漆志文教授
发布时间:2009-04-07   访问次数:5852   来源:beat365亚洲体育在线

 

     

漆志文
     教授,博士生导师,男,1969年生,湖北黄冈人。
     1984. 9 – 1987. 7         湖北省黄冈中学,高中
     1987. 9 – 1991. 7         华东beat365亚洲体育在线化学工程系化学工程专业,本科
     1991. 8 – 1993. 8         湖北省鄂州化工总厂,化学工程师
     1993. 9 – 1996. 7         beat365亚洲体育在线联合化学反应工程研究所,硕士研究生
     1996. 9 – 1999. 7         beat365亚洲体育在线洁净煤技术研究所,博士研究生
     1999. 9 – 2002.8    德国马普学会复杂技术系统动力学研究所,博士后
     2002. 9 – 2005.10        德国马普学会复杂技术系统动力学研究所,研究员,
                                    Chemical Engineering Science执行主编(Prof. Sundmacher)助理
     2005.11 – 2008.08 加拿大滑铁卢大学化学工程系,高级研究助理
     2008.09至今           beat365亚洲体育在线化学工程联合国家重点实验室,特聘教授
长期从事过程强化和反应精馏技术基础及技术开发、复杂过程模拟与分析等方面的研究。在国外期间,先后完成9项德国马普学会基金课题、德国大众科学基金会课题和加拿大自然科学基金课题、以及德国Degussa公司、加拿大Nova化学公司、美国CDTech公司及英国BP公司多项技术改进及新技术开发课题。目前为化学工程领域主要国际学术期刊审稿人和美国化学学会会员。
研究领域:
■ 化工过程强化
■ 离散化工过程
■ 生物能源过程与技术
■ 复杂过程模可行性分析与模拟优化
研究方向:
1.      反应精馏技术基础研究及在石化和化工中的应用
■ 含非冷凝反应气体及含多液相体系的反应精馏技术基础研究
■ 辅助化学反应强化的反应精馏技术基础研究
■ 反应精馏过程模拟、优化与控制
■ C4馏分综合利用技术
■ 同分异构体或同系物反应分离技术
2.      离散化工过程基础研究及技术开发
■ 基于群体平衡模型和颗粒尺寸分布的离散化工过程模拟
■ 结晶过程热力学、过程模拟与优化
■ 结晶过程技术开发
3.      生物质化工过程
■ 新型生物乙醇直接分离技术
■ 生物柴油制备技术
4.      复杂过程分析与仿真
■ 化工新技术可行性分析
■ 工厂规模及多尺度化工过程模拟与仿真
Zhiwen Qi, Ph.D.
Professor of Chemical Engineering
1987. 9 – 1991. 7      East China University of Chemical Technology, B.Sc. in Chemical Engineering
1991. 8 – 1993. 8      Hubei Ezhou Chemical Corporation, Chemical Engineer
1993. 9 – 1996. 7      East China University of Science and Technology, M.Sc. in Chemical Engineering
1996. 9 – 1999. 7      East China University of Science and Technology, Ph.D. in Chemical Engineering
1999. 9 – 2002. 8      Max Planck Institute for Dynamics of Complex Technical Systems, Postdoc
2002. 9 – 2005.10    Max Planck Institute for Dynamics of Complex Technical Systems, Senior Scientist
and Assistant to Executive Editor (Prof. Kai Sundmacher) of journal Chemical Engineering Science
2005.11 – 2008. 8    University of Waterloo, Canada, Senior Research Scientist
Since 2008.9             State Key Lab of Chemical Engineering, ECUST, Professor
Dr. Qi has completed and coordinated multiple fundamental research projects granted by the Max Planck Society (Germany), the Volkswagen Foundation (Germany) and the Natural Sciences and Engineering Research Council of Canada (NSERC, Canada), and industrial projects from Degussa Corporation (Germany), Nova Chemicals (Canada), CDTech (USA) and BP (UK) in the fields of petrochemical, chemical and bioenergy. Dr. Qi’s achievements have significantly improved the process performance of Degussa C4 olefin plants and offered valuable insights to Nova Chemicals and BP technology developments.
Research Interests:
l     Integrated and Intensified Processes: fundamentals of integrated processes involving in non-condensable inert or/and reactive gas (e.g. hydrogenation reaction) and multiple liquid phases (e.g. hexene hydration), and processes intensified by auxiliary chemical reactions where a media compound acts not only as a reactant but also as entrainer to benefit the physical properties and to enhance the reaction rate. Applications for petrochemical and bioenergy processes are also focused by using integrated and intensified technology.
l     Crystallization and Discrete Systems: understanding discrete process with modeling coupling population balances and particle size distribution with fluid dynamics; investigating petrochemical crystallization processes.
l     Process Modeling and Simulation: understanding process dynamics and steady state behaviors, and process multiplicity of plant-scale and multiple phases processes. Process feasibility analysis and design of new processes and innovation of operating plants.
l     Bioenergy Processes: novel biodiesel process development by insite converting glycerol to biodiesel additive; and novel direct separation of bioethanol by special entrainer.
Selected Publications:
1.Qi, Z.W., Sundmacher, K. (2006). Multiplicity of VLLE equations. Chemical Engineering Science, 61: 6709-6717.
2..Sandip, T., Chauhan, M., Aghalayam, P., Qi, Z.W., Sundmacher, K., Mahajani, S.M. (2006). Kinetics studies on dimerisation of isobutene with ion exchange resin in the presence of water as selectivity enhancer. Industrial & Engineering Chemistry Research, 45:1312-1323. 
3. .Sundmacher, K. Qi, Z.W., Multifunctional Reactors, in: Encyclopedia of Chemical Science, Engineering and Technology Resources of Encyclopedia of Life Support Systems (2006), Eolss Publishers, Oxford, UK. published online www.eolss.net.
