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冷却结晶法制备的L-谷氨酸的长径比和晶体粒度分布对干燥特性的影响

Impact of aspect ratio and crystal size distribution of l-glutamic acid formed by cooling crystallization on drying characteristics.

作者信息

Lee Jong Beom, Kim Yu-Jin, Kim Kwang-Joo, Kim Geon-Hee, Lee Chanmin, Park Young Duk, An Jung-Chul, Yi Hyenoseok, Oh Kyeongseok, Park Joo-Il

机构信息

Department of Chemical & Biological Engineering, Hanbat National University Daejeon 34158 Republic of Korea.

Department of Mechanics-Materials Convergence System Engineering, Hanbat National University Daejeon 34158 Republic of Korea.

出版信息

RSC Adv. 2025 Jan 2;15(1):83-93. doi: 10.1039/d4ra05935b.

DOI:10.1039/d4ra05935b
PMID:39758924
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11694432/
Abstract

This study investigated the impact of aspect ratio and crystal size distribution on the mother liquor content and drying rate of l-glutamic acid (LGA). LGA cooling crystallization was performed using two methods: spontaneous nucleation and seeding. First, to identify various crystalline forms of LGA and obtain α-form seeds, cooling crystallization was carried out through spontaneous nucleation and seeding. Seeding improved the aspect ratio of the crystals, and both α- and β-form crystals had hexagonal shapes when their aspect ratio was enhanced. During seeding, the aspect ratio of α-form seeds improved under slow cooling rates and low supersaturation, while that of β-form seeds improved under fast cooling rates and high supersaturation. When assessing drying efficiency based on mother liquor content and drying rate, the highest efficiency was observed in crystals with an average aspect ratio of 1.25 and an average particle diameter of 416 μm, with a mother liquor content of 5.60%. Conversely, the lowest efficiency was found in crystals with an average aspect ratio of 16.40 and an average particle diameter of 170 μm, resulting in a mother liquor content of 25.21%. The time required for complete drying in these two cases showed a roughly twofold difference, taking approximately 120 minutes for the highest efficiency case and 240 minutes for the lowest. Consequently, this study was able to evaluate the drying efficiency of LGA crystals with varying aspect ratios and other crystal size distributions (CSD) in terms of mother liquor content and drying rate.

摘要

本研究调查了长径比和晶体尺寸分布对L-谷氨酸(LGA)母液含量和干燥速率的影响。LGA冷却结晶采用两种方法进行:自然成核和晶种法。首先,为了识别LGA的各种晶型并获得α型晶种,通过自然成核和晶种法进行冷却结晶。晶种法提高了晶体的长径比,当α型和β型晶体的长径比增加时,它们均呈六边形。在晶种法过程中,α型晶种在缓慢冷却速率和低过饱和度下长径比提高,而β型晶种在快速冷却速率和高过饱和度下长径比提高。基于母液含量和干燥速率评估干燥效率时,观察到平均长径比为1.25且平均粒径为416μm的晶体干燥效率最高,母液含量为5.60%。相反,平均长径比为16.40且平均粒径为170μm的晶体干燥效率最低,母液含量为25.21%。这两种情况下完全干燥所需的时间显示出大约两倍的差异,最高效率的情况大约需要120分钟,最低效率的情况需要240分钟。因此,本研究能够根据母液含量和干燥速率评估不同长径比和其他晶体尺寸分布(CSD)的LGA晶体的干燥效率。

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本文引用的文献

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A Digital Mechanistic Workflow for Predicting Solvent-Mediated Crystal Morphology: The α and β Forms of l-Glutamic Acid.一种用于预测溶剂介导晶体形态的数字机理工作流程:L-谷氨酸的α和β晶型
Cryst Growth Des. 2022 May 4;22(5):3042-3059. doi: 10.1021/acs.cgd.1c01490. Epub 2022 Apr 11.