Water Ultrasound-Assisted Extraction of Polyphenol Compounds from Brewer's Spent Grain: Kinetic Study, Extract Characterization, and Concentration

Brewer's spent grain (BSG) was chemically characterized obtaining 52.1% of carbohydrates, 17.8% protein, 5.9% lipids, 13.5% insoluble lignin and 24.3% of water-soluble extractives. This work has been focused on the study of polyphenol extraction of the extractive fraction by water ultrasound-as...

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Bibliographic Details
Published in:Antioxidants 2020-03, Vol.9 (3), p.265
Main Authors: Alonso-Riaño, Patricia, Sanz Diez, María Teresa, Blanco, Beatriz, Beltrán, Sagrario, Trigueros, Ester, Benito-Román, Oscar
Format: Article
Language:English
Subjects:
Arabinose
Beer
Breweries
brewer’s spent grains
Carbohydrates
Cell walls
Chemical properties
Composition
Ethanol
Extraction (Chemistry)
extractives concentration
Grain
High-performance liquid chromatography
Hydrolysis
Identification and classification
Kinetics
Lignin
Lipids
Methods
Moisture content
Particle size
Phenolic acids
Polarity
polyphenol compound
Polyphenols
Raw materials
Solvent extraction processes
Ultrafiltration
Ultrasonic imaging
Ultrasonic waves
Ultrasound
ultrasound assisted extraction
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Summary:Brewer's spent grain (BSG) was chemically characterized obtaining 52.1% of carbohydrates, 17.8% protein, 5.9% lipids, 13.5% insoluble lignin and 24.3% of water-soluble extractives. This work has been focused on the study of polyphenol extraction of the extractive fraction by water ultrasound-assisted extraction. Selected extraction conditions were 47 °C and 21.7 mL water/g . The effect of solvent polarity on polyphenol extraction was studied by using ethanol aqueous mixtures, from 20% to 100% ethanol. The kinetics of polyphenol extraction have been fitted to the power law and the Weibull models yielding mean values of the root mean square deviation lower than 7.5%. Extracts have been characterized in terms of quantification of individual phenolic compounds by HPLC-DAD and protein and sugar soluble fractions (glucose, xylose, and arabinose). Polyphenol profile has been compared with other hydrolytic techniques, such as acid, basic and enzymatic hydrolysis, showing that ultrasound was not as effective as basic hydrolysis to release the phenolic acids esterified to the cell wall. A further centrifuge ultrafiltration concentration step was able to yield a retentate enriched in the protein fraction while individual phenolic compounds where mainly transferred to the permeate.
ISSN:2076-3921
2076-3921
DOI:10.3390/antiox9030265