通过动力学和热力学混合过程的对映体选择性结晶

2018 4th International Conference on Green Technology and Sustainable Development (GTSD) Pub Date : 2018-11-01 DOI:10.1109/GTSD.2018.8595560

T. L. Minh, H. Lorenz, Andreas Seider-Morgenstern

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引用次数: 0

摘要

一种创新的对映体选择性结晶工艺利用了众所周知的动力学和热力学结晶方法的优点，例如优先和选择性结晶技术。这种方法允许从稍微富集的溶液中获得单个对映体。第一步采用多热自动播种优先结晶法使外消旋体结晶，使母液超过共晶点的限制。然后，从母液中除去溶剂，将该体系移动到两相域中，以获得纯目标对映体。本研究以扁桃酸为例，成功地应用了该技术。

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Enantio-selective Crystallization via a Kinetic and Thermodynamic Hybrid Process

An innovation enantio-selective crystallization process exploits advantages of both well known kinetic and thermodynamic crystallization methods, e.g. preferential and selective crystallization techniques. This approach allows to access single enantiomers from slightly enriched solutions. In the first step, polythermal auto-seeded preferential crystallization is applied to crystallize racemate and force the mother liquor come over the limitation of the eutectic point. After that, removing solvent from the mother liquor will move this system into a two phase domain to obtain the pure target enantiomer. This technique is successfully applied for the mandelic acid as a case study in this work.

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2018 4th International Conference on Green Technology and Sustainable Development (GTSD)

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