New EAP-Determination, including Beverage Antioxidative IndeX (BAX)
</a><strong>Background</strong><br>
For the prognosis of the flavor stability of beer the electron spin resonance (ESR) spectroscopy has been used for the determination of the lag time. The spin-trap reagent (PBN) used to assess the lag time has a significant impact on the results due to an increasing pH-value during the analysis, resulting in a falsification of the rations in a beer sample. <br><br> <strong>Technology</strong><br> We offer a novel method for the assessment of the endogenous antioxidative potential (EAP) of beer and other beverages using a different spin-trap reagent (POBN) in lower concentrations, which results in a beer matrix dependent, linear correlation between the SO2-content and the EAP-value. This correlation offers a new beneficial index number for the evaluation of the beer specific flavor stability (BAX: Beverage Antioxidative IndeX). The BAX provides additional information about the anti- and pro-oxidative properties of the beer matrix independent on the SO2-content. The BAX is affected by the content of metallic ions, hop-acids, sugar, proteins, intermediate Maillard reaction products, etc. and gives information about the consumption rate of the existing antioxidative potential during storage.<br><br> Besides the higher significance of the EAP-values, the breweries that in fu-ture are going to employ EAP-determination and Beverage Antioxidative IndeX (BAX) as a matter of routine, will be able to detect deviations in the brewing process in time and to intervene selectively, but they will also be able to considerably lower the costs in the area of quality assurance.<br><br> <b>Benefits:</b><ul> <li>Significantly improved procedure for the evaluation of the oxidative stability of beverages (beer, juice, wine, etc.)</li> <li>Reliable EAP-determination</li></ul> <p><strong>IP Rights</strong><br> Patent granted in US and applied for EP (priority date 09/2005) <br><br> <strong>Patent Owner</strong><br> Technische Universität Berlin
Weitere Informationen: PDF
ipal GmbH
Tel.: +49 (0)30/2125-4820
Ansprechpartner
Dr. Dirk Dantz
Media Contact
Alle Nachrichten aus der Kategorie: Technologieangebote
Neueste Beiträge
Bakterien für klimaneutrale Chemikalien der Zukunft
Forschende an der ETH Zürich haben Bakterien im Labor so herangezüchtet, dass sie Methanol effizient verwerten können. Jetzt lässt sich der Stoffwechsel dieser Bakterien anzapfen, um wertvolle Produkte herzustellen, die…
Batterien: Heute die Materialien von morgen modellieren
Welche Faktoren bestimmen, wie schnell sich eine Batterie laden lässt? Dieser und weiteren Fragen gehen Forschende am Karlsruher Institut für Technologie (KIT) mit computergestützten Simulationen nach. Mikrostrukturmodelle tragen dazu bei,…
Porosität von Sedimentgestein mit Neutronen untersucht
Forschung am FRM II zu geologischen Lagerstätten. Dauerhafte unterirdische Lagerung von CO2 Poren so klein wie Bakterien Porenmessung mit Neutronen auf den Nanometer genau Ob Sedimentgesteine fossile Kohlenwasserstoffe speichern können…