Continuous long-term hydrolysis of wheat gluten using aprincipally food-grade enzyme membrane reactor system

Publication Type

Journal contribution (peer reviewed)

Authors

Merz, M.; Eisele, T.; Claaßen, W.; Appel, D.; Rabe, S.; Stressler, T.; Fischer, L.

Year of publication

2015

Published in

Biochemical Engineering Journal

Pubisher

Elsevier

ISBN / ISSN / eISSN

1369-703X

DOI

10.1016/j.bej.2015.03.019

Page (from - to)

114 - 123

The potential of the enzyme membrane reactor technology has been shown in several studies. In our study, we designed a principally food-grade continuous long-term hydrolysis process of wheat gluten in an enzyme membrane reactor with the proteolytic enzyme preparation Flavourzyme^®. Among others, ethanol was the most suitable food-grade processing aid for avoiding contamination and showed high potential for application. The Flavourzyme^®/wheat gluten process was comprehensively characterized in the enzyme membrane reactor. Critical factors for the enzyme stability were the temperature, pump stress and enzyme leakage through the membrane. The hydrolysis and process conditions were optimized to increase the space-time yield. Respective process parameters were chosen to obtain sufficient microbial, enzyme and process stability for the whole process time. The long-term hydrolysis was carried out in the presence of 8 % (v/v) ethanol with a substrate concentration of 100 g L⁻¹ at 37 ^∘C and pH 7.5 for 96 h. The continuous process resulted in stable product quality (degree of hydrolysis) and space-time yield (6.33 g h⁻¹ L⁻¹) over time. However, a discontinuous removal of accumulated dry matter was inevitable for the present enzyme membrane reactor process and was performed for 30 min every 24 h. Due to the fact that the enzymes were reused, the enzyme productivity could be increased by 450 % compared to a reference batch process.