RU2159060C1 - Method of preparation of citrus fruits for juice extraction - Google Patents

Abstract

FIELD: juice extraction technology. SUBSTANCE: citrus fruits are extracted with nonpolar liquefied gas for removal of bitter substances. Dry biomass of PYTHIUM INSIDIOSUM micro-organisms are extracted with nonpolar liquefied gas. Micelle is separated and directed for impregnation of fruits after extraction. Impregnation is carried out at pressure above atmosphere one for 2-5h. Then, pressure is released to atmospheric one at rate ensuring freezing of fruits. EFFECT: higher resistance to microbial damage. 1 ex

Description

 The invention relates to the technology of juice production.

 A known method of preparing citrus fruits for extracting juice, including the extraction of bitter substances with non-polar liquefied gas, impregnation with non-polar liquefied gas at a pressure above atmospheric and depressurization to atmospheric at a speed that ensures fruit freezing (RU, 2002433, C1, 11/15/93).

 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 citrus fruits for juice extraction, including extraction of bitter substances with non-polar liquefied gas, impregnation with non-polar liquefied gas at a pressure above atmospheric and pressure relief to atmospheric with a speed that ensures fruit freezing, according to the invention, the impregnation is carried out for 2 -5 hours of miscella obtained by extracting the biomass of microorganisms Pythium insidiosum, with the content of extractives 0.5-10 ⁴ mg / t in terms of the total content e arachidonic and eicosapentaenoic acids.

 This improves the resistance of the juice to microbial spoilage.

 The method is implemented as follows.

 Citrus fruits are extracted with non-polar liquefied gas to remove bitter substances. The dry biomass of Pythium insidiosum microorganisms is extracted with non-polar liquefied gas, the miscella is separated and it is impregnated with the extracted fruits at a pressure above atmospheric for 2-5 hours. Due to the fact that when extracting the fruits from them hydrophobic substances were removed, the biomass extractive substances together with the liquefied gas easily diffuse into them. The content of arachidonic and / or eicosapentaenoic acid in the biomass extract in the amount indicated above, as is known, leads to the stimulation of non-specific immune responses of plants and the synthesis of phytoalexins. Then the pressure is released to atmospheric pressure at a speed that provides freezing of the fruit. The formation of ice crystals and vapors of liquefied gas leads to disruption of the integrity of cell membranes, which ensures easier release of juice and the transition of phytoalexins into it. The latter, depending on the amount, slow down or exclude completely microbial spoilage of the juice. The amount of phytoalexins depends on the type and physiological state of the fruit.

 Example.

Freshly picked tangerines are extracted with liquid carbon dioxide at a temperature of 25 ^o C and a pressure of 6.4 MPa and the miscella is separated, followed by isolation from it and utilization of bitter extractive substances. The biomass of microorganisms is extracted with the same extractant under the same conditions, the miscella is separated and without separation into the extract, and the extractant is sent to impregnate the fruits. The impregnation is carried out for 3 hours at the same temperature and pressure parameters with a miscella consumption of 1 mg / t in terms of the total content of arachidonic and eicosapentaenoic acids. Then the pressure is released at a speed of 20 kPa / s, which ensures the freezing of tangerines.

 Juice obtained from fruits processed according to the described technology and a similar technology when used in the impregnation stage of pure carbon dioxide, was preserved under the same conditions without signs of microbial spoilage for 8 and 6 months, respectively.

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

Claims (1)

The method of preparing citrus fruits for juice extraction, including extraction of bitter substances with non-polar liquefied gas, impregnation with non-polar liquefied gas at a pressure above atmospheric and depressurization to atmospheric with a speed that provides freezing of fruits, characterized in that the impregnation is carried out for 2-5 hours with micelle, resulting from the extraction of biomass organisms Pythium insidiosum, the content of extractives ⁴ 0.5-10 mg / m based on the total content of arachidonic and eicosapentaenoic sour .