RU2214759C1 - Method for preparing citrus fruits for obtaining juice - Google Patents

Abstract

FIELD: food industry. SUBSTANCE: the present innovation deals with extracting bitter substances with nonpolar liquefied gas, treating with liquefied gas at pressure being above atmospheric one and decrease of pressure up to atmospheric one at rate to provide fruits' freezing. Before treatment, fruits should be treated with preparation obtained due to successive extraction of Pythium coloratum micromycete biomass with nonpolar extragent in supercritical state with water, alkali, water, acid, water, alkali and water followed by combining solid residue with the first extract at the quantity of 0,5-1•10⁴ mg/t to be kept for 2-5 h. Moreover, one should apply ammonia gas for treatment. The suggested innovation enables to increase the quality of end product. EFFECT: higher efficiency. 2 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, 11/15/1993).

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

Closest to the proposed technical result is a method of preparing citrus fruits for juice extraction, including extraction of bitter substances with non-polar liquefied gas, impregnation for 2-5 hours with miscella obtained by extracting biomass of micromycete Pythium coloratum with non-polar liquefied gas, with the content of extractive substances 0, 5-1 • 10 ⁴ mg / t in terms of the total content of arachidonic and eicosapentaenoic acids, and depressurization to atmospheric pressure at a rate that ensures fruit freezing (RU 215 5525 C1, 09/10/2000).

 This method allows you to increase the resistance of the juice to microbial spoilage, but the resulting juice opalescent, which is estimated as a deterioration in organoleptic properties.

 The technical result of the invention is the exclusion of opalescence of juice.

This result is achieved in that in a method for preparing citrus fruits to extract juice, including extracting bitter substances with non-polar liquefied gas, impregnating with liquefied gas at a pressure above atmospheric and depressurizing to atmospheric at a speed that ensures fruit freezing, according to the invention, the fruit is treated with a preparation before impregnation obtained by sequential extraction of the biomass of micromycete Pythium coloratum non-polar extractant in a supercritical state, water, alkali, ode, acid, water, alkali and water and then combining the first extract with the solid residue in an amount of 0,5-1 • April ¹⁰ mg / m and allowed to stand 2-5 hours and used to impregnate ammonia.

 The method is implemented as follows.

Citrus fruits are extracted with a non-polar liquefied gas, such as carbon dioxide or argon, to remove bitter substances. The dry biomass of Pythium coloratum micromycete is extracted with a non-polar extractant, for example nitrous oxide or hexane, in a supercritical state. At this stage of extraction, the first extract is separated, which is then used to obtain the drug. Next, the biomass is sequentially extracted with water, alkali, water, acid, water, alkali and water. The solid residue obtained after completion of all the extraction stages listed above is combined with the first extract to obtain a preparation that processes the extracted citrus fruits at a flow rate of 0.5-1 • 10 ⁴ mg / t. The drug contains arachidonic and eicosapentaenoic acids and chitosan, which are capable of stimulating plant defense reactions and the synthesis of phytoalexins, and the amount of related substances of a lipid nature is reduced in comparison with the closest analogue. Treated fruits can withstand 2-5 hours, during which the stimulant of the protective reactions assimilates, and then they are impregnated with liquefied ammonia at a pressure above atmospheric and relieve pressure to atmospheric at a speed that ensures fruit freezing. The juice obtained from fruits prepared in this way contains phytoalexins that prevent its microbial spoilage, a smaller amount of lipids compared to the closest analogue, in which fatty acids are converted into soluble ammonium salts, and does not opalescent.

 Example 1

Tangerines are extracted with liquefied carbon dioxide to remove bitter substances from flavedo. Pythium coloratum micromycete biomass preparation is prepared according to the technology described above using carbon dioxide as a non-polar extractant, as caustic soda alkali and as hydrochloric acid. The extracted fruits are treated with the preparation in an amount of 1 • 10 ⁴ mg / t and incubated for 2 hours, and then impregnated with liquefied ammonia at a pressure of 6.4 MPa and depressurized to atmospheric pressure in 1.5 minutes, freezing the fruits. A control batch of the same fruits is processed using the technology of the closest analogue with the same extraction and impregnation parameters using CO ₂ micelles from the biomass of micromycete Pythium coloratum at a flow rate of the latter, calculated on the total content of arachidonic and eicosapentaenoic acids 1 • 10 ⁴ mg / t. Juice is squeezed out of fruits thus prepared. The control juice is opalescent. The shelf life of the juice until the appearance of visually observed signs of fermentation is the same for the experimental and control lots.

 Example 2

The juice of the experimental and control lots is prepared according to example 1, but using oranges, nitrogen at the stage of extraction of bitter substances, hexane as a non-polar extractant when preparing the preparation from the biomass of micromycete Pythium coloratum and N ₂ O-miscella from the biomass of micromycete Pythium coloratum at a flow rate of in terms of the content of the same acids and preparation 0.5 mg / t and the exposure time of the experimental batch of fruits and the impregnation of the control batch of 5 hours. The results are consistent with example 1.

 Thus, the proposed method allows to exclude opalescence of the juice.

Claims (1)

A method of preparing citrus fruits for juice extraction, including extraction of bitter substances with non-polar liquefied gas, impregnation with liquefied gas at a pressure above atmospheric and depressurization to atmospheric pressure at a rate that ensures fruit freezing, characterized in that the fruits are treated with a preparation obtained by sequential extraction before impregnation micromycete biomass Pythium coloratum non-polar extractant in a supercritical state, water, alkali, water, acid, water, alkali and water then combining the first extract with the solid residue in an amount of 0,5-1 • April ¹⁰ mg / m and allowed to stand 2-5 h, and ammonia is used for impregnation.