UA64497A - A method for producing the near-beer - Google Patents

Abstract

A method for producing the near-beer involves dealcoholization of the beer containing alcohol on thedialysis module, carbonization, cooling and bottling. While dialyzing the dialyzate is supplied to the dialysis module at the pressure of 1.5-2.0 bar at a quantitative ratio of beer and dialyzate of 1:(4 6).

Description

Description of the invention

The invention relates to the field of brewing, namely to methods of obtaining non-alcoholic beer. 2 Various methods of non-alcoholic beer production are known, some of which involve some techniques in the beer brewing process, others - special processing of finished beer to remove alcohol.

There is a known method of non-alcoholic beer production (US patent Mo4612196, С12С 11/00, 1986), which includes dealcoholization of beer containing alcohol, carbonation, cooling and bottling. According to this method, the alcohol content in beer is reduced using reverse osmosis, i.e. passing beer through a membrane. For this, a thin film multilayer membrane is used, consisting of a polysulfone layer, a polymer barrier layer made of polyamine or polyacetyl and a fibrous substrate. At the same time, 25-3095 alcohol and organic compounds with a molecular weight of less than 100 μm pass through the membrane. However, the beer obtained in this way contains a fairly high percentage of alcohol, and also loses in the process of reverse osmosis the components that add taste and aroma to the drink.

Also known is the method of production of non-alcoholic beer, described in pat. RF Mo2195481 (C12C 7/00, 12/00, application 04/24/2001, published 12/27/2002). The method includes dealcoholization of beer containing alcohol by treatment on a dialysis module, carbonation, cooling and bottling. However, the conditions of the dialysis process do not provide the necessary rate of mass exchange, as a result of which organic compounds and volatile substances, especially ethers and higher alcohols, are removed from beer along with alcohol through the membrane. Thus, the known method does not allow you to obtain beer with the necessary taste and aroma characteristics, that is, it does not ensure obtaining a high-quality product.

The method of production of non-alcoholic beer is the closest in terms of technical essence and the technical result that can be achieved (Wolfgang Kuntze "Technology of Malt and Beer", translation from German, ed. "Professiya",

St. Petersburg, 2001, pp. 497-498), which includes dealcoholization of beer containing alcohol on dialysis module 29, carbonation, cooling and bottling. "

In a known method, dealcoholization of beer is carried out by dialysis of beer containing alcohol, for which membranes in the form of hollow fibers with very small wall thickness are used. The beer is evenly forced through them, while the dialysate flows around the hollow fibers in the opposite direction. However, the conditions of dialysis flow, namely the amount of dialysate and the conditions for it to flow around the membranes, do not provide the required mass transfer rate. As a result, not only ethanol passes into the dialysate, but also a significant amount of He»! fermentation by-products: ethers, higher alcohols and other volatile substances. This negatively affects the quality of the product. Thus, the known method does not ensure obtaining non-alcoholic beer of high M quality. "AND

The basis of the invention is the task of improving the method of producing non-alcoholic beer, in which changing the conditions of operations allows to increase the rate of mass exchange in the dialysis process while preserving the volatile components in the beer and, due to this, to improve the quality of the non-alcoholic beer that is obtained.

The task is solved by the fact that in the method of production of non-alcoholic beer, which includes dealcoholization of beer containing alcohol on the dialysis module, carbonation, cooling and bottling, according to the invention, the new thing is that during dialysis, the dialysate is fed into the dialysis module under negative pressure 1 .5-2.0 With 50 bar. with a quantitative ratio of dialysate beer 1:(4-6). c The cause-and-effect relationship between the set of essential features of the claimed technical solution and the achieved technical result is as follows.

Simultaneous supply during the dialysis process to the dialysis module of dialysate under a pressure of 1.5-2.0 bar. with a quantitative ratio of beer and dialysate of 1:(4:6) and using the known features of the method, it is possible to obtain high-quality non-alcoholic beer.

Me Supply of dialysate to the dialysis module in the required quantity, under the required pressure, is "" a necessary and sufficient condition for creating such a mass transfer rate, at which almost all the alcohol contained in the beer processed on the dialysis module passes into the dialysate . At the same time, the declared modes of execution of the method ensure a minimal transition into the dialysate of substances that significantly affect

Te) 20 organoleptic properties of non-alcoholic beer obtained.

