程振民
发布时间:2022-11-18   访问次数:29723   作者:

 

姓名:程振民

职称:教授
所属单位:华东理工大学化工学院
电话:(021)64253529
传真:(021)64253528
电子邮件:zmcheng@ecust.edu.cn

教育背景:
 2002/06-2003/05
,澳大利亚昆士兰大学化学工程系,访问学者
 2000/11-2001/02
,法国国家科研中心化学工程科学实验室,访问学者
 1990/09-1993/07
,华东理工大学联合化学反应工程研究所,博士
 1987/09-1990/07,
华东理工大学化学工程研究所,硕士
 1983/09-1987/07,
华东理工大学化学工程系,学士

工作经历:
 2002/03-
至今,华东理工大学化工学院,聘任博士生导师
 1999/11-
至今,华东理工大学化工学院,教授,硕士生导师
 1996/11-1999/10,
华东理工大学化工学院,副教授
 1993/10-1996/10,
华东理工大学化工学院,讲师

研究方向:

反应器模拟与内构件设计;多相流模拟计算与基础理论;界面工程与过程强化;多孔介质模拟; 新型催化反应工程;电化学反应工程;二氧化碳转化与利用

 

荣誉和奖励:

上海市化学化工学会庄长恭提名奖(2004)

教育部新世纪优秀人才支持计划(2004)

中国大学出版社图书奖第二届优秀教材二等奖(2012)

优秀研究生任课教师一等奖(2017)、优秀研究生教学成果二等奖(2019


学术兼职:

华东理工大学学报、化学反应工程与工艺、管道技术与设备、ProcessesInt. J. Eng. Sys. Model. Simul.杂志编委,全国催化加氢技术指导委员会委员,及多个学术会议和组织的学术委员。

 

承担科研项目:

1. 废弃秸秆制备能源化学品成套技术与装备,国家重点研发计划,2020-2022.

2. 非润湿型气--固三相接触方式的构建及应用研究,国家自然科学基金,2017-2020.

3. 萘磺化反应旋流闪蒸脱水设备研制,企业委托,2022-2023.

4. 2-萘酚连续反应技术研发及改造项目,企业委托,2021-2022.

5. 加氢反应器气液旋流混合内构件,企业委托,2021.

6. 超临界废水脱盐结晶过程研究,企业委托,2020-2022.

7. 基于沸腾床平台的相关技术研究,企业委托,2019-2021.

8. 大型炼油基地设计技术升级与提质增效技术开发应用,企业委托,2018-2020.

9. 单套2万吨/年甲基氯化铝连续生产工艺及其反应器的研制,企业委托,2018-2020.

10. 沸腾床加氢装置工程技术开发,企业委托,2018-2019.

 

代表性论著:

 ()研究生教材

1) 程振民, 朱开宏, 袁渭康. 高等反应工程. 化学工业出版社, 北京,2021.

2) 朱开宏, 程振民. 高等反应工程教程例题与习题(附MATLAB 算例). 华东理工大学出版社, 上海, 2012.

3程振民, 朱开宏, 袁渭康. 高等反应工程教程. 华东理工大学出版社, 上海, 2010.


 (
)近期所发表学术论文

1)  Yan S, Mahyoub SA, Lin J, Zhang C, Hu Q, Zhong J, Cheng ZM*. Controllable growth of branched silver crystals over a rod of the same material as an efficient electrode in CO2 reduction at high current densities. Journal of Catalysis. 2022;405:224-35.

2)  Yan S, Mahyoub SA, Lin J, Zhang C, Hu Q, Chen C, Cheng ZM* Au aerogel for selective CO2 electroreduction to CO: ultrafast preparation with high performance. Nanotechnology. 2022;33(12).

3)  Xu C, Cheng ZM*. Dicationic Imizadolium-Based Tetrafluoroborate Ionic Liquids: Synthesis and Hydrothermal Stability Study. Chemistryselect. 2022;7(32).

4)  Tang Y, Luo G, Zhong J, Chen K, Xu C, Cheng ZM*. Effects of stagnant zone on the effectiveness factor in a trickle bed. Chemical Engineering Science. 2022;248.

5)  Tang Y, Luo G, Cheng ZM*. Packing size effects on the liquid circulation property in an external-loop packed bubble column. AIChE Journal. 2022.

6)  Song Y, Li Z, Zhu Q, Huang Z, Cheng ZM*. Precipitation Behavior of Salts in Supercritical Water: Experiments and Molecular Dynamics Simulations. Processes. 2022;10(2).

