Scale-up production of apple essences/hydroxypropyl-beta-cyclodextrin inclusion complexes: effects of the impeller type and the rotational speed on the characteristics of the inclusion complexes

International Journal of Chemical Reactor Engineering Pub Date : 2024-02-16 DOI:10.1515/ijcre-2023-0166

Juan Huang, Taoting Li, Yu Yang, Mingyang Dai, Zuobing Xiao, Haiyan Yu, Chen Chen, H. Tian

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Abstract

Cyclodextrins (CDs), due to its unique ‘outer hydrophilic and inner hydrophobic’ structure, can be used as excellent carriers to protect active aroma compounds. The hydrodynamic conditions in the reactor substantially influence the characteristics of the cyclodextrin inclusions. Based on this, this study investigated the effects of the impeller type and the rotational speed on the characteristics of the inclusion complexes, meanwhile the corresponding scale-up process was also investigated. Results showed that the pitched blade turbine was the optimum impeller due to better axial flow performance. The average particle size, polydispersity index (PDI), loading capacity and the major aroma concentration of the inclusion complexes prepared at 5 and 120 L reactors did not have significant difference compared to the inclusion complexes prepared at 0.5 L reactor under conditions of geometry similarity and constant power per unit volume, which verified the feasibility of the scale-up rule of the encapsulation process.

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苹果精/羟丙基-beta-环糊精包合物的规模化生产：叶轮类型和转速对包合物特性的影响

环糊精（CD）具有独特的 "外亲水、内疏水 "结构，可用作保护活性芳香化合物的优良载体。反应器中的流体力学条件对环糊精夹杂物的特性有很大影响。基于此，本研究考察了叶轮类型和转速对包合物特性的影响，同时还考察了相应的放大过程。结果表明，斜叶涡轮具有更好的轴向流动性能，是最佳的叶轮。在几何形状相似和单位体积功率恒定的条件下，5 L 和 120 L 反应器制备的包合物的平均粒径、多分散指数（PDI）、装载量和主要芳香物质浓度与 0.5 L 反应器制备的包合物相比没有显著差异，这验证了封装工艺放大规则的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Chemical Reactor Engineering

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