SEARCH

SEARCH BY CITATION

Cited in:

CrossRef

This article has been cited by:

  1. 1
    Ben-Guang Rong, A systematic procedure for synthesis of intensified nonsharp distillation systems with fewer columns, Chemical Engineering Research and Design, 2014,

    CrossRef

  2. 2
    Khuram Maqsood, Abulhassan Ali, Azmi B.M. Shariff, Saibal Ganguly, Synthesis of Conventional and Hybrid Cryogenic Distillation Sequence for Purification of Natural Gas, Journal of Applied Sciences, 2014, 14, 21, 2722

    CrossRef

  3. 3
    Massimiliano Errico, Ben-Guang Rong, Carlo Edgar Torres-Ortega, Juan Gabriel Segovia-Hernandez, The importance of the sequential synthesis methodology in the optimal distillation sequences design, Computers & Chemical Engineering, 2014, 62, 1

    CrossRef

  4. 4
    Andreas Bednarz, Bettina Rüngeler, Andreas Pfennig, Use of Cascaded Option Trees in Chemical-Engineering Process Development, Chemie Ingenieur Technik, 2014, 86, 5
  5. 5
    Mirko Skiborowski, Andreas Harwardt, Wolfgang Marquardt, Distillation, 2014,

    CrossRef

  6. 6
    José A. Caballero, Ignacio E. Grossmann, Distillation, 2014,

    CrossRef

  7. 7
    Vishesh H. Shah, Rakesh Agrawal, Distillation, 2014,

    CrossRef

  8. 8
    Mirko Skiborowski, Andreas Harwardt, Wolfgang Marquardt, Conceptual Design of Distillation-Based Hybrid Separation Processes, Annual Review of Chemical and Biomolecular Engineering, 2013, 4, 1, 45

    CrossRef

  9. 9
    Massimiliano Errico, Ben-Guang Rong, Giuseppe Tola, Maurizio Spano, Optimal Synthesis of Distillation Systems for Bioethanol Separation. Part 1: Extractive Distillation with Simple Columns, Industrial & Engineering Chemistry Research, 2013, 52, 4, 1612

    CrossRef

  10. 10
    Ben-Guang Rong, 23rd European Symposium on Computer Aided Process Engineering, 2013,

    CrossRef

  11. 11
    Polytope Projects, 2013,

    CrossRef

  12. 12
    Massimiliano Errico, Ben-Guang Rong, Modified simple column configurations for quaternary distillations, Computers & Chemical Engineering, 2012, 36, 160

    CrossRef

  13. 13
    Ben-Guang Rong, Massimiliano Errico, Synthesis of intensified simple column configurations for multicomponent distillations, Chemical Engineering and Processing: Process Intensification, 2012, 62, 1

    CrossRef

  14. 14
    Lees' Loss Prevention in the Process Industries, 2012,

    CrossRef

  15. 15
    Ben-Guang Rong, Massimiliano Errico, 11th International Symposium on Process Systems Engineering, 2012,

    CrossRef

  16. 16
    Andrzej R. Królikowski, Lechosław J. Królikowski, Stanisław K. Wasylkiewicz, Distillation profiles in ternary heterogeneous mixtures with distillation boundaries, Chemical Engineering Research and Design, 2011, 89, 7, 879

    CrossRef

  17. 17
    Li-Juan Li, Rui-Jie Zhou, Hong-Guang Dong, Ignacio E. Grossmann, Separation network design with mass and energy separating agents, Computers & Chemical Engineering, 2011, 35, 10, 2005

    CrossRef

  18. 18
    Ben-Guang Rong, Synthesis of dividing-wall columns (DWC) for multicomponent distillations—A systematic approach, Chemical Engineering Research and Design, 2011, 89, 8, 1281

    CrossRef

  19. 19
    Vishesh H. Shah, Rakesh Agrawal, A matrix method for multicomponent distillation sequences, AIChE Journal, 2010, 56, 7
  20. 20
    Angelo Lucia, Bradley R. McCallum, Energy targeting and minimum energy distillation column sequences, Computers & Chemical Engineering, 2010, 34, 6, 931

