Simultaneous preferential crystallization in a coupled batch operation mode. Part II: Experimental study and model refinement |
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Authors: | Martin Peter Elsner Grzegorz Ziomek Andreas Seidel-Morgenstern |
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Affiliation: | aMax Planck Institute for Dynamics of Complex Technical Systems, Sandtorstr. 1, 39106 Magdeburg, Germany;bDepartment for Chemical Engineering, Otto von Guericke University, Universitätsplatz 2, 39106 Magdeburg, Germany |
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Abstract: | In the previous part of this series a parametric study was presented to assess theoretically the performance of a novel crystallizer configuration. Complementary, the present work addresses a comprehensive, systematic experimental examination accompanied by an analysis of some relevant process parameters (mass of seeds, CSD of seeds, starting point for the mother liquor exchange, process duration) of two general concepts for preferential crystallization in which the amino acid threonine dissolved in water was used as a model system. In the first step of investigations, the impact of these process parameters was studied for conventional single batch crystallization. The experimental results are discussed and compared with the theoretical ones. Moreover, a configuration consisting of two coupled crystallization vessels was investigated. The specific manipulation of the concentration profiles of each enantiomer in solution as well as of the temperature profiles was found to be suitable to enhance the process performance. This is reflected by higher achievable process productivities and higher product purities. |
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Keywords: | Threonine Enantioseparation Simple isothermal batch preferential crystallization Decoupled isothermal batch preferential crystallization Coupled isothermal batch preferential crystallization Coupled polythermal batch preferential crystallization |
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