RU2394086C1 - Method for production of flavoured dark beer - Google Patents

Abstract

FIELD: food industry. ^ SUBSTANCE: method provides for mixing of Chinese magnolia and hop, extraction of produced mix by liquid nitrogen with separation of according miscella, cutting of girasol, its drying in microwave field at specified parametres of process and frying, mixing of girasol and malt. Produced mix is impregnated with separated miscella with simultaneous increase of pressure. Pressure is reduced down to atmospheric value with simultaneous freezing of mix and its cryo-grinding in the medium of released nitrogen. Pouring with drinking water and saccharification to produce wort. Beer yeast is added into it, main fermentation is carried out, as well as fortification, afterfermentation and filtering. ^ EFFECT: method makes it possible to reduce duration of technological process and to increase stability of foam in finished product.

Description

The invention relates to brewing technology.

A known method of preparing flavored dark beer, involving obtaining mash from crushed malt, its saccharification. adding roasted chicory, boiling with hops, cooling, brewing yeast, main fermentation, spirit, brewing and filtering young beer (UA 3481 C1, 1994).

The disadvantage of this method is the long duration of the process.

The technical result of the invention is to reduce the duration of the process and increase the resistance of the foam of the target product.

This result is achieved by the fact that in the method for preparing flavored dark beer, which involves preparing wort from malt, roasted unmalted raw materials and hops, introducing brewer's yeast into it, main fermentation, alcoholization, fermentation of young beer and filtering it, according to the invention, Chinese lemongrass and hops are mixed in a ratio by weight of 1:10 and the resulting mixture is extracted with liquid nitrogen with separation of the corresponding miscella, Jerusalem artichoke is used as unmalted raw material, which is cut, dried microwave field to a residual moisture content of about 20% with a microwave field power that provides heating of Jerusalem artichoke to a temperature inside the pieces of 80-90 ° C for at least 1 hour and fry, mix Jerusalem artichoke and malt in a weight ratio of 1: (10-25) they impregnate the resulting mixture with separated miscella with a simultaneous increase in pressure, depressurize to atmospheric pressure while freezing the mixture, cryo-grind it in the atmosphere of nitrogen released, fill it with drinking water and saccharify to produce wort.

The method is implemented as follows.

Schisandra chinensis and hops are mixed in a ratio by weight of 1:10, the resulting mixture is extracted with liquid nitrogen and the miscella is separated by known technology (Kasyanov G.I., Kvasenkov O.I., Nematullaev I., Nesterov V.V. Processing of plant materials with liquefied and compressed gases. - M .: AgroNIITEIPP, 1993, pp. 7-15). Through the use of the well-known effect of coextraction (Kasyanov G.I., Kvasenkov O.I.Soextraction // Second All-Russian Scientific and Technical Conference "Progressive environmentally friendly technologies for storage and integrated processing of agricultural products to create food products of increased nutritional and biological value." Abstracts - Uglich: RAAS, 1996, p.239) the yield of extractives from the mixture is greater than their total yield when the components are extracted separately.

Jerusalem artichoke is prepared by traditional technology, cut and dried in a microwave field to a residual moisture content of about 20% for at least 1 hour. Moreover, according to well-known dependencies (Gubiev YK Scientific and practical principles of thermotechnological processes of food production in the electromagnetic field of the microwave. Abstract of the dissertation of the Doctor of Technical Sciences - M .: MTIPP, 1990, pp. 7-11) calculate the power microwave fields, allowing to ensure the drying time of Jerusalem artichoke 1 hour and heating to a temperature inside pieces of 80 and 90 ° C. The microwave field power is set greater than or equal to the second value and less than or equal to the smaller of the first and third values of the calculated powers.

Drying in the microwave field at temperatures above 90 ° C leads to premature caramelization of sugars. Drying in the microwave field at temperatures below 80 ° C and a reduction in drying time of less than 1 hour lead to a reduction in the yield of extractives. Since an increase in the drying time automatically leads to an increase in the specific energy consumption, the maximum value of the drying time is determined by the Harrington desirability function for the maximum yield of extractive substances with minimal specific energy consumption.

Then Jerusalem artichoke is fried according to traditional technology (Nakhmedov F.G. Technology of coffee products. - M.: Light and food industry, 1984, p. 58-73).

Fried Jerusalem artichoke and malt are jointly loaded into the drum of a cryomill in a weight ratio of 1: (10-25) and poured to impregnate the separated miscella. The amount of miscella is chosen according to well-known recommendations (Khristyuk A.V. Improving the technology of beer production. - Krasnodar: KNIIHP, 2003, p.133-134). The pressure in the drum automatically rises to a value corresponding to the pressure of saturated nitrogen vapor at the impregnation temperature. Impregnation time is calculated according to the known laws of mass transfer (Kosmodemyansky Yu.V. Processes and apparatuses of food production. A textbook for students of technical schools. - M .: Kolos, 1997, p.135-162). In this case, nitrogen is absorbed and the mixture is saturated with the extractive substances contained in the miscella.

After the impregnation is completed, the pressure in the drum is vented to atmospheric pressure, which ensures evaporation of nitrogen and freezing of the mixture, and then cryo-grinding of the mixture in the medium of nitrogen released is carried out.

The crushed mixture is poured with drinking water and saccharified to produce wort. Moreover, due to the use of gas-liquid miscella, the process of saccharification of the mash is accelerated and the yield of malt extractives into the wort is increased (RU 2318015 C1, 2008).

It should be noted that the implementation of wort hopping at the mashing stage significantly reduces the duration of the preparation of the wort.

Brewer's yeast is introduced into the obtained wort and, using the technology of the closest analogue, the main fermentation is carried out sequentially, alcoholization until the target product strength is 11-11.5 vol.%, The young beer is fermented and filtered to obtain the target product.

When conducting an organoleptic evaluation of the target product in accordance with GOST 3473, it was found that, compared with the product obtained by the closest analogue, the foam resistance is increased by 15-20%, which is probably due to an increase in the content of surfactants in Jerusalem artichoke extract when the described technology for its processing before frying.

Thus, the proposed method allows to reduce the duration of the process and increase the resistance of the foam of the target product.

Claims (1)

A method of preparing flavored dark beer, comprising mixing Chinese magnolia vine and hop in a weight ratio of 1:10 and extracting the resulting mixture with liquid nitrogen to separate the corresponding miscella, cutting Jerusalem artichoke, drying in a microwave field to a residual moisture content of about 20% with a microwave field power that provides heating Jerusalem artichoke to a temperature inside the pieces of 80-90 ° C for at least 1 h and frying, mixing Jerusalem artichoke and malt in a ratio by weight of 1: (10-25), soaking the resulting mixture of separated mis whole with a simultaneous increase in pressure, depressurization to atmospheric pressure with simultaneous freezing of the mixture, its cryo-grinding in the medium of released nitrogen, pouring it with drinking water with saccharification to produce wort, introducing brewer's yeast into it, the main fermentation, alcoholization, fermentation of young beer and its filtering.