    CrossRef

  21. 21
    Arun Giridhar, Rakesh Agrawal, Synthesis of distillation configurations. II: A search formulation for basic configurations, Computers & Chemical Engineering, 2010, 34, 1, 84

    CrossRef

  22. 22
    Massimiliano Errico, Ben-Guang Rong, Giuseppe Tola, Ilkka Turunen, A method for systematic synthesis of multicomponent distillation systems with less than N-1 columns, Chemical Engineering and Processing: Process Intensification, 2009, 48, 4, 907

    CrossRef

  23. 23
    Chunshan Li, Günter Wozny, Kenzi Suzuki, Design and synthesis of separation process based on a hybrid method, Asia-Pacific Journal of Chemical Engineering, 2009, 4, 6
  24. 24
    Massimiliano Errico, Giuseppe Tola, Ben-Guang Rong, Daniele Demurtas, Ilkka Turunen, Energy saving and capital cost evaluation in distillation column sequences with a divided wall column, Chemical Engineering Research and Design, 2009, 87, 12, 1649

    CrossRef

  25. 25
    Istvan Heckl, Ferenc Friedler, L.T. Fan, Reduced super-structure for a separation network comprising separators effected by different methods of separation, Computers & Chemical Engineering, 2009, 33, 3, 687

    CrossRef

  26. 26
    Meik Bernhard Franke, Norman Nowotny, Eugene Ndocko Ndocko, Andrzej Górak, Jochen Strube, Design and optimization of a hybrid distillation/melt crystallization process, AIChE Journal, 2008, 54, 11
  27. 27
    Frank Henrich, Claude Bouvy, Christoph Kausch, Klaus Lucas, Mike Preuß, Günter Rudolph, Peter Roosen, Economic optimization of non-sharp separation sequences by means of evolutionary algorithms, Computers & Chemical Engineering, 2008, 32, 7, 1411

    CrossRef

  28. 28
    Andreas Harwardt, Sven Kossack, Wolfgang Marquardt, 18th European Symposium on Computer Aided Process Engineering, 2008,

    CrossRef

  29. 29
    Hong-Guang Dong, Li-Min Qin, Tao Wang, Ping-Jing Yao, Distillation separation sequence optimization synthesis based on application of adaptive parallel tabu search, Journal of the Chinese Institute of Engineers, 2005, 28, 3, 493

    CrossRef

  30. 30
    Zhigang Lei, Biaohua Chen, Zhongwei Ding, Special Distillation Processes, 2005,

    CrossRef

  31. 31
    Arthur W Westerberg, A retrospective on design and process synthesis, Computers & Chemical Engineering, 2004, 28, 4, 447

    CrossRef

  32. You have free access to this content32
    S. Bruin, Th.R.G. Jongen, Food Process Engineering: The Last 25 Years and Challenges Ahead, Comprehensive Reviews in Food Science and Food Safety, 2003, 2, 2
  33. 33
    Ahmad M. Justanieah, Vasilios Manousiouthakis, IDEAS approach to the synthesis of globally optimal separation networks: application to chromium recovery from wastewater, Advances in Environmental Research, 2003, 7, 2, 549

    CrossRef

  34. 34
    Ben-Guang Rong, Andrzej Kraslawski, Partially thermally coupled distillation systems for multicomponent separations, AIChE Journal, 2003, 49, 5
  35. 35
    Rakesh Agrawal, Synthesis of multicomponent distillation column configurations, AIChE Journal, 2003, 49, 2
  36. 36
    José A. Caballero, Ignacio E. Grossmann, Thermodynamically equivalent configurations for thermally coupled distillation, AIChE Journal, 2003, 49, 11
  37. 37
    K. Cziner, M. Hurme, Process Systems Engineering 2003, 8th International Symposium on Process Systems Engineering, 2003,

