Julia Steiner (1); (1) Technische Universität München, Weihenstephan, Germany
Technical Session 1: Eco-Awareness & Sustainability
Sunday, August 14 • 9:45–11:30 a.m.
Plaza Building, Concourse Level, Governor’s Square 14
Brewer’s spent grain (BSG) is the most abundant byproduct in the
brewing industry. It constitutes approximately 85% (w/w) of the total
byproducts generated during beer production. Containing beneficial
carbohydrates such as arabinoxylan and (1-3,1-4)-beta-D-glucan,
upcycling BSG is of great interest for valuable preservation of a former
waste material for human nutrition. In addition, sustainability,
potential nutritional value, and an attractive price level have made BSG
an interesting source for value-added products. Spent grain fiber is
difficult to solubilize due to its structure and previous process steps.
For this reason the use of hydrothermal treatment (HT) was
investigated. It is the aim of this study to break down insoluble
polysaccharides and subsequently add them to beverages as an ingredient
with health-beneficial attributes. The shift in consumption habits
toward functional drinks presents new challenges for the brewing
industry. Alcohol-free beverages rich in dietary fiber receive
distinctive appreciation and sustained acceptance by the consumer. Due
to their origin as natural raw materials and their scientifically proven
health-promoting effects, arabinoxylan and (1-3,1-4)-beta-D-glucan
offer potential for functional beverages. In 2012, both polysaccharides
were registered with the EFSA and may be claimed to deliver health
benefits under certain conditions. Currently, HT is gaining increasing
importance as an innovative approach for producing fiber-based
hydrolysates. In order to solubilize the remaining water-unextractable
carbohydrates, BSG was treated with pressurized hot water. Changing
permittivity using an increase in pressure and temperature results in
modified solubility behavior. In this study, pilot-plant scale trials
were carried out to investigate the influence of selected process
parameters with respect to solubility behavior and further determine the
best process settings for a maximum arabinoxylan and
(1-3,1-4)-beta-D-glucan yield. To ensure hydrothermal reaction
conditions, temperatures ranging from 160°C to 240°C combined with
pressures up to 150 bar were tested. The evaluation of hydrolysis is
based on analytical attributes measured using HPLC. Initially, possibly
harmful degradation products such as HMF and furfural were quantified.
Further research focused on polysaccharide yield, as well as their
change in Mw and DP. In batch mode, the change in internal reactor
temperature showed the greatest influence on polysaccharide yield. Based
on the data analysis an operating window was determined, with HMF and
furfural being the limiting factors. At an appropriate combination of
variable process parameters a (1-3,1-4)-beta-D-glucan yield up to 9 g/kg
(DM) and an arabinoxylan yield up to 15 g/kg (DM) could be achieved,
whereby the requirements for health claims were met. Adapting the
defined process settings, a large amount of the fiber-rich hydrolysate
was produced and subsequently fermented to develop an experimental
beverage. For fermentation, Lactobacillus brevis and Lactobacillus plantarum were used, followed by a sensory evaluation. The L. plantarum beverage was preferred since it had a more fruity taste.
Julia Steiner was born in 1984 in Munich, Germany. In 2009 she
graduated from the Technische Universität München (TUM) as an engineer
with a Dipl.-Ing. degree in food technology and biotechnology. In 2010
she started her career as a Ph.D. student at the Institute of Brewing
and Beverage Technology in Weihenstephan (TUM). Julia focuses on complex
spent grain components, pursuing the aim to preserve this brewery
by-product that is valuable for human nutrition. It is the aim of this
study to transfer insoluble dietary fiber fractions into a soluble state
in order to add them to beverages as an ingredient with
health-beneficial attributes. In addition, Julia is head of sensory at
the Institute of Brewing and Beverage Technology. She coordinates and
conducts commissioned tastings in the brewing and beverage sector.
Furthermore, she educates tasters at the university and is responsible
for the training the professional taster panel at the Institute of
Brewing and Beverage Technology.