RU2165200C1 - Method for preparing beer and fruit raw materials to juice extraction - Google Patents

Abstract

FIELD: food industry. SUBSTANCE: method involves treating raw materials with nonpolar liquefied gas containing alkyl ether of jasmonic acid under pressure exceeding the atmospheric one during 2-5 h. The pressure is released to reach the atmospheric one at a rate providing raw materials freezing. EFFECT: preventing juice from microbial spoiling.

Description

 The invention relates to the technology of juice production.

 A known method of preparing fruit and berry raw materials for extracting juice, providing for its impregnation with non-polar liquefied gas at a pressure above atmospheric and depressurizing to atmospheric at a speed that provides freezing of raw materials (SU, 454890, A, 12.30.74).

 The disadvantage of this method is the subsequent production of juice prone to microbial spoilage.

 The technical result of the invention is to increase the resistance of the juice to microbial spoilage.

This result is achieved by the fact that in the method of preparing fruit and berry raw materials for juice extraction, impregnating it with non-polar liquefied gas at a pressure above atmospheric and depressurizing to atmospheric pressure at a rate that ensures freezing of the raw material according to the invention, lower jasmonic alkyl ether is introduced into the liquefied gas acid in an amount of 0.5-1 · 10 ⁴ mg / t, and the impregnation is carried out for 2-5 hours

 This improves the resistance of the juice to microbial spoilage.

 The method is implemented as follows.

The fruit and berry raw material is impregnated for 2-5 hours at a pressure higher than atmospheric with a non-polar liquefied gas, for example carbon dioxide or nitrogen, containing 0.5-1 · 10 ⁴ mg / t of lower jasmonic acid alkyl ester. Together with liquefied gas, ether easily diffuses into the processed raw materials. This provides, as you know, the stimulation of nonspecific immune responses of plants and the synthesis of phytoalexins. After the impregnation is completed, the pressure is released to atmospheric pressure at a rate at which the evaporation of the used liquefied gas provides a heat removal rate sufficient to freeze the processed feed. When it is frozen, the resulting ice crystals and vapor of liquefied gas violate the continuity of the cell walls. This ensures the facilitation of juice separation and the transition to the juice of phytoalexins, which, depending on the amount, slow down or completely eliminate microbial spoilage of the juice. The amount of phytoalexins depends on the type of raw material and its physiological state.

 Thus, the proposed method improves the resistance of juices to microbial spoilage.

 Example 1

 Renclod violet plum is soaked for 5 hours at a pressure of 6.4 MPa with carbon dioxide containing 0.5 mg / t of jasmonic acid methyl ester, and then depressurized to atmospheric pressure in 1.5 minutes, freezing them. A control batch of the same fruits is processed using the same technology, but without the use of ether. From the thus prepared fruits of the experimental and control lots, juice is extracted and canned according to standard technology. The shelf life of the juice in unregulated conditions until the appearance of signs of spoilage for the experimental and control lots was 11 and 7 months, respectively.

 Example 2

Anadolskaya cherries are processed according to the conditions of Example 1, but using argon and ethyl ether in an amount of 1 · 10 ⁴ mg / t with a holding time of 2 hours. The shelf life of the juice of the experimental and control lots was 10 and 6 months, respectively.

Claims (1)

A method of preparing fruit and berry raw materials for extracting juice, providing for its impregnation with non-polar liquefied gas at a pressure above atmospheric and depressurizing to atmospheric pressure at a rate that ensures freezing of the raw material, characterized in that 0.5 to jasmonic acid alkyl ester is introduced into the liquefied gas 1 · 10 ⁴ mg / t, and the impregnation is carried out for 2 to 5 hours