丁雁*

发布时间:Mar 12, 2021点击量:

基本信息

丁雁,1992年,特任教授、博士生导师,湖北省青年科技人才晨光托举工程、“武汉英才”优秀青年人才和“地大百人计划”入选者。长期从事固体热解及阻燃、锂电池热失控及热安全管理、储能过程热安全等相关研究,主持国家自然科学基金项目、省部级基金项目、德国巴斯夫等校企合作研发项目、国家重点实验室课题等10余项。2014年本科毕业于华中科技大学,2019年获得美国马里兰大学博士学位,博士毕业后在美国著名化工企业从事研究工作两年,具有丰富的企业研发工作经历。以第一及通讯作者在Combustion and Flame, Proceedings of the Combustion Institute、Composites Part B: Engineering等火灾安全及传热传质领域国际著名期刊发表SCI论文15余篇,申请国家发明专利5项。

现任职务:安全工程系副主任

邮箱dingyan@cug.edu.cn


工作教育背景

2021.04-至今  中国地质大学(武汉),特任教授

2019.02-2021.02   美国埃万特公司,研发总部,研究员

2014.08-2019.01   美国马里兰大学帕克分校,机械半岛平台(中国),博士,导师:Prof. Stanislav Stoliarov  

2010.09-2014.06   华中科技大学,能源与动力半岛平台(中国),学士 ,导师:明廷臻教授

招生专业:

安全工程、消防工程、热能与动力工程、计算机等相关专业。有意向报考博士或者硕士的考生,请提供个人简历、英语四六级成绩单、本科成绩单至本人邮箱dingyan@cug.edu.cn

获奖及学术活动

2023 担任SCI期刊Energies客座编辑

2023 担任第八届全国青年燃烧学术会议分会场负责人之一

2023 担任第三届国际锂电池火灾安全会议分会场负责人之一

2022 担任SCI期刊Fire客座编辑

2017 荣获美国马里兰大学“优秀未来教师”称号

2017 荣获第12届国际火灾安全会议最佳论文

201荣获第27届国际阻燃研究进展会议最佳展板奖励

2011&2012&2013 连续荣获国家奖学金

代表性论文

1. Ding, Y., Chen, Z., Tang, C., Huang, W., Ren, X., Zhou, K.*, & Hu, H.*, Development of a pyrolysis reaction model for epoxy based flame retardant composites: Relationship between pyrolysis behavior and material composition. Chemical Engineering Journal, 495, 153628, 2024.

2. Ding, Y.*, Wang, X., Zuo, X., Dong, L.*, Fang, Q., Zhou, K., & Wang, Y., Characterization of pyrolysis behavior for rigid polyurethane foam wastes with different densities through TGA-FTIR-DSC-MCC and Hill Climbing Optimization methods. Journal of Analytical and Applied Pyrolysis, 177, 106326, 2024.

3. Ding Y., Leventon, I.T.*, Stoliarov, S. I., An analysis of the sensitivity of the rate of buoyancy-driven flame spread on a solid material to uncertainties in the pyrolysis and combustion properties. Is accurate prediction possible? Polymer Degradation and Stability, 214, 110405, 2023.

4. Ding, Y.*, McCoy, C. G., Stoliarov, S. I., & Hu, H.*, Prediction of mass loss and heat release rates measured in cone calorimeter experiments performed on glass fiber reinforced nylon 66 blended with red phosphorus. International Journal of Thermal Sciences, 190, 108320, 2023.

5. Li, C., Ding, Y.*, Zhou, Z., Jin, Y., Ren, X., Cao, C., & Hu, H., Parameter optimization and sensitivity analysis of a Lithium-ion battery thermal management system integrated with composite phase change material. Applied Thermal Engineering, 228, 120530, 2023.

6. Ding, Y., Stoliarov, S. I.*, & Kraemer, R. H., Pyrolysis model development for a polymeric material containing multiple flame retardants: Relationship between heat release rate and material composition, Combustion and Flame, 202, 43-57, 2019.

7. Ding, Y., Kwon, K., Stoliarov, S. I.*, & Kraemer, R. H., Development of a semi-global reaction mechanism for thermal decomposition of a polymer containing reactive flame retardant, Proceedings of the Combustion Institute, 37(3), 4247-4255, 2019.  

8. Ding, Y., Swann, J. D., Sun, Q., Stoliarov, S. I.*, & Kraemer, R. H., Development of a pyrolysis model for glass fiber reinforced polyamide 66 blended with red phosphorus: Relationship between flammability behavior and material composition, Composites Part B: Engineering, 176, 107263, 2019.

9. Ding, Y., McKinnon, M. B., Stoliarov, S. I.*, Fontaine, G., & Bourbigot, S., Determination of kinetics and thermodynamics of thermal decomposition of polymers containing reactive flame retardants: application to poly(lactic acid) blended with melamine and ammonium polyphosphate, Polymer Degradation and Stability, 129, 347-362, 2016.

