Immobilized yeast cell systems for continuous fermentation applications

被引:0
作者
Pieter J. Verbelen
David P. De Schutter
Filip Delvaux
Kevin J. Verstrepen
Freddy R. Delvaux
机构
[1] Katholieke Universiteit Leuven,Centre for Malting and Brewing Science, Faculty of Bioscience Engineering
[2] Harvard University,Bauer Center for Genomics Research, Room 104
来源
Biotechnology Letters | 2006年 / 28卷
关键词
Beer production; Fermentation technology; Flocculation; Yeast physiology;
D O I
暂无
中图分类号
学科分类号
摘要
In several yeast-related industries, continuous fermentation systems offer important economical advantages in comparison with traditional systems. Fermentation rates are significantly improved, especially when continuous fermentation is combined with cell immobilization techniques to increase the yeast concentration in the fermentor. Hence the technique holds a great promise for the efficient production of fermented beverages, such as beer, wine and cider as well as bio-ethanol. However, there are some important pitfalls, and few industrial-scale continuous systems have been implemented. Here, we first review the various cell immobilization techniques and reactor setups. Then, the impact of immobilization on cell physiology and fermentation performance is discussed. In a last part, we focus on the practical use of continuous fermentation and cell immobilization systems for beer production.
引用
收藏
页码:1515 / 1525
页数:10
相关论文
共 154 条
[1]  
Bardi EP(1997)Room and low temperature brewing with yeast immobilized on gluten pellets Proc Biochem 32 691-696
[2]  
Koutinas AA(1997)Localization and cell surface anchoring of the Saccharomyces cerevisiae flocculation protein Flo1p J Bacteriol 179 4929-4936
[3]  
Kanellaki M(2004a)Continuous primary fermentation of beer with yeast immobilized on spent grains – the effect of operational conditions J Am Soc Brew Chem 62 29-34
[4]  
Bony M(2004b)Physicochemical surface properties of brewing yeast influencing their immobilization onto spent grains in a continuous reactor Biotechnol Bioeng 88 84-93
[5]  
Thines-Sempoux D(2004)Continuous pilot plant-scale immobilization of yeast in (-carrageenan gel beads AIChE J 50 1599-1605
[6]  
Barre P(2000)Applications of yeast flocculation in biotechnological processes Biotechnol Bioprocess Eng 5 288-305
[7]  
Blondin B(1986)Effects of immobilization on growth, fermentation properties, and molecular composition of Biotechnol Bioeng 28 73-87
[8]  
Brányik T(1990) attached to gelatin Enzyme Microb Technol 12 162-172
[9]  
Vicente A(2003)Fermentation pathway kinetics and metabolic flux control in suspended and immobilized Appl Environ Microbiol 69 4777-4787
[10]  
Cruz JMM(1990)Yeast genome-wide expression analysis identifies a strong ergosterol and oxidative stress response during the initial stages of an industrial lager fermentation Appl Microbiol Biotechnol 34 502-508
12345678910