao, Numerical Analysis of Combustion Characteristics and Extinction Limits of Premixed Methane/Air Mixtures in Microtubes, Chemical Engineering and Technology, 2008, 31(9): 1342-1349.

18. J. W. Li, B. J. Zhong, Experimental Investigation on Heat Loss and Combustion in Methane/Oxygen Micro-Tube Combustor, Applied Thermal Engineering, 2008, 27(7): 707-716.

19. B. J. Zhong, H. Tang, Catalytic NO reduction at high temperature by the deashed chars with catalysts, Combustion and Flame, 2007, 149(1-2): 234-243.

20. J. Xi, B. J. Zhong, Reduced Kinetic Mechanism of n-Heptane Oxidation in Modeling Polycyclic Aromatic Hydrocarbon Formation in Diesel Combustion, Chemical Engineering & Technology, 2006, 29 (12): 1461-1468.

21. J. Xi, B. J. Zhong, Soot in diesel combustion systems, Chemical Engineering & Technology, 2006, 29 (6): 665-673.

22. B. J. Zhong，H. S. Zhang, W. B. Fu，Catalytic Effect of KOH on the reaction of NO with Char, Combustion and Flame, 2003, 132(3), pp.364-373.

23. B. J. Zhong, H. S. Zhang，Reduction of NO by Low-Volatile Coal Chars with or without Catalyst Addition, Combust. Sci. Techn., 2003, 175(12): 2181-2199.

24. J. Y. Xie, B. J. Zhong, W. B. Fu, Y. Shi，Measurement of equivalent diffusivity during the calcinations of limestone. Combustion and Flame, 2002, 129(4), pp.351-355.

25. B. J. Zhong，W. W. Shi, W. B. Fu，Effects of fuel characteristics on the NO reduction during the reburning with coals. Fuel Processing Technology, 2002, 79(2), pp.93-106.

26. B. J. Zhong，W. W. Shi, W. B. Fu，Effect of Catalysts on the NO Reduction during the Reburning with Coal Chars as the Fuel. Combust. Sci. Techn., 2001, 164(1-6), pp.239-251.