袁渭康(工程院院士)

袁渭康:院士 教授

  

袁渭康,1935年7月生于上海。華東化工學院1957年畢業,1962年研究生畢業,同年起在北京化工學院任教,直至1973年進入華東理工大學至今。歷任華東理工大學化學工程系主任,化學反應工程研究所所長。其間1979-1981美國麻省理工學院訪問學者,1989丹麥技術大學客座教授,1990美國弗吉尼亞大學客座教授。1995年當選為中國工程院院士?,F為化學工程聯合國家重點實驗室學術委員會主任。


長期從事化學工程研究,以化學反應工程為主要方向。在應用基礎研究方面的工作涉及催化反應工程及多相反應工程,反應器模型化及動態學,以及電化學反應器等。在反應器的研究開發方面,創導了工業反應過程開發方法的主要思想,并成功主持了幾個重要的工程應用項目。曾數度獲國家及部委獎勵,獲何梁何利科技進步獎。


積極推動國際學術交流。1992年創議成立亞太化學反應工程工作委員會并任首任主席,組織地區學術活動。該委員會現已被公認為是平行于北美和歐洲在本領域中三個國際組織之一。1998年創建中法化學與環境工程聯合實驗室并任中方負責人。該實驗室目前有雙方12個實驗室參加,運行良好。

當前研究方向:反應器工程,非傳統反應工程。

主要教學科研成果

【論文發表情況】    

1. Adsorption of benzene and cyclohexane on gamma-Al2O3 and Pd/gamma-Al2O3 at elevated temperature and pressure

Chemical Engineering Journal, 136(2-3):414-418, 2008.03.01

 2. Zeta potential on the anti-scalant modified sub-micro calcite surface

Colloids and Surfaces A-Physicochemical and Engineering Aspects, 328(1-3):60-66, 2008.10.01

3. Oxygen reduction reaction properties of carbon nanofibers: Effect of metal purification

ElectrochimicaL ACTA, 53(10):3587-3596, 2008.04.01

4. Adsorption of ammonia on activated carbon from aqueous solutions

Environmental Progress, 27(2):225-233, 2008.07

5. In situ FT-IR spectroscopic study on the conformational changes of isotactic polypropylene in the presence of supercritical CO2

European Polymer Journal, 44(8):2619-2624, 2008.08

6. Pyrolysis gasoline hydrogenation in the second-stage reactor: Reaction kinetics and reactor simulation

Industrial & Engineering Chemistry Research, 7(4):1051-1057, 2008.02.20

7. Platinum/carbon nanofiber nanocomposite synthesized by electrophoretic deposition as electrocatalyst for oxygen reduction

Journal of Power Sources, 175(1):211-216, 2008.01.03

8. Effect of supercritical carbon dioxide-assisted nano-scale dispersion of nucleating agents on the crystallization behavior and properties of polypropylene

Journal of Supercritical Fluids, 44(3):446-456, 2008.04

9. Synthesis and characterization of titanium silicate-1 supported on carbon nanofiber

Microporous and Mesoporous Materials, 108(1-3):311-317, 2008.02.01

10. Supercritical carbon dioxide-induced melting temperature depression and crystallization of syndiotactic polypropylene

Polymer Engineering and Science, 48(8):1608-1614, 2008.08

11. Kinetics for the simultaneous removal of NO and SO2 with cobalt ethylenediamine solution

Separation and Purification Technology, 58(3):328-334, 2008.01

12. Kinetics for the simultaneous absorption of nitric oxide and sulfur dioxide with the hexamminecobalt solution

Separation and Purification Technology, 62(1):183-191, 2008.08

13. Microstructure effect of carbon nanofiber on electrocatalytic oxygen reduction reaction

Catalysis Today, 131(1-4):270-277, 2008.02.29

14. Determination of catalyst wetting fraction on the molecular level

AIChE Journal, 53(3):741-745, 2007.03

15. Process flow diagram of an ammonia plant as a complex network

AIChE Journal, 53(2):423-428, 2007.02

16. Effects of microstructure of carbon nanofibers for amperometric detection of hydrogen peroxide

Analytica Chimica Acta, 597(2):238-244, 2007.08

17. Rational design of the carbon nanofiber catalysts for oxidative dehydrogenation of ethylbenzene

Applied Catalysis A-Geeral, 323:135-146, 2007.04.30

18. Characterization of surface oxygen complexes on carbon nanofibers by TPD, XPS and FT-IR

Carbon, 45(4):785-796, 2007.04

19. First-principles Study of Carbon Diffusion in Bulk Nickel during the Growth of Fishbone-type Carbon Nanofibers

Carbon, 45(1):21-27, 2007.01

20. Kinetics of the selective hydrogenation of pyrolysis gasoline

Chemical Engineering & Technology, 30(1):105-111, 2007.01

21. Peroxidization of methyl ethyl ketone in a microchannel reactor

Chemical Engineering Science, 62(18-20):5127-5132,2007.10

22. Modelling of the kinetics of the Supercritical CO2 Assisted Grafting of Maleic Anhydride onto Isotactic Polyropylene in the Solid State

Chemical Engineering Science, 62(18-20):5290-5294,2007.10

23. Targeting the dominating-scale structure of a multiscale complex system: A methodological problem

Chemical Engineering Science, 62(13):3335-3345,2007.07

24. Effect of carbon nanofiber microstructure on oxygen reduction activity of supported palladium electrocatalyst

Electrochemistry Communications, 9(5):895-900, May 2007

25. Evaluation on the Dependence of Multiphase Flow and Reaction upon the Morphology of Porous Media Network

Industrial & Engineering Chemistry Research, 46(25):8459-8470, 2007.12

26. First-principles calculations of CH4 dissociation on Ni(1 0 0) surface along different reaction pathways

Journal of Molecular Catalysis A: Chemical, 264(1-2):299-308, 2007.03

27. Effect of Zn2+/Zn layer on H-2 dissociation on Ruthenium (0001) surface: A first principles density functional study

Journal of Molecular Structure-Theochem, 807 (1-3): 185-189 APR 1 2007

28. First-principles study of C adsorption and diffusion on the surfaces and in the subsurfaces of nonreconstructed and reconstructed Ni(100)

Journal of Physical Chemistry C, 111(8):3447-345, 2007.03

29. Supercritical carbon dioxide-assisted solid-state free radical grafting of methyl methacrylate onto polypropylene

Journal of Supercritical Fluids, 43(1):64-73, 2007.11

30. Foaming of polypropylene with supercritical carbon dioxid

Journal of Supercritical Fluids, 41(2):299-310, June 2007

31. Nitric oxide absorption into cobalt ethylenediamine solution

Separation and Purification Technology, 55(2):226-231, Jun15 2007

32. First-principles study of C chemisorption and diffusion on the surface and in the subsurfaces of Ni(1 1 1) during the growth of carbon nanofibers

Surface Science, 601(5):1319-1325, 2007.03

33. Rational Design of the Carbon Nanofiber Catalysts for Oxidative Dehydrogenation of Ethylbenzene

Topics in Catalysis, 45(1-4):87-91, AUG 2007

【研究方向】

1.催化劑和催化反應過程:催化新材料與催化劑制備,非均相催化反應過程開發

2.超臨界流體技術:超臨界聚合物加工,超臨界反應,近臨界水反應等。

3.反應器的非定態行為與動態操作:換向固定床反應器,強制振蕩多相流反應器,電流振蕩電化學反應器等。 


【聯系方式】 

電話:64252884

Email:wkyuan@ecust.edu.cn

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