Abstract
This paper reports the outcome of the examination of the effect of mixing intensity on the secondary nucleation mechanism of seeded crystallization of sodium chlorate in various configurations of stirred tank crystallizer (STC) and oscillatory baffled crystallizer (OBC). The results show that for the STC, an un-scraped system always yielded crystals of the same enantiomorphism as the seed crystal. The introduction of scraping to the STC resulted in product crystals of the opposite enantiomorphism to the seed being formed, however changing the rate of stirring (RPM) had no influence over the percentage similarity to the seed crystal. For the OBC, scraping always gave a product crystal crop with less than 100% similarity to the seed. Similarly, this was unaffected by altering the frequency of oscillation. Removing the scraping effect brought an increase of the similarity to the seed but the product crystals never reached 100% similarity to the seed enantiomorphism. For both scraped and un-scraped OBCs, reduction of the oscillation amplitude did increase the similarity of the products to the seed and 100% similarity to the seed was repeatedly achieved at the lowest operating amplitude for the un-scraped OBC. These findings provide further insight into the nucleation mechanism in the OBC and suggest that an alternative mechanism to that in the STC is observed.
Original language | English |
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Pages (from-to) | 690-697 |
Journal | CrystEngComm |
Volume | 16 |
Issue number | 4 |
DOIs | |
Publication status | Published - 28 Jan 2014 |
Keywords
- CHIRAL-SYMMETRY-BREAKING
- PARTICLE IMAGE VELOCIMETRY
- CONTACT NUCLEATION
- AQUEOUS SOLUTION
- FLOW
- COLUMN
- TUBES
- MECHANISMS
- CONVECTION
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Xiongwei Ni
- School of Engineering & Physical Sciences - Professor
- School of Engineering & Physical Sciences, Institute of Mechanical, Process & Energy Engineering - Professor
- School of Engineering & Physical Sciences, Institute of Chemical Sciences - Professor
Person: Academic (Research & Teaching)