Journal
SEPARATION AND PURIFICATION TECHNOLOGY
Volume 124, Issue -, Pages 89-98Publisher
ELSEVIER
DOI: 10.1016/j.seppur.2014.01.014
Keywords
Tetrafluoroethylene; Polyimide membrane; Gas separation; Selectivity; Optimization
Categories
Funding
- National Science Fund for Distinguished Young Scholars of China [21125628]
- National High Technology Research and Development Program of China [2012AA03A611]
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Low-boiling-point impurities (CO, N-2 and O-2) strip away a considerable quantity of expensive tetrafluoroethylene (TFE) in the synthesis. The traditional acetone absorption cannot recover TFE satisfactorily, due to the inherent problems of cryogenic operation, complex process, acetone loss and pollution, etc. With the objective of cleanly and economically recovering TFE, the technique of coupling membrane unit to distillation is studied in this work. Polyimide membrane is selected after analyzing gas molecular properties (V-C and T-C). According to the actual permeation test with TFE distillation vent gas at 30 degrees C, alpha(O2/TFE) = 190.6, alpha(N2/TFE) = 29.1, alpha(CO/TFE) = 23.0, and J(TFE) = 0.1 GPU. TFE is concentrated in the high pressure residue, after slightly compressing which can be facilely recycled into distillation. Afterwards, process simulation and optimization preparing for the pilot test is fulfilled. For typical 5-kt/a TFE plants with a +/- 10% fluctuation, the optimum membrane area falls in the range of 440-550 m(2). The coupled distillation is operated with the original reboil ratio rather than the reflux ratio to refine TFE without consuming much more energy. The coupled membrane system decreases TFE loss to 38 t/a, superior to acetone absorption (50 t/a). Moreover, it can perfectly avoid the negative effect of volatile acetone. Thus, coupling polyimide membrane unit to distillation is a promising technique to improve TFE recovery in the synthesis. (C) 2014 Elsevier B.V. All rights reserved.
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