About The Journal
  Aims and Scope
  Editorial Board
  Submit a Manuscript 
  Subscription Information
  Guidelines for Publication
  Ethics
Articles & Issues
  Search
  Issue
  Online First
  KJChE on
For Authors
  Instructions to Authors
  Ethical Responsibilities of
  Authors in KJChE
  Ethics in Publishing
  Peer Review Process
  Author's Checklist
  Copyright Transfer Form
Contact us
 
 
 
Issue
Korean Journal of Chemical Engineering,
Vol.39, No.12, 3190-3203, 2022
Dynamic simulation and control of a triple column process for dimethyl carbonate-methanol separation
Wei HM, Gao Q, Jiao WZ, Wei W
Separation of dimethyl carbonate/methanol azeotropic mixture by using pressure-swing distillation process has been a hot-point in the study of the synthesis process of dimethyl carbonate by urea methanolysis method. This study updates the work of the writers (Ind.Eng.Chem.Res,2013,52,11463-11478), which explores the dynamic control structure of the three-column separation dimethyl carbonate (DMC)/methanol (MeOH) process from an actual pilot plant. At first, the conventional DMC/MeOH separation process in the pilot test of the DMC synthesis process through alcoholysis of urea was described in detail. Then an optimized control structure for the entire DMC/MeOH separation unit was obtained by implementing a general heuristic design procedure. An economic analysis was performed to evaluate the optimized process. Finally, three dynamic control schemes were proposed and evaluated with several large disturbances, an improved control scheme CS3, using the multiplier blocks “QR1/F1” and “RR1” in T1, “QR1/F1” and “R/F” in both T2 and T3, outperformed CS1 and CS2 by maintaining the product specification in each column.
Keywords: Dynamic Control; DMC/MeOH Separation; Steady-State Optimization; Triple-column Process
[References]
  1. Esan AO, Adeyemi AD, Ganesan S, J. Clean Prod., 257, 120561, 2020
  2. Kumar P, Srivastava VC, Stangar UL, Music B, Mishra IM, Meng Y, Catal. Rev.-Sci. Eng., 63, 363, 2021
  3. Labafzadeh SR, Helminen KJ, Kilpelainen I, King AWT, ChemSusChem, 8, 77, 2015
  4. Selva M, Perosa A, Rodriguez-Padron D, Luque R, ACS Sust. Chem. Eng., 7, 6471, 2019
  5. Tan KT, Lee KT, Mohamed AR, Fuel, 89, 3833, 2010
  6. Weidlich T, Chem. Listy., 109, 594, 2015
  7. Sun J, Yang B, Lin H, Chem. Eng. Technol., 27, 435, 2004
  8. Li CS, Zhang XP, Zhang SJ, Xu QQ, Chin. J. Process Eng., 453, 2003
  9. Wang SJ, Yu CC, Huang HP, Comput. Chem. Eng., 34, 361, 2010
  10. Zhang JL, Wang F, Peng WC, Xiao FK, Wei W, Sun YH, Petrochem. Eng., 39, 646, 2010
  11. Hsu KY, Hsiao YC, Chien IL, Ind. Eng. Chem. Res., 49, 735, 2010
  12. Wei HM, Wang F, Zhang JL, Liao B, Zhao N, Xiao FK, Wei W, Sun YH, Ind. Eng. Chem. Res., 52, 11463, 2013
  13. Zhao WB, Wang F, Peng WC, Zhao N, Li JP, Xiao FK, Wei W, Sun YH, Ind. Eng. Chem. Res., 47, 5913, 2008
  14. Wang DF, Zhang XL, Wei W, Sun YH, Chem. Eng. Technol., 35, 2183, 2012
  15. Wei HM, University of Chinese Academy of Sciences dissertation (2013).
  16. Ma XB, Liu XG, Li ZH, Xu GH, Fluid Phase Equilib., 221, 51, 2004
  17. Luyben WL, Distillation design and control using AspenTM simulation, John Wiley & Sons: Inc: New York (2006).
  18. Perkins JD, J. Chem. Technol. Biotechnol., 46, 249, 1989
  19. Turton R, Whiting WB, Shaeiwitz JA, Org. Proc. Res.-Dev., 3, 494, 1999
  20. Lin YJ, Wong D, Jang SS, Ou JJ, AIChE J., 58, 2697, 2012
  21. Luyben WL, AIChE J., 52, 2290, 2006
  22. Luyben WL, AIChE J., 52, 623, 2006
  23. Ward JD, Yu CC, Doherty MF, AIChE J., 53, 2885, 2007
  24. Grassi VG, Practical Distillation Control (1992).
  25. Luyben WL, Ind. Eng. Chem. Res., 39, 973, 2000
  26. Luyben WL, AIChE J., 57, 655, 2011
참고문헌정보(참고문헌, 인용문헌)는 화학공학소재연구정보센터에 의해 제공되고 있습니다.