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Membrane‐Freeze Concentration Hybrid for Temperature‐Sensitive Biomolecules. Investigation Application and Techno‐Economic Benefits

机译：用于温度敏感生物分子的膜-冻结浓度混合体。研究应用和技术经济效益

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摘要

In order to close the technology gap between membrane technologies and spray/freeze‐drying ideally with a technology that avoids thermal stress to sensitive enzyme solutions, the limits of freeze concentration for this application have been investigated. On laboratory scale it was found that average crystal sizes are > 300 µm despite high viscosity and ice separation is possible up to 42 % solids and > 1000 mm²s⁻¹ viscosity. No activity loss was observed during concentration. A combination of two‐stage freeze concentration with a filter and wash column for ice liquid separation in an integrated setup with ultrafiltration has the greatest potential and was shown to be economically feasible in three out of four cases studied.

机译：为了缩小膜技术和喷雾/冷冻干燥之间的技术差距，理想的技术是避免对敏感酶溶液产生热应力，为此研究了冷冻浓度的极限。在实验室规模上，发现尽管具有高粘度，但平均晶体尺寸仍大于300微米，冰分离可能达到42％的固含量和大于1000毫米^{2 s ^{-1 粘度。在浓缩期间未观察到活性损失。在具有超滤功能的集成装置中，两级冷冻浓缩与过滤器和洗涤塔的组合用于冰液分离具有最大的潜力，并且在研究的四分之三案例中被证明在经济上是可行的。}}

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期刊名称 Wiley-Blackwell Online Open
作者
Timo van Beek; Michael Budde; Jan van Esch;
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作者单位

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年(卷),期 -1(41),12
年度 -1
页码 2385–2392
总页数 8
原文格式 PDF
正文语种
中图分类
关键词
Biomolecules Crystal size Freeze concentration Freeze‐drying Membrane separation Sensitive enzymes;

机译：生物分子;晶体大小;冷冻浓度;冷冻干燥;膜分离;敏感酶;

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1. Membrane-Freeze Concentration Hybrid for Temperature-Sensitive Biomolecules. Investigation, Application, and Techno-Economic Benefits [J] . van Beek Timo, Budde Michael, van Esch Jan Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology . 2018,第12期

机译：膜冷冻浓度杂种用于温度敏感的生物分子。调查，应用和技术经济效益
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7. Membrane-Freeze Concentration Hybrid for Temperature-Sensitive Biomolecules. Investigation, Application, and Techno-Economic Benefits [O] . Timo van Beek, Michael Budde, Jan van Esch 2018

机译：膜冷冻浓度杂种用于温度敏感的生物分子。调查，应用和技术经济效益

Membrane‐Freeze Concentration Hybrid for Temperature‐Sensitive Biomolecules. Investigation Application and Techno‐Economic Benefits

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