10. Sun, Q., Ding, Y.*, Stoliarov, S. I., Sun, J., Fontaine, G., & Bourbigot, S., Development of a pyrolysis model for an intumescent flame retardant system: Poly(lactic acid) blended with melamine and ammonium polyphosphate, Composites Part B: Engineering, 194, 108055, 2020.

11. Swann, J. D.#, Ding, Y.#, McKinnon, M. B., & Stoliarov, S. I.*, Controlled atmosphere pyrolysis apparatus II (CAPA II): A new tool for analysis of pyrolysis of charring and intumescent polymers, Fire Safety Journal, 91, 130-139, 2017.

12. Ding, Y., Stoliarov, S. I.*, & Kraemer, R. H., Development of a semiglobal reaction mechanism for the thermal decomposition of a polymer containing reactive flame retardants: application to glass-fiber-reinforced polybutylene terephthalate blended with aluminum diethyl phosphinate and melamine polyphosphate, Polymers, 10(10), 1137, 2018.

13. Wang, X., Ding, Y.*, Chen, Z., Tang, C., Ren, X., Hu, H., & Fang, Q.*, Measurement of the Kinetics and Thermodynamics of the Thermal Degradation for a Flame Retardant Polyurethane-Based Aerogel. Energies, 15(19), 6982, 2022.

14. Li, B., Ding, Y.*, Jiao YY.*, et al., A Sustainable Strategy for Spent Cathode Carbon Blocks Hazardous Waste Recycling Using Binary Molten Salt Thermal Treatment. Journal of Thermal Science, 33(3), 1082-1093, 2024.

15. Stoliarov, S. I., & Ding, Y. (2023). Pyrolysis model parameterization and fire growth prediction: The state of the art. Fire Safety Journal, 140: 103905, 2023.

16. Wan, J., Su, Z., Ding, Y., Zeng, Q., Xie, P., & Zhao, H., Hydrogen-enriched flames in a novel miniature double-layer disc-combustor with annular step and Swiss-roll preheated channel. Combustion and Flame, 251, 112717, 2023.

17. Cai, S., Yang, W., Ding, Y., Zeng, Q.*, & Wan, J.*, Hydrogen-air premixed combustion in a novel micro disc-burner with an annular step, Fuel, 313: 123015, 2022.

18. Swann, J. D., Ding, Y., & Stoliarov, S. I.*, Comparative analysis of pyrolysis and combustion of bisphenol A polycarbonate and poly (ether ether ketone) using two-dimensional modeling: A relation between thermal transport and the physical structure of the intumescent char. Combustion and Flame, 212, 469-485, 2020.

19. Swann, J. D., Ding, Y., & Stoliarov, S. I.*, Characterization of pyrolysis and combustion of rigid poly(vinyl chloride) using two-dimensional modeling, International Journal of Heat and Mass Transfer, 132, 347-361, 2019.

20. Yi, L., Feng, S., Wang, Z.*, Ding, Y., Chu, T., & Zhuang, Y., A comprehensive model to predict the fire performance of intumescent fire-retardant coating on steel substrate. Journal of Building Engineering, 95, 110127, 2024.

21. Gao, Q., Hu, H.*, Zou, C., Ding, Y., He, C., Li, X., & Yao, H., In situ desulfurization mechanism of molten salt thermal treatment for waste tires. Fuel, 372, 132253, 2024.

22. Yi, L., Zhuang, Y., Ding, Y., Gong, J., Chu, T., & Wang, Z.*, Influence of component fractions and structure characteristic on the combustion behavior of densified wood. Fire Safety Journal, 144, 104086, 2024.

23. Swann, J. D.*, Ding, Y., & Stoliarov, S. I.*, A quantitative comparison of the pyrolysis and combustion behavior of plasticized and rigid poly (vinyl chloride) using two-dimensional modeling. Fire Safety Journal, 111, 102910, 2020.

24. McKinnon, M.B., Ding, Y., & Stoliarov, S. I.*, A pyrolysis model for a carbon fiber/epoxy structural aerospace composite, Journal of Fire Sciences, 35, 36-61, 2017.

25. Shen, W., Ming, T.*, Ding, Y. and Wu, Y., de Richter*, Numerical analysis on an industrial-scaled solar updraft power plant system with ambient crosswind, Renewable Energy, 68(68): 662-676, 2014

26. Ming, T.Z., Ding, Y., Gui, J.L. and Tao, Y.X., Transient thermal behavior of a microchannel heat sink with multiple impinging jets, Journal of Zhejiang University-Science A, 11(16): 894-909, 2015.

27. 陈湛文, 丁雁*, 王鑫杨, 龚俊辉, 胡红云, 方庆艳*. 基于ThermaKin模型的环氧树脂热解反应动力学与热力学研究[J].安全与环境工程, 31(01) 2024: 34-43.

28. 李晓晴, 丁雁, 孙金华, 王禹*, 火灾下明框浮法玻璃热破裂的数值模拟研究, 燃烧科学与技术, 29(1), 59-66, 2023.


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