Free Access
RAIRO-Oper. Res.
Volume 19, Number 1, 1985
Page(s) 35 - 56
Published online 06 February 2017
  • 1. BILLON Optimisation d'un train de distillation, Document Rhône-Poulenc France transmis à l'Université, non publié, octobre 1981. [Google Scholar]
  • 2. N. DOUKAS et W. L. LUYBEN, Economics of Alternative Distillation Configurations for the Separation of Ternary Mixtures, Ind. Eng. Chem. Process Des. Dev., vol. 17, 1978, p. 272. [Google Scholar]
  • 3. A. GOMEZ et J. D. SEADER, Separation Sequence Synthesis by a Predictor Based Ordered Search, A.I.Ch.E. J., vol. 22, 1976, p. 970. [Google Scholar]
  • 4. M. GONDRAN et M. MINOUX, Graphes et algorithmes, Collection de la direction des Études et Recherches d'Electricité de France, Eyrolles, Paris, 1979. [MR: 615739] [Zbl: 0497.05023] [Google Scholar]
  • 5. K. M. GUTHRIE, Chem. Eng., vol. 24, 1969, p. 114. [Google Scholar]
  • 6. D. L. HEAVEN, Optimum Sequencing of Distillation Columns in Multicomponent Fractionnation, M. S. Thesis, Univ. of California, Berkeley, 1969. [Google Scholar]
  • 7. J. E. HENDRY et R. R. HUGHES, Generating Separation Process Flowsheets, Chem. Eng. Prog., vol. 68, 1972, p. 71. [Google Scholar]
  • 8. V. P. MAIKOV, G. G. VILKOV et A. V. GALTSOV Optimum Design of Multicolumn Fractionnating Plants from the Thermoeconomic Standpoint, Int. Chem. Eng., vol. 12, 1972, p. 426. [Google Scholar]
  • 9. P. A. MINDERMAN et D. W. TEDDER, Comparisons of Distillation Networks, A.I.Ch.E. Symposium Series, 1982, p. 69. [Google Scholar]
  • 10. R. NATH et R. L. MOTARD, Evolutionary Synthesis of Separation Processes, A.I.Ch.E. J., vol. 27, 1981, p. 578. [Google Scholar]
  • 11. N. NISHIDA, A. ICHIKAWA et E. TAZAKI, Synthesis of Optimal Process Systems with Uncertainty, Ind. Eng. Chem. Process Des. Dev., vol. 13, 1974, p. 209. [Google Scholar]
  • 12. N. NISHIDA et G. J. POWERS, On the Computational Technique of Optimal Synthesis Problem Using Structural Parameters, J. of Chem. Eng. of Jpn., vol.11, 1978, p.396. [Google Scholar]
  • 13. N. NISHIDA, G. STEPHANOPOULOS et A. W. WESTERBERG, A Review of Process Synthesis, A.I.Ch.E. J., vol. 27, 1981, p. 321. [Google Scholar]
  • 14. F. B. PETLYUK, V. M. PLATONOV et D. M. SLAVINKII, Thermodynamically Optimal Method for Separating Multicomponent Mixtures, Int. Chem. Eng., vol. 5, 1965, p. 555. [Google Scholar]
  • 15. R. N. S. RATHORE, K. A. VANWORNER et G. J. POWERS, Synthesis Strategies for Multicomponent Separation Systems with Energy Integration, A.I.Ch.E. J., vol. 20, 1974, p. 491. [Google Scholar]
  • 15. R. N. S. RATHORE, K. A. VANWORNER et G. J. POWERS, Synthesis in Distillation Systems with Energy Integration, A.I.Ch.E. J., vol.20, 1974, p. 940. [Google Scholar]
  • 16. F. R. RODRIGO et J. D. SEADER, Synthesis of Separation Sequences by Ordered Branch Search, A.I.Ch.E. J., vol. 21, 1975, p. 885. [Google Scholar]
  • 17. B. ROY, Algèbre moderne et théorie des graphes, t. 2, Dunod, Paris, 1970. [Zbl: 0238.90073] [MR: 260413] [Google Scholar]
  • 18. J. D. SEADER et A. W. WESTERBERG, A Combined Heuristic and Evolutionary Strategy for Synthesis of Simple Separation Sequences, A.I.Ch.E. J., vol. 23, 1977, p. 951. [Google Scholar]
  • 19. G. STEPHANOPOULOS et A. W. WESTERBERG, Studies in Process Synthesis-II, Chem.Eng. Sc., vol. 31, 1976, p. 195. [Zbl: 0278.49040] [Google Scholar]
  • 20. R. W. THOMPSON et C. J. KING, Systematic Synthesis of Separation Schemes, A.I.Ch.E. J., vol. 18, 1972, p. 941. [Google Scholar]
  • 21. T. UMEDA, A. HIRAI et A. ICHIKAWA, Synthesis of Optimal Processing System by an Integrated Approach, Chem. Eng. Sc, vol. 27, 1972, p. 795. [Google Scholar]
  • 22. A. W. WESTERBERG et G. STEPHANOPOULOS, Studies in Process Synthesis-I, Chem. Eng. Sc., vol. 30, 1975, p. 963. [Zbl: 0278.49040] [Google Scholar]

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