Chemical Engineering Research & Design, Vol.87, No.4A, 633-647, 2009
A new definition of mixing and segregation: Three dimensions of a key process variable
Although a number of definitions of mixing have been proposed in the literature, no single definition accurately and clearly describes the full range of problems in the field of industrial mixing. An alternate approach is proposed which defines segregation as being composed of three separate dimensions. The first dimension is the intensity of segregation quantified by the normalized concentration variance (CoV); the second dimension is the scale of segregation or clustering; and the last dimension is the exposure or the potential to reduce segregation. The first dimension focuses on the instantaneous concentration variance; the second on the instantaneous length scales in the mixing field; and the third on the driving force for change, i.e. the mixing time scale, or the instantaneous rate of reduction in segregation. With these three dimensions in hand, it is possible to speak more clearly about what is meant by the control of segregation in industrial mixing processes. In this paper, the three dimensions of segregation are presented and defined in the context of previous definitions of mixing, and then applied to a range of industrial mixing problems to test their accuracy and robustness. (C) 2009 The Institution of Chemical Engineers. Published by Elsevier B.V. All rights reserved.
Keywords:Mixing;Segregation;Exposure;Stirred tank;Static mixer;Micromixer;Multiscale processes;Spatial statistics;Multiphase mixing;Chaotic mixing;Turbulent mixing;Laminar mixing