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A low‐energy solvent separation method
Author(s) -
Gutowski T. G.,
Suh N. P.,
Cangialose C.,
Berube G. M.
Publication year - 1983
Publication title -
polymer engineering and science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.503
H-Index - 111
eISSN - 1548-2634
pISSN - 0032-3888
DOI - 10.1002/pen.760230413
Subject(s) - lower critical solution temperature , polybutadiene , spinodal decomposition , solvent , materials science , polymer , thermodynamics , separation (statistics) , process engineering , separation process , hexane , phase (matter) , computer science , organic chemistry , chromatography , copolymer , chemistry , physics , composite material , machine learning , engineering
This paper presents a new low‐energy method to separate solvents from polymers. The method is based upon the lower critical solution temperature (LCST), a phenomenon exhibited by all nonpolar polymer‐solvent systems. Three key issues concerning this new separation method are discussed for the specific system of high cis polybutadiene in a commercial grade n‐hexane. The first issue, energy cost, is greatly reduced from present commercial separation processes by avoiding the liquid‐vapor phase transition for more than half of the solvent. The predicted energy cost for the new method (not including inefficiencies) is about 15 percent of the present energy cost (including inefficiencies). The second issue, recycling of the dilute phase with terminator, is shown not to be a serious problem, and a solution is suggested based upon available methods. The third issue discussed, and perhaps the most difficult, is the physical separation of the two phases. This is solved by inducing spinodal decomposition, which leads to rapid gravity separation. Several alternative separation scenarios based upon this idea are presented at the end of the article.