Abstract
Introduction. New innovative technologies make food industry more effective. The present paper introduces a new method of hopped wort production based on novel mash filters.
 Study objects and methods. The research featured two new designs of mash filters. The study of the mashing process involved malt, hops, drinking water, and beer wort. The research included generally accepted methods of physicochemical and sensory research.
 Results and discussion. Both models differed from the traditional design. Mash filter I had a cylindrical filtration vat at its bottom with filters in the lower and upper parts of the vat. A pump was installed on the outer side of the steam jacket to produce forced circulation of the liquid medium flow through the vat. The steam jacket was covered with Corundum Classic superfine liquid thermal insulation. Mash filter II had a filtration bottom made of perforated sheet and provided intensive liquid circulation. It also had a regulated mixer that moved the mash, which significantly improved the mashing process. After the mashing, the mash passed through the filtration bottom, separating the liquid phase from the solid phase. The crushed material was discharged through a hatch in bottom. The physicochemical and sensory profiles of the obtained beer wort and beer samples complied with State Standard 30060-93 “Beer. Methods for determination of organoleptic indices and product’s volume”. Mash filter II produced beer wort of higher quality and improved the sensory properties of the finished product. This model proved more effective in extracting proteins and digestible sugars during amylolysis due to a better mixing and circulation of liquid medium flow during the wort preparation.
 Conclusion. The new modified mash filter made it possible to reduce the brewing time by 28.6%. Not only was it more user friendly, but it also was less heat and electricity consuming. In addition, it reduced the production area as it combined the stages of mashing and filtering.
Highlights
New innovative technologies make food industry more effective
The present paper introduces a new method of hopped wort production based on novel mash filters
A pump was installed on the outer side of the steam jacket to produce forced circulation of the liquid medium flow through the vat
Summary
150 100 устройства 6, вращающегося с малой скоростью. Сусло перекачивается в промежуточную емкость. При исследовании процесса затирания для пивоваренного производства с применением новых заторно-сусловарочно-фильтрационных аппаратов были использованы следующие материалы: солод, хмель, питьевая вода и пивное сусло. Для решения третьей задачи разработали методику проведения исследования, в ходе которой были получены образцы пивного сусла с применением: 1) заторного аппарата, применяемого при классической технологии (образец No 1); 2) заторно-сусловарочно-фильтрационного марки Magnum в количестве 100 г. 2. Затем дробленый солод массой 45 кг засыпали в аппарат и проводили 6 процесс затирания при одинаковых температурных режимах для всех. 3.10П0осле процесса затирания проводили йодную пробу пивного сусла для определения его полноты осахаривания. Результаты и их3обсуждение В результате проведения исследования получены следующие физико-2химические показатели образцов пивного сусла и гото1вого пива. Что срок хранения пивных напитков, приготовленных с помощью новых аппаратов, будет меньше, но приемлемый для производства крафтового пива.
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