Applicability of different brewhouse technologies and gluten-minimization treatments for the production of gluten-free (barley) malt beers: Pilot-to industrial-scale

Publication date: Available online 19 September 2018Source: Journal of Food EngineeringAuthor(s): H.G. Watson, D. Vanderputten, A. Van Landschoot, A.I. DecloedtAbstractThe fate of gluten proteins and (poly)peptides throughout the brewing process of reference and gluten-minimized all-malt beers was monitored on both pilot-scale and industrial-scale. Common process steps such as wort separation, cooking, wort and beer clarification already significantly reduce the mass of gluten proteins (72–99%). Nevertheless, gluten derived (poly)peptides remained present at high concentrations in the final reference beers (58–397 ppm). A lauter tun, with course husk material as filter bed, showed to be more effective in reducing the mass of gluten proteins than a mash filter (33% vs. 18%). The mass of gluten proteins and (poly)peptides could be further significantly reduced (16–89% and 33–81% respectively) depending on the use of tannins, AN-PEP (Prolyl-endopeptidase from Aspergillus niger) and silica gel. To render all-barley malt beers gluten-free (≤20 ppm) (EC No 41/2009, 2009) gluten-minimization treatments with AN-PEP and silica gel were combined successfully; these beers contained <5 ppm gluten proteins and <10 ppm gluten (poly)peptides.
Source: Journal of Food Engineering - Category: Food Science Source Type: research