M. Soupioni scite author profile

A biocatalyst was prepared by immobilization of Saccharomyces cerevisiae strain AXAZ-1 on delignified cellulosic (D.C.) material and studied in the fermentation of wort for batch and continuous brewing. The immobilized yeast gave an important operational stability without decrease of its activity, even at low temperatures (0-5°C), compared with free cells. Batch fermentations at various temperatures were faster than those of free cells and those usual in commercial brewing. A traditional bottom fermentation takes 8-10 days. Specifically, at 0°C, the fermentation rate was 4-5 times higher than that of free cells. Diacetyl and polyphenol contents as well as bitterness and pH were lower than those when free cells were used for fermentations; at 0°C, polyphenol content was ∼30% and bitterness 50% of the values noted when free cells were used for fermentations. The alcohol concentration at 0°C was ∼20% higher than that of free cells. The continuous system was operated continuously for 3 months with relatively high productivity. However, polyphenols and bitterness were higher than those obtained in batch fermentations with immobilized cells. Preliminary taste tests indicated that the beer produced by the immobilized cell process had an acceptable clarity, aroma, and taste.

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Production of freeze-dried kefir culture using whey

Papavasiliou

Kourkoutas

Rapti

et al. 2008

International Dairy Journal

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Neutron activation analysis and natural radioactivity measurements of lignite and ashes from Megalopolis basin, Greece

Papaefthymiou

Symeopoulos

Soupioni

2007

J Radioanal Nucl Chem

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M. Soupioni

Use of Saccharomyces cerevisiae cells immobilized on orange peel as biocatalyst for alcoholic fermentation

Diffusion mechanisms of multiple strontium species in clay

Immobilization of Yeast on Delignified Cellulosic Material for Low Temperature Brewing

Production of freeze-dried kefir culture using whey

Neutron activation analysis and natural radioactivity measurements of lignite and ashes from Megalopolis basin, Greece

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