Transfer rate measurement of lysozyme by liquid-liquid extraction using reverse micelles with dense CO<sub>2</sub>

Sun-Mi Jung; Un-Mi Shin; Md. Salim Uddin; Sun-Young Park; Hideki Kishimura; Gordon Wilkinson; Byung-Soo Chun

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Transfer rate measurement of lysozyme by liquid-liquid extraction using reverse micelles with dense CO₂

机译：用浓CO _{2 反胶束液-液萃取法测定溶菌酶的转移速率}

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Lysozyme was extracted from aqueous solution into i-octane using reverse micelles in the presence of pressurized CO₂. A squat vessel with two independent stirrers was used to measure the mass transfer of the lysozyme across a planar interface. Mass transfer coefficient, k_L of the lysozyme from the aqueous to the organic phase was measured at selected ionic strengths, pH, sodium bis(2-ethylhexyl) sulfosuccinate (AOT) surfactant concentrations, temperatures and pressurized CO₂. The mass transfer rate of lysozyme was higher in high temperature (318 K) and pressure (20MPa). pH of 9 in aqueous phase showed highest mass transfer rate of lysozyme. The application of pressurized CO2 markedly increased the mass transfer rate of lysozyme comparing to conventional non-pressurized system.

机译：在加压的CO _{2 存在下，使用反胶束将水溶液中的溶菌酶提取到异辛烷中。使用带有两个独立搅拌器的深蹲器来测量溶菌酶在平面界面上的传质。在选定的离子强度，pH，双（2-乙基己基）磺基琥珀酸钠（AOT）表面活性剂浓度，温度和加压CO的条件下测量溶菌酶从水相到有机相的传质系数k _{L _{2 。在高温（318 K）和压力（20MPa）下，溶菌酶的传质速率较高。在水相中，pH值为9时溶菌酶的传质速率最高。与常规非加压系统相比，加压CO2的应用显着提高了溶菌酶的传质速率。}}}

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《Korean Journal of Chemical Engineering》 |2010年第2期|p.596-601|共6页
作者
Sun-Mi Jung; Un-Mi Shin; Md. Salim Uddin; Sun-Young Park; Hideki Kishimura; Gordon Wilkinson; Byung-Soo Chun;
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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);
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1. Transfer rate measurement of lysozyme by liquid-liquid extraction using reverse micelles with dense CO_2 [J] . Sun-Mi Jung, Un-Mi Shin, Md. Salim Uddin, The Korean journal of chemical engineering . 2010,第2期

机译：反向胶束与浓CO_2的液-液萃取法测定溶菌酶的转移速率
2. Mass transfer characterization in forward and back extractions of lysozyme by AOT-isooctane reverse micelles across a flat liquid-liquid interface [J] . Nishiki T., Sato I., Muto A., Biochemical Engineering Journal . 1998,第2aMara期

机译：AOT-异辛烷反胶团在平坦液-液界面上向前和向后提取溶菌酶的传质特性
3. Amino acid extraction and mass transfer rate in the reverse micelle system [J] . Zuhal Dovyap, Emine Bayraktar, Ulku Mehmetoglu Enzyme and Microbial Technology . 2006,第3a4期

机译：反胶束体系中氨基酸的提取及传质速率
4. MASS TRANSFER CHARACTERIZATION IN FORWARD AND BACK EXTRACTIONS OF AN AMINO ACID BY REVERSE MICELLES ACROSS A FLAT LIQUID-LIQUID INTERFACE [C] . Tadaaki Nishiki, Kiyohiko Nakamura, Daisaburo Kato International solvent extraction conference . 2001

机译：通过扁平液体界面反转胶束向前和背部提取氨基酸的传质表征
5. Development of Novel and Effective Methods for the Extraction of Neodymium Using Sodium Bis(2-Ethylhexyl) Sulfosuccinate Reverse Micelles [D] . Anderson, Shannon Patrice. 2017

机译：使用双（2-乙基己基）磺基琥珀酸钠反转胶束提取钕的新颖有效方法
6. Determination of Two Antiepileptic Drugs in Urine by Homogenous Liquid-Liquid Extraction Performed in A Narrow Tube Combined with Dispersive Liquid-liquid Microextraction Followed by Gas Chromatography-flame Ionization Detection [O] . Behruz Feriduni, Mir Ali Farajzadeh, Abolghasem Jouyban 2019

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7. Reverse Micelle liquid-liquid extraction of bovine serum albumin and lysozyme [O] . Mohd. Setapar Siti Hamidah, Mohamad Aziz Siti Norazimah, Joanne Constant 2012

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Transfer rate measurement of lysozyme by liquid-liquid extraction using reverse micelles with dense CO2

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Transfer rate measurement of lysozyme by liquid-liquid extraction using reverse micelles with dense CO₂