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Abstract.
Distillation column dynamics and control has been viewed by many as a
very mature or even dead field. However, as is discussed in this paper
significant new results have appeared over the last 5-10 years. These
results include multiple steady states and instability in simple
columns with ideal thermodynamics (which was believed to be
impossible), the understanding of the difference between various control
configurations and the systematic transformation between these, the
feasibility of using the distillate-bottom structure for control
(which was believed to be impossible), the importance of flow dynamics
for control studies, the fundamental problems in identifying models
from open-loops responses, the use of simple regression estimators to
estimate composition from temperatures, and an improved general
understanding of the dynamic behavior of distillation columns which
includes a better understanding of the fundamental difference between
internal and external flow, simple formulas for estimating the dominant
time constant, and a derivation of the linearizing effect of
logarithmic transformations. These issues apply to all columns, even
for ideal mixtures and simple columns with only two products. In
addition, there have been significant advances for cases with complex
thermodynamics and complex column configurations. These include the
behavior and control of azeotropic distillation columns, and the
possible complex dynamics of nonideal mixtures and of interlinked
columns. However, both for the simple and more complex cases there are
still a number of areas where further research is needed.