Preparation of Whey Syrup by Immobilized β-Galactosidase

Food Science and Technology International, Tokyo Pub Date : 1998-02-25 DOI:10.3136/FSTI9596T9798.4.36

Shaohui Zhang, K. Imada, T. Ohashi

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引用次数: 1

Abstract

A pilot plant, with immobilized β-galactosidase (IMG) in a plug flow reactor, was established to prepare whey syrup from cheese whey. The effects of space velocity and lactose concentration on the initial rate of lactose hydrolysis (IRLH) and the operational temperature effect on the half-life and productivity of IMG were investigated. When the space velocity of whey was controlled at 0.6 l/(l·min), consolidation and channeling did not occur in the pilot plant. A better IRLH was obtained when the whey had high lactose concentration. With an increase in operational temperature in the pilot plant, the IRLH was increased. However, the half-life of IMG was shortened, as a result, the productivity of IMG decreased. The best temperature was 10°C for the operation of the pilot plant. The plant could be operated for as long as 50 days at 10°C if the IMG is washed by sterilized deionized water for 1 h each day. When the IRLH decreases to 10%, the IMG is treated by phosphate buffer solution (0.01 M, pH 6.4) and tetramethylammonium chloride solution (0.03%, pH 2.5) for 30 min, respectively. These results show that the developed pilot plant had prospects in the dairy industry because it could be operated continuously for a long period, the washing and sterilization were simple, and the rate of lactose hydrolysis (RLH) was more than 80% in the whey syrup.

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固定化β-半乳糖苷酶制备乳清糖浆

采用塞流反应器固定化β-半乳糖苷酶(IMG)制备干酪乳清糖浆。考察了空速和乳糖浓度对乳糖水解初始速率(IRLH)的影响以及操作温度对IMG半衰期和产率的影响。当乳清空速控制在0.6 l/(l·min)时，中试装置不发生固结和窜槽现象。当乳清的乳糖浓度较高时，IRLH较好。随着中试装置运行温度的升高，IRLH也随之升高。但IMG的半衰期缩短，导致生产效率下降。中试装置的最佳运行温度为10℃。如果每天用消过毒的去离子水洗涤IMG 1小时，则可在10°C下运行长达50天。当IRLH降至10%时，分别用磷酸盐缓冲液(0.01 M, pH 6.4)和四甲基氯化铵溶液(0.03%，pH 2.5)处理IMG 30min。结果表明，该装置可长时间连续运行，清洗杀菌简单，乳清糖浆中乳糖水解率可达80%以上，在乳制品工业中具有广阔的应用前景。

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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Food Science and Technology International, Tokyo

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