Optimization of a simulated-moving-bed process for continuous separation of racemic and meso-2,3-butanediol using an efficient optimization tool based on nonlinear standing-wave-design method
- Authors
- Lee, Chung-Gi; Jo, Cheol Yeon; Lee, Ki Bong; Mun, Sungyong
- Issue Date
- 1-1월-2021
- Publisher
- ELSEVIER
- Keywords
- Simulated moving bed; Standing wave design; racemic-2,3-Butanediol; meso-2,3-Butanediol; Continuous separation
- Citation
- SEPARATION AND PURIFICATION TECHNOLOGY, v.254
- Indexed
- SCIE
SCOPUS
- Journal Title
- SEPARATION AND PURIFICATION TECHNOLOGY
- Volume
- 254
- URI
- https://scholar.korea.ac.kr/handle/2021.sw.korea/50180
- DOI
- 10.1016/j.seppur.2020.117597
- ISSN
- 1383-5866
- Abstract
- The feasibility of using a simulated-moving-bed (SMB) process for continuous-mode separation of biotechnologically produced 2,3-butanediol (BD) into racemic-BD and meso-BD has been verified recently. One of the important tasks for facilitating the industrial application of such a BD-isomer separation SMB is to make a substantial improvement in its production rate and/or productivity while meeting the requirements on BD-isomer purities and pressure drop. To address this issue, the comprehensive optimization for a BD-isomer separation SMB was attempted in this study. First, an efficient SMB optimization tool based on a Langmuir isotherm standing-wave-design method was prepared and then applied to comprehensively optimizing the operation and system parameters of the considered SMB. The results revealed that the production rate (Prate), under a given column length, could reach its maximum when feed concentration (C-feed,C-BD) was selected at the one where the negative effect of nonlinearity increase on Prate could be balanced with the positive effect of C-feed,C- BD increase on Prate. The Prate could be improved further by modulating column length (L-c) to be a little lager than the Lc leading to a maximum in feed flow rate (Q(feed)), which was effective in increasing C-feed,C- BD high enough to outweigh the resultant decrease of Q(feed). It was also found that the productivity (Prod) could be enhanced by adopting the L-c smaller than that for a maximum in Q(feed), which could allow a sufficiently large savings of adsorbent to outweigh the resultant decrease of Q(feed) and C-feed,C-BD. Finally, it was confirmed that the comprehensively optimized SMB in this study could lead to more than 17 times the Prate and Prod, compared to the previously reported BD-isomer separation SMB.
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Collections - College of Engineering > Department of Chemical and Biological Engineering > 1. Journal Articles
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