    CrossRef

  38. 38
    Integrated Design and Simulation of Chemical Processes, 2003,

    CrossRef

  39. 39
    Ben-Guang Rong, Andrzej Kraslawski, Ilkka Turunen, European Symposium on Computer Aided Process Engineering-13, 36th European Symposium of the Working Party on Computer Aided Process Engineering, 2003,

    CrossRef

  40. 40
    E. Pajula, T. Seuranen, M. Hurme, European Symposium on Computer Aided Process Engineering - 11, 34th European Symposium of the Working Party on Computer Aided Process Engineering, 2001,

    CrossRef

  41. 41
    Nigel Titchener-Hooker, Yu-Hong Zhou, Integrated bioprocess design: A case study for undergraduates, European Journal of Engineering Education, 2000, 25, 3, 189

    CrossRef

  42. 42
    Lionel O'Young, Yukikazu Natori, Thomas G. Pressly, Ka M. Ng, A physical limitation based framework for separations synthesis, Computers & Chemical Engineering, 1997, 21, S223

    CrossRef

  43. 43
    S. Aly, Fuzzy analogical gates for separation sequence synthesis, Chemical Engineering and Processing: Process Intensification, 1997, 36, 3, 209

    CrossRef

  44. 44
    Megan Jobson, Short-cut evaluation of distillation sequences, Computers & Chemical Engineering, 1997, 21, S553

    CrossRef

  45. 45
    Z. Novak, Z. Kravanja, I.E. Grossmann, Simultaneous synthesis of distillation sequences in overall process schemes using an improved minlp approach, Computers & Chemical Engineering, 1996, 20, 12, 1425

    CrossRef

  46. 46
    Arthur W. Westerberg, Oliver Wahnschafft, 1996,

    CrossRef

  47. 47
    Y. Qian, K.M. Lien, Rule based synthesis of separation systems by predictive best first search with rules represented as trapezoidal numbers, Computers & Chemical Engineering, 1995, 19, 11, 1185

    CrossRef

  48. 48
    Yu Qian, Kristian M. Lien, Application of a fuzzy match inference strategy in synthesis of separation systems, The Canadian Journal of Chemical Engineering, 1994, 72, 4
  49. 49
    P. Floquet, L. Pibouleau, S. Aly, S. Domenech, Fuzzy heuristic approach for sharp separation sequence synthesis, Computers & Chemical Engineering, 1994, 18, 9, 785

    CrossRef

  50. 50
    P. Floquet, L. Pibouleau, S. Domenech, Separation sequence synthesis: How to use simulated annealing procedure?, Computers & Chemical Engineering, 1994, 18, 11-12, 1141

    CrossRef

  51. 51
    H. WAHYU, R. M. WOOD, B. K. O'NEILL, J. R. ROACH, FINDING THE OPTIMUM SEQUENCE OF DISTILLATION COLUMNS USING THEA* SEARCH PROCEDURE, Engineering Optimization, 1993, 21, 1, 51

    CrossRef

  52. 52
    Octavian Iordache, Jean-Pierre Corriou, Daniel Tondeur, Separation sequencing. use of information distance, The Canadian Journal of Chemical Engineering, 1993, 71, 6
  53. 53
    P. Floquet, L. Pibouleau, S. Domenech, Agencement de colonnes de rectification complexes, The Chemical Engineering Journal, 1991, 47, 2, 119

    CrossRef

  54. 54
    Y.-M. Chen, Y.W. Huang, L.T. Fan, An approximation formula for evaluating the number of possible schemes for 1FmP separation problems, Separations Technology, 1991, 1, 4, 222

    CrossRef

  55. 55
    Mahesh K. Garg, James G. Linders, Peter L. Douglas, An expert system for identifying separation processes, The Canadian Journal of Chemical Engineering, 1991, 69, 1
  56. 56
    K.E. Porter, S.O. Momoh, Finding the optimum sequence of distillation columns - an equation to replace the “rules of thumb” (heuristics), The Chemical Engineering Journal, 1991, 46, 3, 97

