化学工程 Chemical Engineering
李军课题组: 超临界流体技术

Jun LI — Supercritical Fluid Technology

Group Members
Associate Professor Wang Hongtao (王宏涛)

Selected Publications

  1. “Solid-Liquid-Gas Equilibrium of the Naphthalene-Biphenyl-CO2 System: Measurement and Modeling”, D. Hua, J.-D. Hong, X.-H. Hu, Y.-Z. Hong, J. Li, Fluid Phase Equilibria, 2010, 299, 109.
  2. “Solid-Liquid-Gas Equilibrium of the Ternaries Ibuprofen + Myristic Acid +CO2 and Ibuprofen + Tripalmitin + CO2”, J.-D. Hong, D. Hua, X. Wang, H.-T. Wang, J. Li, Journal of Chemical Engineering Data, 2010, 55, 297.
  3. “Calculation of Calculation of SLG equilibrium for binary systems containing CO2”, J.-D. Hong, H. Chen, J. Li, Henrique Matos, Edmundo Gomes de Azevedo, Industrial & Engineering Chemistry Research, 2009, 48, 4579.
  4. “Anti-solvent effect in the production of lysozyme nano- and microparticles by supercritical fluid-assisted atomization processes”, Miguel Rodrigues, J. Li, Luís B Padrela, António J Almeida, Henrique A. Matos, Edmundo Gomes de Azevedo, Journal of Supercritical Fluids, 2009, 48, 253.
  5. “Droplet behavior and electrically driven extraction of aromatic hydrocarbon”, Yuzhong Su, Y.-D. Zhao, T.Zhou, J. Li, Petroleum Science and Technology, 2009, 27, 1413.
  6. “Modeling of a continuous crystallization process for solvent dewaxing”, J. Li, H. He, Saeed Alaamri, Y.-Z. Su, Separation Science and Technology, 2008, 43, 2023.
  7. “Modeling of a packed bed electrochemical reactor for producing glyoxylic acid from oxalic acid”, J. Li, X.-H. Hu, Y.-Z. Su, Q.-B. Li, Chemical Engineering Science, 2007, 62: 6784.
  8. “Vapor–liquid equilibria and volume expansion of the tetrahydrofuran/CO2 system: Application to a SAS-atomization process”, J. Li, Miguel Rodrigues, Alexandre Paiva, Henrique Matos, Edmundo Gomes de Azevedo, Journal of Supercritical Fluids, 2007, 41, 343.
  9. “Adsorption of acrylonitrile and methyl acrylate on activated carbon in a packed bed column”, F.-S. Wang, J. Li, J.-R.Wang, H.-Q. Gao, Adsorption, 2006, 12: 213.
  10. “Modeling of furfural refining process for lubricating oils”, J. Li, Y.-Z. Su, H.-Q. Gao, Petroleum Science and Technology, 2006, 24, 1347.
  11. “Binary solid-liquid-gas equilibrium of the tripalmitin-CO2 and ubiquinone-CO2 systems”, J. Li, Miguel Rodrigues, Akexandre Paive, Henrique Matos, Edmundo Gomes de Azevedo, Fluid Phase equilibria, 2006, 241, 196.
  12. “Modeling of particle formation from a gas-saturated solution processes”, J. Li, Miguel Rodrigues, Alexandre Paiva, Henrique Matos, Edmundo Gomes de Azevedo, AIChE Journal, 2005, 51, 2343.
  13. “Vapor-liquid equilibrium of carbon dioxide/ethanol/water: application for evaluation the system volume expansion and water removal efficiency”, J. Li, Miguel Rodrigues, Henrique Matos, Edmundo Gomes de Azevedo, Industrial & Engineering Chemistry Research, 2005, 44, 6751.
  14. “Two-phase homogeneous model for particle formation from gas-saturated solution processes”, J. Li, Henrique Matos, Edmundo Gomes de Azevedo, Journal of Supercritical Fluids, 2004, 32, 275.
  15. “A mutual-diffusion-coefficient model based on local composition”, J. Li, H.-L. Liu, Y. Hu, Fluid Phase Equilibria, 2001, 187-188, 193.

An extraction-encapsulation plant built for a company


李军 教授、博士生导师

 
博士(华东理工大学,1998)
硕士(浙江大学,1995)
学士(大连理工大学,1992)
博士后(葡萄牙IST,2003-2005)

电话:(0592)2183055
传真:(0592)2183055
电子邮箱:junnyxm@xmu.edu.cn

研究兴趣:以药物、香精香料、食品、材料等为应用背景,从事超临界流体绿色化工技术(分离、粉体化、胶囊化)的研究;从事电化学工程、吸附、结晶等其它化工分离技术的研究,拓展超临界流体技术于其中的应用;进行上述相关技术中的过程模拟研究,包括其中的热力学、动力学、传递过程等内容;致力于上述相关技术的成套工艺和设备的设计、加工和开发。

 




Jun LI Professor

 
Ph. D. (1998), East China University of Science and Technology;
M.E. (1995), Zhejiang University;
B.S. (1992), Dalian University of Technology.
Post-Doc. (2003-2005),IST, Portugal

Research Interests: Supercritical fluid techniques (extraction, micronization, reaction, encapsulation, drying), electrochemical engineering, and traditional and novel separation techniques (crystallization, adsorption, extraction, etc.) in the fields of food, pharmaceuticals, flavor and fragrance, and materials, mainly focusing on plant design and setup, process simulation, and fundamentals of the processes such as thermodynamics, kinetics and transport phenomena.