RU2385883C1 - Method of preparing inulin-containing solution - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to the technology of preparing an inulin-containing solution for food or medical purposes. The method involves washing and grinding girasol/sunflower, adding acid water, electrocontact heating, extraction at ratio of phases equal to 1:1, pH 5-6.5 for 30-40 minutes, concentration of the extract through reverse osmosis, photosterilisation and packing in aseptic conditions.

EFFECT: method enables reduction of chromaticity of the end product at relatively high conversion of inulin to the end product, as well as reduction of energy consumption and ensure shelf life of the end product of not less than 1 year without considerable change of its consumer and technological properties.

Description

The invention relates to a technology for the production of an inulin-containing solution for food or medical purposes.

A known method of producing an inulin-containing solution from Jerusalem artichoke, which includes washing Jerusalem artichoke, inspecting it, mechanically cleaning, grinding, electroplasmolizing, pressing to separate the juice from the squeezed juice, extracting the squeezed juice with drinking water, blending the juice and extract, adding citric acid, heating, clarification with bentonite, centrifugation, bentonite, centrifugation, bentonite, centrifugation filtering to obtain the target product (Ibramji J. Use of Jerusalem artichoke in the technology of canned fruit. Abstract of thesis, Candidate of Technical Sciences - Odessa, OTIPP, 1993, pp. 7-13).

The disadvantage of this method is the low yield of inulin, amounting to not more than 65% of theoretically possible, and the unsuitability of the target product for storage due to hydrolysis of inulin with citric acid.

Closest to the proposed method is the production of an inulin-containing solution from Jerusalem artichoke, which includes washing Jerusalem artichoke, steam cleaning, tertiary treatment, cutting, blanching, rubbing, extracting with acidified water and separating the liquid phase as the target product (Akopyan Yu.R. Development of technology for producing fructose syrup from Jerusalem artichoke.Abstract of dissertation of the candidate of technical sciences - M .: MGAPP, 1994, p. 6-14).

This method allows to increase the yield of inulin to 83.2% of theoretically possible, but has a high energy intensity and high color of the target product,

The technical result of the invention is to reduce energy intensity and color reduction of the target product.

This result is achieved by the fact that in the method of producing an inulin-containing solution, which involves washing and grinding the inulin-containing raw materials, extracting them with acidified water and separating the liquid phase as the target product, the sunflower is used as the inulin-containing raw materials, extraction is carried out at a phase ratio of 1: 1 and pH 5-6.5 for 30-40 minutes, the extraction mixture is subjected to preliminary electrical contact heating to a temperature of 55-65 ° C, and the separated extract is concentrated They are subjected to reverse osmosis to a solids content of 15-20%, they are subjected to photo sterilization and packaged under aseptic conditions.

The method is implemented as follows.

The sunflower is washed, inspected and ground, for example, on a crusher to a particle size of 1-2 mm. The ground mass is poured with acidified water until the extraction mixture reaches a pH of 5-6.5 at a phase ratio of 1: 1, is subjected to electrical contact heating to a temperature of 55-65 ° C at the recommended process parameters (Guseva M.V. Improving the process of extraction of target components during electrical contact processing mixtures of plant raw materials. Abstract of a dissertation of a candidate of technical sciences - M .: MGUPP, 2008, pp. 13-16), extracted for 30-40 minutes and the phases are separated by any known technology. The liquid phase is concentrated by reverse osmosis to a solids content of 15-20%, subjected to photo sterilization and Packed under aseptic conditions to obtain the target product.

It has been experimentally established that when implementing the described technology, the inulin yield is 84% of the theoretically possible. The color of the target product A ₄₇₀ obtained by the described technology and the closest analogue was 0.018 and 0.350, respectively. Energy consumption by the proposed method compared with the closest analogue is reduced by approximately 28%. At the same time, the target product has a shelf life of at least 1 year without significant changes in consumer and technological properties.

Claims (1)

A method of producing an inulin-containing solution, which includes washing and grinding of an inulin-containing raw material, its extraction with acidified water and separation of the liquid phase as the target product, characterized in that topsoil is used as an inulin-containing raw material, extraction is carried out at a phase ratio of 1: 1 and pH 5-6, 5 for 30-40 minutes, the extraction mixture is subjected to preliminary electrocontact heating to a temperature of 55-65 ° C, and the separated extract is concentrated by reverse osmosis until dry eschestv 15-20%, subjected fotosterilizatsii and packed under aseptic conditions.