黄克谨,男,北京化工大学教授,博士生导师。

时间:2020-04-05浏览:175

黄克谨,男,北京化工大学教授,博士生导师。

研究方向:复杂化工过程系统工程。

1982年至1992年就读于浙江大学,于19926月获得工学博士学位;1992年至1994年担任浙江大学工业控制研究所助教,19949月晋升为副研究员。19952月作为访问教授前往日本并工作至20073月,作为主要研究人员先后参与日本木村化工机械株式会社开发部和日本产业技术综合研究所的科研项目,主要研究领域为物质耦合、能量耦合及过程强化技术。20074月作为学术带头人(教授)受聘于北京化工大学信息科学与技术学院自动化系,先后主持了国家863计划、国家自然科学基金和教育部博士点基金等项目的科研工作。20109月在荷兰举行的分离领域国际会议“Distillation and Adsorption 2010”上被选为国际科学委员会委员。

教学课程Teaching courses

课程名称

面向对象

系统辨识与建模

研究生

过程设计控制与优化

本科生

学科前沿讲座

本科生


主要科研项目 Research Projects

项目名称

项目来源

外部热耦合式复合蒸馏塔器的开发及其在乙烯装置中的应用研究

863项目

蒸汽再压缩隔离壁蒸馏塔的综合、设计与控制

国家自然科学基金

一种过程强化的稳态设计与动态控制的一体化理论与方法

国家自然科学基金

利用内部热耦合原理填补隔离壁蒸馏塔的设计与操作黑洞

国家自然科学基金

一种系统强化型反应蒸馏塔的综合与设计方法

国家自然科学基金


主要成果、奖励Main achievements(例如学术论文、教学名师、科技奖项等)


  1. Yuan Y, Huang K, Chen H, Qian X, Zang L, Zhang L. Effective Derivation of Asymmetrical Temperature Control Schemes for Dividing-Wall Distillation Columns. Industrial & Engineering Chemistry Research. 2020;59: 2036-2048.

  2. Zang L, Huang K, Guo T, et al. Temperature inferential control of a reactive distillation column with double reactive sections. Chinese Journal of Chemical Engineering. 2019;27(4):896-904.

  3. Huang K, Yuan Y, Zang X, et al. Controllability Evaluation for Reactive Distillation Columns with Multiple Reactive Sections Disproportionating Trichlorosilane to Silane. Industrial & Engineering Chemistry Research. 2018;57(3):1102-1108.

  4. Zang X, Huang K, Yuan Y, et al. Reactive Distillation Columns with Multiple Reactive Sections: A Case Study on the Disproportionation of Trichlorosilane to Silane. Industrial & Engineering Chemistry Research. 2017;56(3):717-727.

  5. Yuan Y, Zhang L, Chen H, Wang S, Huang K, Shao H. Interpreting the dynamic effect of internal heat integration on reactive distillation columns. Chinese Journal of Chemical Engineering. 2017;25(1):89-102.

  6. Yuan Y, Huang K, Zhang L, Chen H, Wang S, Jiao Y. Elevating the flexibility and operability of dividing-wall distillation columns via feed thermal condition adjustment. Chinese Journal of Chemical Engineering. 2017;25(7):947-954.

  7. Yuan Y, Huang K, Chen H, Zhang L, Wang S. Asymmetrical temperature control of a BTX dividing-wall distillation column. Chemical Engineering Research and Design. 2017;123:84-98.

  8. Yuan Y, Huang K, Chen H, Zhang L, Wang S. Configuring Effectively Double Temperature Difference Control Schemes for Distillation Columns. Industrial & Engineering Chemistry Research. 2017;56(32):9143-9155.

  9. Shi L, Wang S-J, Huang K, et al. Intensifying reactive dividing-wall distillation processes via vapor recompression heat pump. Journal of the Taiwan Institute of Chemical Engineers. 2017;78:8-19.

  10. Huang K, Yuan Y, Zhang L, Chen H, Wang S, Liu N. Unique influences of reboiler inventory control on the operation of totally reboiled reactive distillation columns. Chinese Journal of Chemical Engineering. 2017;25(1):103-115.

  11. Cao Y, Huang K, Yuan Y, Chen H, Zhang L, Wang S. Dynamics and Control of Reactive Distillation Columns with Double Reactive Sections: Feed-Splitting Influences. Industrial & Engineering Chemistry Research. 2017;56(28):8029-8040.

  12. Yu J, Shi L, Yuan Y, Chen H, Wang S, Huang K. Thermally Coupled Reactive Distillation System for the Separations of Cyclohexene/Cyclohexane Mixtures. Industrial & Engineering Chemistry Research. 2016;55(1):311-322.

  13. Zong X, Huang K, Yuan Y, Chen H, Yu J. Design and operation of dividing-wall distillation columns. 2. Process dynamics and operation. Chemical Engineering and Processing: Process Intensification. 2015;91:89-103.

  14. Zhang L, Chen H, Yuan Y, Yu J, Wang S, Huang K. Synthesis and design of reactive distillation columns with two reactive sections. Chemical Engineering Research and Design. 2015;100:311-322.

  15. Zhang L, Chen H, Yuan Y, Wang S, Huang K. Adopting feed splitting in design of reactive distillation columns with two reactive sections. Chemical Engineering and Processing: Process Intensification. 2015;89:9-18.

  16. Yuan Y, Chen H, Yu J, Huang K, Li S, Chen W. Employing feed splitting to eliminate the black-hole problem of dividing-wall distillation columns. Asia-Pacific Journal of Chemical Engineering. 2015;10(6):936-952.

  17.  Yu J, Wang S-J, Huang K, Yuan Y, Chen H, Shi L. Improving the Performance of Extractive Dividing-Wall Columns with Intermediate Heating. Industrial & Engineering Chemistry Research. 2015;54(10):2709-2723.

  18. Shi L, Huang K, Wang S-J, et al. Application of Vapor Recompression to Heterogeneous Azeotropic Dividing-Wall Distillation Columns. Industrial & Engineering Chemistry Research. 2015;54(46):11592-11609.