7)  Mahyoub SA, Qaraah FA, Yan S, Hezam A, Zhong J, Cheng ZM*. Rational design of low loading Pd-alloyed Ag nanocorals for high current density CO2-to-CO electroreduction at elevated pressure. Materials Today Energy. 2022;24.

8)   Mahyoub SA, Qaraah FA, Yan S, Hezam A, Chen C, Zhong J, Cheng ZM*. 3D Cu/In nanocones by morphological and interface engineering design in achieving a high current density for electroreduction of CO2 to syngas under elevated pressure. Journal of CO2 Utilization. 2022;61.

9)   Liu J, Shi J, Zhang B, Cheng ZM*. Novel Magnetically-Recoverable Solid Acid Catalysts with a Hydrophobic Layer in Protecting the Active Sites from Water Poisoning. Processes. 2022;10(9).

10)Lin J, Yan S, Zhang C, Hu Q, Cheng ZM*. Hydrophobic Electrode Design for CO2 Electroreduction in a Microchannel Reactor. Acs Applied Materials & Interfaces. 2022;14(6):8623-32.

11) Lin J, Yan S, Zhang C, Hu Q, Cheng ZM*. Electroreduction of CO2 toward High Current Density. Processes. 2022;10(5).

12) Cheng ZM*, Luo G, Tang Y, Ling D, Chen Z, Liu P. External Wetting Efficiency in a Three-Phase Fixed Bed Loaded with Porous and Non-Porous Packings. Processes. 2022;10(1).

13) Chen K, Cao Y, Zhu H, Ge H, Yang T, Zhou Z, Cheng ZM*. Experimental Determination on the Deactivation Kinetics of Residue Hydroprocessing in a Two-Stage Fixed Bed Loaded with HDM and HDS Catalysts. Processes. 2022;10(9).

14) Zhang C, Yan S, Lin J, Hu Q, Zhong J, Zhang B, Cheng ZM*. Electrochemical Reduction of CO2 to CO on Hydrophobic Zn Foam Rod in a Microchannel Electrochemical Reactor. Processes. 2021;9(9).

15) Yan S, Mahyoub SA, Zhong J, Chen C, Zhang F, Cheng ZM*. Ultrathin and dense Ag nanosheets synthesis under suppressed face (111) growth and surface diffusion. Journal of Power Sources. 2021;488

16) Yan S, Chen C, Zhang F, Mahyoub SA, Cheng ZM*. High-density Ag nanosheets for selective electrochemical CO2 reduction to CO. Nanotechnology. 2021;32(16).

17) Xu C, Cheng ZM*. Thermal Stability of Ionic Liquids: Current Status and Prospects for Future Development. Processes. 2021;9(2).

18) Tang Y, Luo G, Zhou Z, Li J, Gao G, Li L, Cheng ZM*. An analysis on catalyst wettability design in strong exothermic reactions. Chemical Engineering Science. 2021;246.

19) Shi J, Zhang L, Cheng ZM*. Design of Water-Tolerant Solid Acids: A Trade-Off Between Hydrophobicity and Acid Strength and their Catalytic Performance in Esterification. Catalysis Surveys from Asia. 2021;25(3):279-300.

20) Zhang F, Jin Z, Chen C, Tang Y, Mahyoub S, Yan S, Cheng ZM*. Electrochemical Conversion of CO2 to CO into a Microchannel Reactor System in the Case of Aqueous Electrolyte. Industrial & Engineering Chemistry Research. 2020;59(13):5664-74.

21) Zhang F, Chen C, Yan S, Zhong J, Zhang B, Cheng ZM*. Cu@Bi nanocone induced efficient reduction of CO2 to formate with high current density. Applied Catalysis a-General. 2020;598.

22) Zhang F, Chen C, Tang Y, Cheng ZM*. CO2 reduction in a microchannel electrochemical reactor with gas-liquid segmented flow. Chemical Engineering Journal. 2020;392.

23) Tang Y, Chen M, Cheng ZM*, Yang T, Chen B, Ge H, Fang X*. Effectiveness factors for a partially wetted catalyst based on the rivulet flow model. Chemical Engineering Science. 2020;215.

24) Mahyoub SA, Qaraah FA, Chen C, Zhang F, Yan S, Cheng ZM*. An overview on the recent developments of Ag-based electrodes in the electrochemical reduction of CO2 to CO. Sustainable Energy & Fuels. 2020;4(1):50-67.

 


 
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