Project Details
Abstract
Low-pressure crystallization at three-phase equilibrium (distillative freezing, DF)
technology is first introduced by Cheng and Cheng (1980) to separate the mixture of the volatile
compounds with close boiling temperatures at a reduced pressure. Basically, the DF process is
operated at triple point condition, in which the liquid mixture is simultaneously vaporized and
solidified due to the three-phase equilibrium. It results in the formation of pure crystals, and
liquid phase and vapor phase of mixtures. The process is continued until the liquid phase is
completely eliminated and only the pure solid crystals remain in the feed. The low-pressure
vapor formed in the process is condensed and removed. Therefore, it is a distillative
crystallization technology, which combines distillation and crystallization to result in pure
crystal products. Shiau et al. (2005, 2006) described the basic principle of DF and successfully
applied DF in the separation of the xylene mixtures.
In the conventional crystallization, filtration or centrifugation is needed to separate the
solid crystals from the mother liquor. Then the crystalline mass is purified by a partial melting
of the crystals to wash out adhering impurities on the crystal surfaces. However, the DF process
is continued until the liquid phase is completely eliminated and only the pure crystals remain in
the feed. The low-pressure vapor formed in the process is condensed and removed.
Subsequently filtration or centrifugation is not needed since no mother liquor is present with the
pure crystals. In addition, crystal washing is not required since only the pure solid crystals
remain in the feed and no impurities are adhered on the crystal surfaces at the end of the
operation. As the heat of vaporization is supplied by the heat of crystallization in DF, it is an
energy-conserving separation method. In addition, no chemicals are added in DF. It is also a
clean separation technology.
This two-year proposal is to investigate the feasibility of low-pressure crystallization at
three-phase equilibrium in separating the close-boiling compounds for industrial application.In the first year, the basic principle will be examined in detail. Besides, the heat transfer rate
and crystallization rate will be studied. Application of this method for various close-boiling
compounds will be studied. The mechanism of the impurity incorporated into crystals will
also be investigated. Besides, this technique will be extended for separation and purification
from a multi-component system. In the second year, the model will be developed for a
continuous low-pressure crystallization system. As the design of industrial-scale equipment
is a challenging problem since an efficient process is required to provide the liquid mixture
with a large exposure surface area available for simultaneous vaporization and crystallization
during a series of three-phase equilibrium at reduced temperature and pressure. A continuous
low-pressure crystallization system will be developed for industrial application.
Project IDs
Project ID:PB9709-3559
External Project ID:NSC97-2221-E182-022
External Project ID:NSC97-2221-E182-022
Status | Finished |
---|---|
Effective start/end date | 01/08/08 → 31/07/09 |
Keywords
- three-phase equilibrium
- crystallization
- purification
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