Cyclodextrin production in hollow fiber membrane reactor system: Effect of substrate preparation

A.M. Mimi Sakinah; A.F. Ismail; R.M. Illias

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Cyclodextrin production in hollow fiber membrane reactor system: Effect of substrate preparation

机译：中空纤维膜反应器系统中环糊精生产：底物制备的影响

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Production and separation of cyclodextrins (CDs) were assessed by employing an enzymatic membrane reactor (EMR) system. Comparison between gelatinized and ungelatinized tapioca starch was conducted to identify the pre-eminent type of tapioca starch via its reaction kinetic and the behavior of the ultrafiltration membrane in an EMR system. Results showed that the Michaelis constant value (K_m) for gelatinized tapioca starch was 47% lesser than the ungelatinized tapioca starch, which indicates higher affinity and strong substrate binding with the employed cyclodextrin glycosyltransferase (CGTase). However, gelatinized tapioca starch generated high membrane fouling, which demonstrated 60% higher hydraulic resistances and 7% lower percentage of flux recovery than ungelatinized tapioca starch, due to the cake deposition associated with large swollen tapioca starch molecules.

机译：通过使用酶促膜反应器（EMR）系统评估环糊精（CD）的产生和分离。进行了糊化和未糊化的木薯淀粉的比较，以通过木薯淀粉的反应动力学和超滤膜在EMR系统中的行为来确定木薯淀粉的主要类型。结果表明，糊化的木薯淀粉的米氏常数（K_m）比未糊化的木薯淀粉的Michaelis常数小47％，这表明与使用的环糊精糖基转移酶（CGTase）的亲和力更高，底物结合力更强。但是，糊化的木薯淀粉会产生较高的膜污染，这与未糊化的木薯淀粉相比，具有较高的水力阻力和60％的通量回收率，这是由于与大的木薯淀粉分子溶胀有关的饼状沉积。

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《Separation and Purification Technology》 |2008年第1期|共9页
作者
A.M. Mimi Sakinah; A.F. Ismail; R.M. Illias;
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正文语种 eng
中图分类分离过程;
关键词
Cyclodextrins; Ultrafiltration; Michaelis-Menten kinetic; Hydraulic resistance; Flux recovery;

机译：环糊精;超滤;Michaelis-Menten动力学;耐液力;助焊剂回收;

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1. Cyclodextrin production in hollow fiber membrane reactor system: Effect of substrate preparation [J] . A.M. Mimi Sakinah, A.F. Ismail, R.M. Illias Separation and Purification Technology . 2008,第1期

机译：中空纤维膜反应器系统中环糊精生产：底物制备的影响
2. Preparation of polysulfone hollow fiber affinity membrane modified with mercapto and its recovery properties. II. Preparation of PSF-SH hollow fiber affinity membrane for recovery of Hg2+ [J] . Wang B, Cheng BW, Cui YF Journal of Applied Polymer Science . 2006,第6期

机译：巯基修饰的聚砜中空纤维亲和膜的制备及其回收性能。二。回收Hg2 +的PSF-SH中空纤维亲和膜的制备
3. Preparation of polysulfone hollow fiber affinity membrane modified with mercapto and its recovery properties. II. Preparation of PSF-SH hollow fiber affinity membrane for recovery of Hg2+ [J] . Wang B, Cheng BW, Cui YF Journal of Applied Polymer Science . 2006,第6期

机译：巯基修饰的聚砜中空纤维亲和膜的制备及其回收性能。二。回收Hg2 +的PSF-SH中空纤维亲和膜的制备
4. Hydrolysis Separation of Oily Substrate Catalyzed by Surfactant- Coated Lipase in Solvent-Free System in a Hollow Fiber Membrane Reactor [C] . DING Hui, SONG Baodong, WU Jinchuan, China-USA Joint Conference on Distillation Technology . 2004

机译：中空纤维膜反应器中溶剂系统中表面活性剂型脂肪酶催化的水解和分离
5. Enhanced high-fructose syrup production by an hybrid fermentation/pervaporation system using a silicone rubber hollow fiber membrane module. [D] . Gagne, Isabelle. 2001

机译：通过使用硅橡胶中空纤维膜组件的混合发酵/全蒸发系统，提高了高果糖糖浆的产量。
6. Pilot–Scale Production of Carbon Hollow Fiber Membranes from Regenerated Cellulose Precursor-Part I: Optimal Conditions for Precursor Preparation [O] . Shamim Haider, Jon Arvid Lie, Arne Lindbråthen, 1939

机译：从再生纤维素前体中试生产碳中空纤维膜-第一部分：前体制备的最佳条件
7. Effect of Substrate and Enzyme Concentration on Cyclodextrin Production in a Hollow Fibre Membrane Reactor System [O] . Mimi Sakinah A. M., Ismail A. F., Rosli Md. Illias, 2014

机译：中空纤维膜反应器系统中底物和酶浓度对环糊精生产的影响
8. Preparation of Composite Hollow-Fiber Reverse Osmosis Membranes by Plasma Polymerization. [R] . morosoff, n. 1978

机译：等离子体聚合制备复合中空纤维反渗透膜。

Cyclodextrin production in hollow fiber membrane reactor system: Effect of substrate preparation

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