任东生

浏览:2010  发布人:管理员  发布日期2019-12-28

任东生

2010.09~2014.07:清华大学汽车工程系(学士)
2014.09~2020.01:清华大学车辆与运载学院(博士)
2020.01~至今:清华大学核研院,博士后
 
荣誉
清华大学本科生特等奖学金,2013
清华大学博士新生奖学金,2014
清华大学国家奖学金,2018
清华大学“水木学者”博士后,2020
清华大学优秀博士毕业、优秀博士毕业论文,2020
 
负责项目:
1.非均一物理场作用下的大尺寸锂离子电池性能衰退机制与建模研究,国家自然科学基金青年项目,52007099,2021年1月-2023年12月
2.锂离子动力电池非均一析锂机制与多尺度仿真建模研究,中国博士后科学基金面上资助项目,2020M680550,2020年9月-2022年12月
3.热失控仿真模型及高能量密度大模组热失控解决方案验证,与天津市捷威动力工业有限公司合作项目
4.锂离子动力电池热失控动力学模型开发,与宁德时代新能源科技股份有限公司合作项目
 
论文发表:
1.   D. Ren, X. Feng, L. Liu, et al. Investigating the relationship between internal short circuit and thermal runaway of lithium-ion batteries under thermal abuse condition. Energy Storage Materials, 2021, 34: 563-573. (ESI highly cited paper).
2.   D. Ren, X. Liu, X. Feng, et al. Model-based thermal runaway prediction of lithium-ion batteries from kinetics analysis of cell components. Applied Energy, 2018, 228: 633–644. (ESI highly cited paper).
3.   D. Ren, H. Hsu, R. Li, et al. A comparative investigation of aging effects on thermal runaway behavior of lithium-ion batteries. eTransportation, 2019, 2: 100034. (Rank 3rd in the Most Cited Articles – among 118 articles).
4.   Song Y=, X. Liu=, D. Ren=, et al. Simultaneously blocking chemical crosstalk and internal short circuit via gel-stretching derived nano-porous non-shrinkage separator for safe lithium-ion batteries. Advanced Materials, 2021, 2106335.
5.   Chen J=, D. Ren=, H. Hsu, et al. Investigating the thermal runaway features of lithium-ion batteries using a thermal resistance network model. Applied Energy, 2021, 295:117038.
6.   D. Ren=, L. Xie=, L. Wang, X. He. A practical approach to predict volume deformation of lithium-ion batteries from crystal structure changes of electrode materials. International Journal of Energy Research, 2021,45(5): 7732-7740.
7.   J. Zhu=, I. Mathews=, D. Ren=, et al. End-of-life or second-life options for retired electric vehicle batteries. Cell Reports Physical Science, 2021, 2(8):100537.
8.   Y. Sun=, D. Ren=, G. Liu, et al. Correlation between thermal stabilities of nickel‐rich cathode materials and battery thermal runaway. International Journal of Energy Research, 2021.
9.   X. Xie=, D. Ren=, L. Wang, et al. Investigation on thermal runaway of li-ion cells based on LiNi1/3Mn1/3Co1/3O2. Journal of Electrochemical Energy Conversion and Storage, 2021, 18 (3): 031001.
10. D. Ren, L. Lu, P. Shen, et al. Battery remaining discharge energy estimation based on prediction of future operating conditions. Journal of Energy Storage, 2019, 25: 100836.
11. D. Ren, X. Feng, L. Lu, et al. Overcharge behaviors and failure mechanism of lithium-ion batteries under different test conditions. Applied Energy, 2019, 250: 323-332.
12. D. Ren, K. Smith, D. Guo, et al. Investigation of lithium plating-stripping process in Li-ion batteries at low temperature using an electrochemical model. Journal of The Electrochemical Society, 2018, 165(10): A2167–A2178.
13. D. Ren, X. Feng, L. Lu, et al. An electrochemical-thermal coupled overcharge-to-thermal-runaway model for lithium ion battery. Journal of Power Sources, 2017, 364: 328–340.
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