4. Qi, Z.W., Sundmacher, K. (2006). Multiple product solutions of TBA dehydration in reactive distillation. Industrial & Engineering Chemistry Research, 45:1613-1621.
5. Kamath, R., Qi, Z.W., Sundmacher, K., Aghalayam, P., and Mahajani S.M. (2006). Comaprison of reactive distillation with process alternatives for the isobutene dimerisation. Industrial & Engineering Chemistry Research, 45:2707-2714.
6 .Kamath, R., Qi, Z.W., Sundmacher, K., Aghalayam, P., and Mahajani S.M. (2006). Process analysis of dimerisation of isobutene in a reactive distillation column. Industrial & Engineering Chemistry Research, 45:1575-1582.
7. Ivanova, M., Qi, Z.W., Schlünder, E.U., Sundmacher, K. (2006). Analysis of potential singular point surface of reactive stripping processes. Chemical Engineering Science, 61:1901-1912.
8. Sundmacher, K., Qi, Z.W., Huang, Y.S, Schlünder, E.U. (2005). Thermodynamic and kinetic effects on the feasible products of reactive distillation: Azeotropes and arheotropes. In Integrated Chemical Processes, Eds. Kai Sundmacher, Achim Kienle, Andreas Seidel-Morgenstern, Wiley-VCH Viemheim, 87-148.
9. Qi, Z.W., Sundmacher, K. (2005). Geometrically locating azeotropes in ternary systems. Industrial & Engineering Chemistry Research, 44:3709-3719.
10. Qi, Z.W., Flockerzi, D., Sundmacher, K. (2004). Singular points of reactive distillations. AIChE Journal, 50:2866-2876.
11. Qi, Z.W., Zhang, R.S. (2004). Alkylation of benzene with ethylene in packed reactive distillation column. Industrial & Engineering Chemistry Research, 43:4105 - 4111.
12. Huang, Y.S., Sundmacher, K., Qi, Z.W., Schlünder, E.U. (2004). Residue curve maps of reactive membrane separation. Chemical Engineering Science, 2863-2879.
13. Qi, Z.W., Kienle, A., Stein, E., Mohl, K.D., Tuchlenski, A., Sundmacher, K. (2004). MTBE decomposition in a reactive distillation column, Chemical Engineering Research and Design, 82(A2): 185-191.
14. Qi, Z.W., Sundmacher, K. (2004). Countercurrent Separative Reactors: prediction of feasible products by fixed-point analysis. Separation & Purification Technology, 34: 201-211.
15. Sundmacher, K., Qi, Z.W. (2003). Conceptual design aspects of reactive distillation processes for ideal binary mixtures. Chemical Engineering and Processing, 42(3):191-200.
16. Qi, Z.W., Sundmacher, K. (2002). Bifurcation analysis of reactive distillation systems with liquid splitting. Computers and Chemical Engineering, 26:1459-1471.
17. Steyer, F., Qi, Z.W., Sundmacher, K. (2002). Synthesis of cyclohexanol by three-phase reactive distillation: influence of kinetics on phase equilibria. Chemical Engineering Science, 57:1511-1520.
18. Qi, Z.W., Sundmacher, K., Stein, E., Kienle, A., Aspi Kolah (2002). Reactive separation of isobutene from C4 crack fractions by catalytic distillation processes. Separation and Purification Technology, 26(2-3): 147-163.
19. Qi, Z.W., Sundmacher, K., Stein, E., Kienle, A. (2002). Reactive separation of isobutene from C4-fractions using coupled reactive distillation columns. In: DGMK-Monograph 2002-4 "Chances for Innovative Processes at the Interface between Refining and Petrochemistry", Eds. G. Emig, E. Gallei, B. Luecke and J. Weitkamp, Druckregie GmbH Hamburg, 187-194.
20. Sundmacher, K. and Qi, Z., Integration von Reaktion und Stofftrennung: Konzepte und Bewertung, Chemie-Ingenieur-Technik 74/5, (2002) 593-594.
21. Qi, Z.W., Kolah, A., Sundmacher, K. (2002). Residue curve maps for reactive distillation systems with liquid phase splitting. Chemical Engineering Science. 57(1):163-178.
22. Sundmacher, K., Qi, Z.W. (2002). Importance of micro- and macrokinetics of chemical reactions in catalytic distillation processes. In Reactive Distillation, Eds. K. Sundmacher and A. Kienle, Wiley-VCH Viemheim, 97-142.
23. Kolah, A., Qi, Z.W., Mahajani, S.M. (2001). Dimerized isobutene: an alternative to MTBE. Chemical Innovation. 31(3):15-21.
24. Qi, Z.W., Ye, Y.M., Zhang, R.S., Yu, Z.H. (2000). Simulation of steady distillation process accompanied with multiple chemical equilibrium reactions basing on transformed variables. Chemical Engineering and Communications. 180:61-82.
25. 高福成,漆志文 (1999). 食品加工过程模拟优化及控制, 中国轻工业出版社.
热诚欢迎报考本课题组硕士和博士研究生,欢迎联系化学工程联合国家重点实验室博士后及访问学者等。本课题组将为优秀研究生提供国外联合培养和加入国际学术会议的机会。
联系方式:
Tel: 021-6425-0935
Fax: 021-6425-3528
Email: zwqi@ecust.edu.cn