师资队伍

首页 · 师资队伍 · 教师主页

陈健    研究员


电话:010-62782748
地址:清华大学工物馆
邮件:cj-dce@tsinghua.edu.cn


● 教育与工作经历

1981-1985  清华大学化学工程系,学士

1985-1987  清华大学化学工程系,硕士

1987-1990  清华大学化学工程系,博士

1990-1994  清华大学化学工程系,讲师

1994-2001  清华大学化学工程系,副教授

2001- 至今  清华大学化学工程系,教授

2002           加拿大Schlumberger公司做访问学者

● 研究领域

化工热力学与分离工程

主要包括:1)流体物性和相平衡的分子热力学理论研究,涉及跨临界区、非对称、缔合体系以及含化学反应的相平衡体系等;2)基于分子结构和性质定量关系的分离剂分子设计;3)气体吸收和溶剂萃取等分离工程的热力学和工艺设计。

CO2捕集技术

目前主要从事温室气体CO2捕集与封存(CO2 Capture and Sequestration, CCS)中的吸收分离方面的研究工作,包括新型分离剂的分子设计、气液吸收体系的热力学和动力学、吸收过程的模拟优化、工艺设计和过程强化等。

● 代表性论文/专利/著作

  1. 陈健,罗伟亮,李晗. 有机胺吸收二氧化碳的热力学和动力学研究进展,化工学报,2014,65(1): 12-21。

  2. 李晗,陈健. 单乙醇胺吸收CO2的热力学模型和过程模拟。 化工学报,2014,65(1): 47-54。

  3. Han Li, Peter T Frailie, Gary T Rochelle, Jian Chen. Thermodynamic modeling of piperazine/2-aminomethylpropanol/CO2/water. Chemical Engineering Science, 117(2014): 331–341.

  4. Han Li, Yann Le Moullec, Jiahui Lu, Jian Chen, Jose Carlos Valle Marcos, Guofei Chen. Solubility and energy analysis for CO2absorption in piperazinederivatives and their mixtures. International Journal of Greenhouse Gas Control 31 (2014) 25–32.

  5. 郑奕成,郑碏,陈健. 醇胺混合溶剂吸收CO2的过程模拟. 化学工程,42(7): 17-21,2014

  6. Wei Yang, Xiaodan Yu, Jianguo Mi, Wanfu Wang, Jian Chen. Mass transfer performance of structured packings in a CO2 absorption tower. Chinese J. of Chem. Eng. 2015, 23(1): 42-49.

  7. Han LI, Yann LE MOULLEC, Jiahui LU, Jose Carlos VALLE MARCOS, Guofei CHEN, Jian CHEN. CO2 Solubility Experiments and Analysis in PZ Derivatives and Their Blends. 12th International Conference on Greenhouse Gas Control Technologies (GHGT12). October 5 - 9, 2014. Austin, TX, USA.

  8. Xiaoyan Liu, Yanmei YU, Jian CHEN. Study on energy integration of a CO2 capture process with a power generation process. 10th ECCRIA (European Conference on Coal Research and its Applications). 15th-17th September 2014. Hull, UK.

  9. Chuan Tong, Xiaodan Yu, Wei Yang, Jian Chen, Wanfu Wang. Mass Transfer Performance of Structured Packings in a CO2 Absorption Column. 4rd U.S.-China Symposium on CO2 Emission Control Science & Technology, Hanzhou, China, Sep 20-22, 2014.

  10. Yanxin Liu, Dongfang Guo, Jianguo Mi, Jian Chen. Effect of Sulfolane on Solubility of CO2 in Aqueous 2- Ethylaminoethanol Solutions. 2nd Post Combustion Capture Conference. Bergen, Norway. Sept. 2013.

  11. Chuan Tong, Carlos Cebamanos Perez, Jian Chen, Jiahui Lu, Jose-Carlos Valle Marcos, Thibaut Neveux, Yann Le Moullec. Measurement and Calculation for CO2 Solubility and Kinetic Rate in Aqueous Solutions of Two Tertiary Amines. 11th International Conference on Greenhouse Gas Control Technologies (GHGT11). 18 - 22 November 2012, Kyoto,  Japan

  12. Han Li, Le Li, Thu Nguyen, Gary T. Rochelle, Jian Chen. Characterization of Piperazine/2-Aminomethylpropanol for Carbon Dioxide Capture. 11th International Conference on Greenhouse Gas Control Technologies (GHGT11). 18-22 November 2012, Kyoto,  Japan

  13. 郑碏,董立户,陈健,高光华,费维扬. CO2捕集的吸收溶解度计算和过程模拟. 化工学报,2010,61(7):1740-1746.

