2004
DOI: 10.1021/ie0401004
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Solid Hollow Fiber Cooling Crystallization

Abstract: Solid hollow fiber cooling crystallization (SHFCC) is a new technique suitable for crystal size distribution (CSD) control of aqueous/organic systems from bench to industrial scale. Solid hollow fiber devices possessing good temperature control and operational flexibility can serve as seed/nuclei generators, stand-alone crystallizers, or supersaturation creation devices. Operating schemes implemented include feed recycling, once-through, and solid hollow fiber crystallizer−completely stirred tank (SHFC−CST) in… Show more

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Cited by 38 publications
(41 citation statements)
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“…On the other hand, the smaller the ID the better is the temperature control for cooling crystallization. The smaller the ID the lower is the difference in the temperature between the wall and the centerline leading to a much reduced level of difference in the supersaturation levels at different radial locations (Zarkadas and Sirkar, 2004).…”
Section: Shfcc Module Fabricationmentioning
confidence: 99%
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“…On the other hand, the smaller the ID the better is the temperature control for cooling crystallization. The smaller the ID the lower is the difference in the temperature between the wall and the centerline leading to a much reduced level of difference in the supersaturation levels at different radial locations (Zarkadas and Sirkar, 2004).…”
Section: Shfcc Module Fabricationmentioning
confidence: 99%
“…To overcome most of the deficiencies of previous techniques, we have adapted the solid hollow fiber cooling crystallization (SHFCC) method developed earlier (Zarkadas and Sirkar, 2004). In the SHFCC, a solution of the drug to be crystallized flows in the bore of a solid hollow fine fiber whose wall is impervious; a cold liquid flows on the shell side of this hollow fine fiber in a countercurrent direction setting up a rapid and highly efficient heat exchange (Song et al, 2010) leading to cooling-based crystallization of the solute in the lumen-side liquid.…”
Section: Introductionmentioning
confidence: 99%
“…2.3 [67,84]. For instance, Zarkadas et al [79] used membrane cooling crystallisation to crystallise potassium nitrate in a solid hollow fibre crystalliser in a stirred tank. The crystals obtained were 3-4 times smaller in average crystal size compared to crystals produced by conventional cooling crystallisation approach.…”
Section: Membrane Crystallisationmentioning
confidence: 99%
“…Membrane crystallisation offers several advantages over traditional crystallisation technologies by being less energy intensive [61,83,94]. This process also provides effective means for crystal size control [79,[95][96][97], in addition to attaining heterogeneous nucleation, thus reducing the levels of supersaturation needed for crystallisation by providing a nucleation site [67,70,91,98]. Another important advantage found with membrane crystallisation is the scalability of the systems [99].…”
Section: Membrane Crystallisationmentioning
confidence: 99%
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