RU2498626C1 - Mangostan food product manufacture method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to a technology for processing berries. The method envisages mangostan preparation, cutting, convective drying till intermediate moisture content, additional drying in microwave field till dry substances content is equal to no less than 85%, impregnation with liquid carbon dioxide with simultaneous pressure boost, depressurisation to atmospheric value with simultaneous freezing of carbon dioxide, carbon dioxide subliming with simultaneous swelling of mangostan, the latter packing into package fabricated of a polymer or combined material in an oxygen-free medium.

EFFECT: method allows to reduce losses of biologically active substances of initial raw materials.

Description

The invention relates to a technology for processing berries.

A known method of producing a food product from mangosteen, providing for its preparation, cutting, convective drying to intermediate humidity, holding under pressure when heated to a temperature not lower than 100 ° C, depressurizing to atmospheric pressure with expansion of the mangosteen, its drying in the microwave field until the dry content is reached substances of at least 85% and packaging in a package of polymer or combined material in an oxygen-free environment (RU 2409983 C1, 2011).

The disadvantage of this method is the loss of thermolabile biologically active substances of the feedstock when it is heated before expansion.

The technical result of the invention is to reduce the loss of biologically active substances of the feedstock.

This result is achieved by the fact that in the method of producing a food product from mangosteen, which involves preparing, cutting, convective drying to intermediate humidity, drying in a microwave field until a dry matter content of at least 85% is reached, and packaging in a package of polymer or combined material in oxygen-free medium, according to the invention, after drying, the mangosteen is impregnated with liquid carbon dioxide with a simultaneous increase in pressure, depressurized to atmospheric while freezing the dioxide carbon and sublimate carbon dioxide with the simultaneous expansion of mangosteen.

The method is implemented as follows.

Mangosteen is prepared according to traditional technology, cut with the simultaneous removal of seeds, dried by convective method to intermediate humidity, dried in the microwave field until the dry substance content is about 85% and impregnated with liquid carbon dioxide, which leads to an automatic increase in pressure to a value corresponding to the saturated vapor pressure carbon dioxide at the temperature of impregnation. Then, the pressure is released to atmospheric pressure, which leads to partial evaporation of carbon dioxide and freezing of its remaining part. Upon contact with a gaseous coolant, carbon dioxide absorbed by the raw material is sublimated, which leads to swelling of the mangosteen, which, if desired, is mixed with flavors, for example sugar and spices, and packaged in a package of polymer or combined material in an oxygen-free environment, for example, in nitrogen or under vacuum, with obtaining the target product.

Obtained according to the described technology, the food product in organoleptic properties is completely identical to the product in the closest analogue. In this case, the absence of significant heating of the raw materials before expansion allows to reduce the loss of thermolabile biologically active substances.

Claims (1)

A method of producing a food product from mangosteen, which involves preparing, cutting, convective drying to intermediate humidity, drying in a microwave field until a dry matter content of at least 85% is reached, and packing into a package of polymer or combined material in an oxygen-free environment, characterized in that after dregs of mangosteen are impregnated with liquid carbon dioxide with a simultaneous increase in pressure, depressurize to atmospheric pressure while freezing carbon dioxide, and sublimate carbon dioxide while swelling mangosteen.