Premium
A Simple Synthesis Method Based on Utility Bounding for Heat‐Integrated Distillation Sequences
Author(s) -
Andrecovich M. J.,
Westerberg A. W.
Publication year - 1985
Publication title -
aiche journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.958
H-Index - 167
eISSN - 1547-5905
pISSN - 0001-1541
DOI - 10.1002/aic.690310303
Subject(s) - reboiler , distillation , condenser (optics) , process engineering , tray , computer science , simple (philosophy) , constant (computer programming) , continuous distillation , bounding overwatch , product (mathematics) , fractionating column , range (aeronautics) , evaporator , batch distillation , mathematics , chemistry , engineering , fractional distillation , mechanical engineering , heat exchanger , chromatography , artificial intelligence , philosophy , aerospace engineering , optics , geometry , epistemology , programming language , light source , physics
In this paper a new method is presented which will enable engineers to select better heat‐integrated distillation systems quickly and easily. The key to this method is making the assumption that Q Δ T , the product of the condenser or reboiler duty and the temperature difference between the reboiler and condenser, is constant for a single distillation task over a wide range of pressures. Using this assumption and the principles of multieffect distillation, a lower bound on the utility use for single distillation tasks and for distillation sequences is readily calculated for designs involving simple two‐product columns that may not be multieffected. This paper also describes methods which can be used to synthesize distillation systems which approach these bounds. Finally, an algorithm is presented which develops the least cost distillation system for separating a multicomponent feed. The methods in this paper are illustrated with a five‐component example problem.