    CrossRef

  57. 57
    S.K. Mallick, Synthesis of stagewise separation processes, Computers & Chemical Engineering, 1991, 15, 6, 427

    CrossRef

  58. 58
    Thomas E. Quantrille, Y.A. liu, Artificial Intelligence in Chemical Engineering, 1991,

    CrossRef

  59. 59
    Y.W. HUANG, L.T. FAN, Artificial Intelligence in Process Engineering, 1990,

    CrossRef

  60. 60
    M. Bezzina, L. Pibouleau, S. Domenech, A statistical approach to the synthesis of separation sequences, Computers & Chemical Engineering, 1989, 13, 6, 651

    CrossRef

  61. 61
    D. Mocsny, R. Govind, Multiple-feed, pure-product separation system synthesis, Computers & Chemical Engineering, 1989, 13, 7, 839

    CrossRef

  62. 62
    Scott M. Wheelwright, The design of downstream processes for large-scale protein purification, Journal of Biotechnology, 1989, 11, 2-3, 89

    CrossRef

  63. 63
    Magdi Labib Zaki, En Sup Yoon, The energy saving effects of complex heat-integrated distillation configurations, Korean Journal of Chemical Engineering, 1989, 6, 3, 185

    CrossRef

  64. 64
    P.B. Gadkari, R. Govind, Analytical screening criterion for sequencing of distillation columns, Computers & Chemical Engineering, 1988, 12, 12, 1199

    CrossRef

  65. 65
    Y.W. Huang L.T. Fan, Fuzzy logic rule based system for separation sequence synthesis: An object-oriented approach, Computers & Chemical Engineering, 1988, 12, 6, 601

    CrossRef

  66. 66
    P Floquet, L Pibouleau, S Domenech, Mathematical programming tools for chemical engineering process design synthesis, Chemical Engineering and Processing: Process Intensification, 1988, 23, 2, 99

    CrossRef

  67. 67
    M. Shoaei, S.S. Lorensen, D.W. Tedder, A tree search methodology based on sequential dynamic programming and set analysis, Computers & Chemical Engineering, 1987, 11, 5, 469

    CrossRef

  68. 68
    Kristian Lien, Go Suzuki, Arthur W. Westerberg, The role of expert systems technology in design, Chemical Engineering Science, 1987, 42, 5, 1049

    CrossRef

  69. 69
    L. Pibouleau, S. Domenech, Discrete and continuous approaches to the optimal synthesis of distillation sequences, Computers & Chemical Engineering, 1986, 10, 5, 479

    CrossRef

  70. 70
    Masaaki Muraki, Kenichi Kataoka, Toyohiko Hayakawa, Evolutionary synthesis of a multicomponent multiproduct separation process, Chemical Engineering Science, 1986, 41, 7, 1843

    CrossRef

  71. 71
    M. J. Andrecovich, A. W. Westerberg, A Simple Synthesis Method Based on Utility Bounding for Heat-Integrated Distillation Sequences, AIChE Journal, 1985, 31, 3
  72. 72
    J.M. Douglas, M.F. Malone, M.F. Doherty, The interaction between separation system synthesis and process synthesis, Computers & Chemical Engineering, 1985, 9, 5, 447

    CrossRef

  73. 73
    Arthur W. Westerberg, The synthesis of distillation-based separation systems, Computers & Chemical Engineering, 1985, 9, 5, 421

    CrossRef

  74. 74
    L. Pibouleau, A. Said, S. Domenech, Synthesis of optimal and near-optimal distillation sequences by a bounding strategy, The Chemical Engineering Journal, 1983, 27, 1, 9

    CrossRef

  75. 75
    Don C. Faith, Manfred Morari, Synthesis of distillation schemes with energy integration, Computers & Chemical Engineering, 1979, 3, 1-4, 269

    CrossRef

  76. 76
    C. Judson King, Selection and Sequencing of Separations, Separation Science, 1974, 9, 6, 493

    CrossRef