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Published November 7, 1996 | public
Journal Article

Multiple Steady States in Distillation:  ∞/∞ Predictions, Extensions, and Implications for Design, Synthesis, and Simulation

Abstract

Bekiaris et al. (1993, 1996) presented a thorough study of the existence of multiple steady states in homogeneous and heterogeneous ternary azeotropic distillation based on the analysis of the case of infinite reflux and an infinite number of trays (∞/∞ case). In this paper, first we show how the ∞/∞ analysis and predictions can be extended to quaternary mixtures. Next, the implications of these multiplicities for column design, synthesis, and simulation are demonstrated. More specifically, we show how the ∞/∞ predictions can be useful for the selection of the entrainer, the equipment, and the separation scheme. We show that, in some cases, the column operation at an unstable steady state may have some advantages. The important issue of the effect of the thermodynamic phase equilibrium on the existence of multiplicities is discussed. Using the ∞/∞ analysis, we identify entire mixture classes for which multiplicities are inherent and robust. Mixtures with ambiguous VLE data are studied; we show that in some cases a slight VLE difference between models and/or experimental data may affect the existence of multiplicities while other, major VLE discrepancies do not. Finally, we identify the key issues and the pitfalls one should be cautious about when designing or computing the composition profile of an azeotropic distillation column with a commercial simulator.

Additional Information

© 1996 American Chemical Society. Received for review July 20, 1995. Revised manuscript received June 28, 1996. Accepted June 28, 1996. We gratefully acknowledge the financial support of the donors of the Petroleum Research Fund, administered by the American Chemical Society, and of the I. S. Latsis Foundation.

Additional details

Created:
August 19, 2023
Modified:
October 18, 2023