SU291394A1 - METHOD OF GETTING SOI PROTEINS FROM BEANS OR OTHER SOYBEAT - Google Patents

Description

The invention relates to the food industry and is a method for the production of soy proteins from beans or other soy raw materials.

A method of producing soy proteins from beans or other soy raw materials is known, which involves water extraction of the raw material, thereby obtaining a solution of the milky juice, precipitating and separating the latter protein.

The proposed method allows to obtain proteins with enhanced ability to gel and bind water and have good emulsifying properties. For this, the precipitated and separated protein is brought into a soluble state by treatment with an alkali solution followed by neutralization and denaturation of the protein when heated. The aqueous extraction is carried out in the presence of an alkali metal hydroxide or its salt, e.g. sulfite, or with water alone. The precipitation and separation of the protein is carried out at a temperature below 80 ° C in an acidic medium until the RP value of the medium is in the range of 4.2-4.5. The value of the RP environment in the processing of alkali set within 9-11. The temperature of the protein solution at the heating stage is maintained at between 80-120 ° C.

The described method is carried out as follows. First, the soybean milky juice is obtained by extracting the protein with water, using soybean flour or just soy beans as an extractable material. In order to obtain the final product with the highest solubility possible and to obtain a high yield with water extraction, it is preferable to use soy flour.

beans or just soybeans with a high content of soluble proteins. In order to increase the efficiency of the extraction process, it is advisable to carry out it at pH values above 6.

The extraction process can be carried out both at low temperatures and at high temperatures, for example, 100 ° C. It is advisable to introduce an alkaline agent of the bleaching effect and protein extraction at a high temperature.

As a rule, caustic soda, caustic potash, sodium carbonate, and sodium bicarbonate are used as the alkaline agent, and sodium sulfite or bisulfite is used as the sulfite.

on three .

Milky soybean juice is acidified with acid to precipitate and segregate protein. In this case, the protein precipitates in a collapsed state of NPP. The pH range for protein precipitation in For acidification (protein precipitation) is favored by the npHMeiieiiiie organic food acid or ierorganic acid. For this purpose, osilchio uses acetic acid or lactic acid as organic acids, and hydrochloric acid, phosphoric acid, or sulfuric acid from inorganic acids.

The protein deposition process is carried out at a suitable temperature below 80 ° C, and preferably below 70 ° C. Etne temnetureury make it possible to restore the solution; Most squirrel na next operation.

The precipitated and separated protein is made alkaline by treatment with an alkali solution. The alkaline treatment is followed by the introduction of an alkaline agent. The alkaline agent used to restore the solubility of the protein is the same as that used in the aqueous extraction process. In this case, the pH of the solution should be in the range of 9-12, preferably in the range of 9-11.

The ability of the protein to dissolve as a result of alkaline treatment is restored, and at the same time the protein formed is formed by molecules of a partially fibrous structure. As a result, the protein acquires the ability to attach water and form a gel.

It is assumed that when displaced, the granular (globular) protein gradually becomes fibrous, as part of the soy proteins break down and the globular protein becomes friable. After that, the protein is brought to about neutral.

Alkalinity of food products is undesirable, since it causes unfavorable changes in taste, while storage and rapid decay and tingling of color. For this reason, the protein must be neutralized. Suitable pH values are 5-8, preferably 6-7. Under the approximate neutralization is understood weak acidity of the neutralization product, neutrality and: 1and its weak alkalinity. Neutralization is carried out using acid. The acid used may be edible acid. An aqueous solution of the protein with an RP value close to neutral is denatured when heated.

Heating is carried out either by passing steam directly through the solution, or by deaf nara for a short period of time. Heating may be carried out at temperatures between 80-120 ° C. Temperatures should be used at which the ratio of the dissolution of nitrogen (AKP), which is higher than the amount of 10% water, is approximately 40. This coefficient is calculated using the formula

The aqueous solution of soy protein obtained with the use of thermal dsiaturatspi can be dried and cooked for the purpose of preservation and convenience of food. A stable emulsion is obtained & s, when soy proteins in the form of a powder are emulsified with water, fat, and oil or fat. Protein is ripened either as such or in the form of an emulsion during processing.

0 food products.

Soy protein is soluble in water, has a high ability to bind water, good emulsifying properties and gelling properties. He reports many

5 very valuable properties of products, for example, the so-called visco-elastic properties when applied during the processing of food products, in particular, subjected to the kneading processing of sea and meat products.

This method is illustrated by the following example. 10 kg of soy bean flour with a nitrogen solubility ratio (AKP) of 85 or soy bean with a nitrogen solubility coefficient of 92 is shifted simultaneously from 200 kg of water and 20 g of sodium sulfite and then extracted to room temperature. In the receiving milky juice sleep, 250-300 ml of coptingentry hydrochloride acid are added and the pH of the solution is adjusted to 4.2-4.6. The resulting protein precipitate is separated by centrifugation and dispersed in water. The suspension is then neutralized with caustic soda and set to

5 its pH at the level of 10-11 with intensive shifting to homogeneity. After the suspension is adjusted to such an alkalinity, the alkaline liquid is neutralized with hydrochloric acid to a pH between 6 and 7.

0 The temperature of the obtained neutralized liquid is increased to 100 ° C or by passing steam through it or with deaf vapor. The resulting liquid product (solution) is dried by scattering. Received

5 protein powder has the following properties,%:

Water content4,68

Technical Protein 86.3

AKP84,8 Zaachenie pH 1%

aqueous solution7.25

Ash content5.93

The ability to form a gel: the gel was obtained by forming an aqueous solution with a content of 12% or by weight of the product, obtained by example, and 2.5% salt of the total weight, and the molded material was heated to 80 ° C for 30 minutes. The product was able to retain its shape. 1TSI water extraction of raw materials to obtain a solution of the milky juice, precipitation and separation of the last protein, characterized in that, in order to obtain proteins with increased ability to gel and bind water and have good emulsifying properties, the precipitated and separated protein translate in a soluble state by treatment with an alkali solution, followed by neutralization and denaturation of the protein when heated. 2. A method according to claim 1, characterized in that the aqueous extraction is carried out in the presence of an alkali metal hydroxide or its salt, for example sulfite. 3. The method according to claim 1, characterized in that the precipitation and separation of the protein is carried out at a temperature below 80 ° C in an acidic medium until the pH of the medium is in the range of 4.2-4.5. 4. The method according to claim 1, characterized in that the pH value of the medium during the treatment with alkali is set in the range of 9-11. 5. A method according to claim 1, characterized in that at the heating stage the temperature of the protein solution is maintained in the range of 80-120 ° C.