  14. Dongfang Guo, Yanxin Liu, Jian Chen. Study on thermodynamics and solubility for CO2 absorption. PPEPPD2010. Suzhou, China. 2010, 5.

  15. Lihu Dong, Jian Chen, Guanghua Gao. Study on solubility of carbon dioxde in aqueous solutions of AMP isomers. PPEPPD2010. Suzhou, China. 2010, 5.

  16. Yicheng Zheng, Dongfang Guo, Jian Chen. Simulation and Pilot Plant Measurement for CO2 Absorption with Mixed Amines. 10th International Conference on Greenhouse Gas Control Technologies (GHGT10). Amsterdam, Netherland. 2010,09.

  17. Lihu Dong, Jian Chen, Guanghua Gao. Study on Performance of Alkanolamines as Absorbents for CO2 Capture. AIChE annual meeting. Nashville , USA. 2009, 11.

  18. Jian Chen, Liwei Zhao, Lihu Dong and Guanghua Gao. Simulation of absorption processes for CO2 capture. 9th International Conference on Greenhouse Gas Control Technologies (GHGT9). Washington DC, US. 2008.11.

  19. Chen Jian, Zhao Mengqiang, Yu Yanmei, Li Zongcheng. Calculation for liquid–liquid equilibria of quaternary alkane–ethyl acetate–methanol–water systems used in counter-current chromatography. Journal of Chromatography A, 1151: 60–64, 2007.

  20. Zhu Jiqin, Chen Jian, Li Chengyue, Fei Weiyang. Study on the separation of 1-hexene and trans-3-hexene using ionic liquids. Fluid Phase Equilibria 247, 102–106, 2006.

  21. 费维扬,艾宁,陈健. 温室气体CO2的捕集和分离—分离技术面临的挑战与机遇. 化工进展, 2005,24(1): 1-8.

  22. Chen Jian and Chen Kwong-yu. Size-dependent mobility of platinum cluster on a graphite surface. Molecular Simulation, 31(6–7), 527–533, 2005.

  23. Chen, J; Yu, YM; Li, ZC. Accurate calculation for liquid-liquid equilibria of typical solvent systems used in CCC. Journal of Liquid Chromatography & Related Technologies. 28 (12-13): 1937-1946, 2005.

  24. Chen, J; Mi, JG; Yu, YM; Luo, GS. An analytical equation of state for water and alkanols. Chemical Engineering Science, 59 (24): 5831-5838, 2004.

  25. Mi Jianguo, Chen Jian, Gao Guanghua. Renormalization Group Theory applied for fluids and mixtures up to critical region. Molecular Simulation, 29 (12): 773-776, 2003.

  26. Jian Chen, Gordon Zhao and Dan Zhang. A New Simulation Method for Packed Columns Applied in the Gas Sweetening Processes. Aspen world 2002, Washington, DC, Oct. 27 - Nov. 1, 2002.

  27. MI Jianguo, CHEN Jian, Gao Guanghua, FEI Weiyang. Equation of state extended from SAFT with improved results for polar fluids across the critical point. Fluid Phase Equilibria, 201(2): 295-307, 2002.

  28. CHEN Jian, MI Jianguo. Equation of state extended from SAFT with improved results for non-polar fluids across the critical point. Fluid Phase Equilibria, 186(1-2): 165-184, 2001.

  29. CHEN Jian, MI Jianguo, Chan K.Y. Comparison of different mixing rules for prediction of density and residual internal energy of binary and ternary Lennard-Jones mixtures. Fluid Phase Equilibria, 178(1-2): 87-95, 2001.

  30. Chen Jian, MI Jianguo, FEI Weiyang, LI Zongcheng. Liquid-liquid equilibria of quaternary and quinary systems including sulfolane at 298.15 K. J. Chem. Eng. Data, 46(1): 169-171, 2001.

地址:北京市海淀区清华园化工系工物馆   邮编:100084
Email:chemeng@tsinghua.edu.cn

Copyright © 2020 清华大学化学工程系 All Rights Reserved.