Abstract
Subject of research: technology of high gravity brewing, developed to improve production efficiency and reduce energy consumption. This technology has a wide range of benefits, from improving process economics to reducing environmental impact.
 Investigated problem: despite the presence of significant advantages, there are a number of problems in the technology of high gravity brewing that need to be solved. The main problem is to reduce the foam stability of the resulting beer, which, together with the appearance, aroma and taste, is the most important attributes of the quality of the beverage for the consumer.
 The stability and texture of the foam depend, among other things, on the quality of grain and hop raw materials, and the course of technological processes. Elevated levels of key malt proteins (LTP1, Z4 and Z7) and hop α-acids have a positive effect on foam quality. Yeast protease A has a negative effect. Yeast secretes this enzyme to a greater extent during fermentation of high gravity wort, which may be one of the reasons for the decrease in foam stability in high gravity brewing.
 High molecular weight a- and b-glucans with hydrophilic properties can play an important role in foam stabilization. They increase the viscosity of the liquid, slow down its drainage from the foam segments and thereby increase the foam retention.
 Main scientific results: the effect of hydrocolloids (highly methoxylated pectin, carboxymethyl cellulose, xanthan gum, guar gum, a mixture of xanthan and guar gum) on foam performance and beer filtration rate was investigated. The advantages of pectin as an additive allowing to stabilize beer foam, in particular, in high gravity - brewing, have been established. The recommended dosage of the additive is 0.4-1 g/hl. Highly methoxylated pectin is a good alternative to the currently widespread use of propylene glycol alginate.
 The area of practical implementation of the research results: brewing companies.
 Innovative technological product: highly methoxylated pectin as a stabilizing additive for beer foam.
 Scope of application of the innovative technological product: the use of highly methoxylated pectin as additives that stabilize beer foam, in particular in high gravity brewing.
Highlights
One of the most important attributes of beer quality for the consumer are sensory characteristics – appearance, aroma, taste, foaminess
The formation of the sensory profile of beer is determined by numerous factors, the main of which are the quality of raw materials, the characteristics of the yeast used, and technological parameters that significantly affect the course of biochemical transformations
In the brewing industry, to stabilize beer foam, propylene glycol alginate (PGA) preparations are used at a dosage of 3–10 g/hl of the beverage, which are recommended to be added after filtering beer in the form of a 1–2 % solution in water or beer and filtered again after stirring [13]
Summary
One of the most important attributes of beer quality for the consumer are sensory characteristics – appearance, aroma, taste, foaminess. There are many components involved in creating the taste and aroma of beer. All flavoring components work together to create a sensory profile of the product in conjunction with the aroma [1]. The formation of the sensory profile of beer is determined by numerous factors, the main of which are the quality of raw materials (malt, hop preparations), the characteristics of the yeast used, and technological parameters that significantly affect the course of biochemical transformations. A difference was established in the sensory profiles of two groups of beer – craft and industrial. The foam stability of craft beer was significantly higher than that of industrial beer [2]
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