During dialysis, the beer flows along the inner surface of hollow fiber membranes, while the dialysate passes countercurrently along the outer surface of the membranes. It was experimentally established that at the stated dialysate supply pressure and the stated quantitative ratio of beer and dialysate, mass exchange between beer and dialysate occurs at such a rate that alcohol molecules pass into the dialysate, and most of the 29 ethers, higher alcohols, and other volatile compounds remain in the beer. Transfer of alcohol is carried out at the expense of differences in alcohol content in beer and dialysate. The further the beer flows through the module, the less alcohol remains in it, since the dialysate, which moves towards it, contains even less alcohol. This happens due to the effort of beer and dialysate, passing from both sides of the membrane, to reach an equilibrium state.

The declared amount of dialysate, which exceeds the amount of beer by 4-6 times, and the pressure of 1.5-2.0 bar. 60 ensure mass exchange, that is, the transfer of alcohol molecules from beer to the dialysate at a higher rate. At the same time, most of the large molecules - molecules of taste and aromatic substances - do not have time to pass into the dialysate due to the increased rate of mass exchange and remain in the beer, positively affecting its quality.

At dialysate pressure below 1.5 bar. the mass exchange process will be slowed down, which will lead to an increase in the amount of alcohol in the beer, an increase in the dialysate supply pressure above 2.0 bar. can lead to a violation of the technological regime, to a violation of the integrity of the membrane.

If the proportion of dialysate relative to beer is reduced below the declared one, for example 1:3, the amount of alcohol in beer will increase due to the low rate of mass exchange due to the insufficient amount of dialysate. When the ratio of beer to dialysate, in which the amount of dialysate is more than 6, per unit of beer, the rate of mass exchange increases, and that is, the amount of alcohol that will pass into the dialysate. But this will also lead to the loss of taste and aromatic substances in beer, which will negatively affect its quality.

Thus, in the process of dialysis, beer is subjected to processing with accelerated mass exchange, which provides a sparing effect on beer and allows you to preserve its taste qualities.

The method is carried out as follows. 70 Beer containing alcohol is supplied by pumps from the for-face compartment to the distribution unit, passes through a filter and is fed to the modular unit, which includes 44 dialysis modules with cellulose membranes. In the modular unit, the beer is distributed among the dialysis modules.

The dialysate is pumped by a pump from the buffer tank through the filters into the modular unit and also distributed among the modules.

The optimal quantitative ratio of beer and dialysate is 1:(4-6), while the dialysate is served under a pressure of 1.5-2.0 bar.

In the dialysis module, the beer flows along the inner surface of the hollow fiber membranes, and the dialysate flows countercurrently along the outer surface of the membranes. Due to the difference in the alcohol content in beer and dialysate, alcohol is transferred into the dialysate.

The resulting non-alcoholic beer is subjected to carbonation in a special unit, because in the process of dialysis it partially loses CO molecules." Then the CO-enriched non-alcoholic beer is cooled on a plate heat exchanger and bottled. The beer obtained according to the claimed method contains no more than 0.5 vol. 95 alcohol.

The alcohol-saturated dialysate is subjected to thermal dealcoholization, after which the dealcoholized dialysate is pumped by a pump into the distribution block to the plate heat exchanger, from which it enters the cooler. The cooled dialysate is pumped into the buffer tank. "

The proposed non-alcoholic beer production method was tested at the Slavutych beer-non-alcoholic plant in Zaporizhzhya on existing equipment, which confirms the industrial applicability of the method. Dialysis was carried out on dialysis modules, the body material of which is polypropylene, the membrane material is cellulose, the total surface area of the membranes is 1104 m.

As beer containing alcohol, beer produced by known technologies was used, in particular, beer containing no more than 5 vol.9o5 of alcohol. Specially prepared water, partially purified from sodium, calcium, and nitrate salts, was used as a dialysate in order to exclude the transfer of these salts to beer during dialysis. Preparation of water M

It was carried out in accordance with "Technological instructions for the preparation of water for the production of beer and non-alcoholic beverages", TI-14297558-291-2003. As a result of laboratory studies, it was established that the alcohol content in the obtained non-alcoholic beer does not exceed 0.506.95, while the amount of fermentation by-products: ethers and other volatile substances is increased compared to the prototype by 10-15905. "

Thus, the claimed method ensures the production of non-alcoholic beer of high quality, which allows it to be in high demand among consumers, to promote the spread of a healthy lifestyle. - with "z

Claims (1)

The formula of the invention The method of production of non-alcoholic beer, which includes dealcoholization of beer containing alcohol on the Ф dialysis module, carbonation, cooling and bottling, which is characterized by the fact that during dialysis, the dialysate is fed into the dialysis module under a pressure of 1.5-2.0 bar at a quantitative ratio of beer and dialysate 1:(4 7 6). Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuit boards", 2004, M 2, 15.02.2004, State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. what R 60 b5