RU2642178C1 - Method of producing cherry compote - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: method of production of cherry compote includes the preparation and packaging of fruits in cans and their subsequent processing in a microwave oven with a frequency of 2400+50 MHz and rarefaction at 75-80 kPa for 1.5-2 minutes. Then cans are sealed, installed in a carrier providing mechanical tightness of the cans, and heated in an air stream at a temperature of 120°C and a speed of 2.5 m/s for 12 minutes. Continue heating by showering with hot water at a temperature of 100°C for 10 minutes, followed by cooling in a stream of atmospheric air at a temperature of 20-25°C and a speed of 6-7 m/s for 15 minutes. During the heat treatment process the cans are turned upside down with a frequency equal to 0.12 s^-1.

EFFECT: method provides for shortening the duration of the heat treatment process, removing air from the fruit and cans and thereby improving the quality of the final product.

1 cl, 1 ex

Description

The proposed method for inventions relates to the canning industry and can be used in the production of sweet compote in cans SKO 1-82-350.

Sources, which were searched by this method, showed that the prototype of the proposed method is a method for the production of canned "Compote from cherries" using evacuation of fruits, poured in syrup, and sterilization in an autoclave [1] according to the mode

where 20 is the duration of the period of heating water to 100 ° C, min; 18 - the length of the period of its own sterilization at 100 ° C, min; 20 - the duration of the cooling period, min; 100 ° C - sterilization temperature, ° C; 118 - back pressure in the autoclave, kPa.

The main disadvantages of this method are:

- the long duration of the heat treatment of the product, which significantly impairs the quality of the finished product;

- uneven heat treatment of the product in banks;

- a relatively large consumption of thermal energy and water.

The technical result of the proposed method is aimed at creating a method for the production of compotes, providing: reducing the duration of the process; more complete conservation of biologically active components contained in the feedstock, as well as saving thermal energy.

The specified technical result is achieved due to the fact that according to the proposed method, cans with packaged fruits after pouring the syrup are placed in a special microwave chamber with a vacuum of 75-80 kPa and for 1.5-2 minutes the contents of the cans are treated with an electromagnetic field of ultrahigh frequency 2400 ± 50 MHz, covered with lids, then at the outlet of the chamber, the cans are sealed, installed in a carrier providing mechanical tightness of the cans, and subjected to heat treatment in an air stream with a temperature of 120 ° C and a speed of 2.5 m / s for 12 minutes with continued heating by hot water showering at a temperature of 100 ° C for 10 minutes, followed by cooling in a stream of atmospheric air with a temperature of 20-25 ° C and a speed of 6-7 m / s for 15 minutes, and during the entire heat treatment process, the cans rotate from “bottom to cover” with a frequency of 0.12 s ^-1 .

An example implementation of the method.

Prepared fruits are packed in jars, syrup is poured at a temperature of 85 ° C, then the jar with the product is placed for 1.5 min in a microwave chamber with a vacuum of 75-80 kPa, and the contents of the jars are subjected to electromagnetic field treatment with an ultrahigh frequency of 2400 ± 50 MHz. After microwave processing, the banks are covered with lids. Subsequently, upon leaving the chamber, the cans are rolled up, installed in a carrier providing mechanical tightness of the cans, subjected to heating in a stream of air with a temperature of 120 ° C and a speed of 2.5 m / s for 12 minutes, with continued heating by hot water at a temperature of 100 ° C for 10 min, followed by cooling in a stream of atmospheric air with a temperature of 20-25 ° C and a speed of 6-7 m / s for 15 min, and at the same time, during the entire heat treatment process, the cans rotate from “bottom to cover” frequency of 0.12 s ^-1 .

Salient features of the proposed method are: pre-heating of the fruits packaged in jars for 1.5 minutes in a microwave chamber with a frequency of 2400 ± 50 and a vacuum of 75-80 kPa; lidding in the same chamber; sealing with installation in a carrier ensuring mechanical tightness of the cans, and heat treatment in a stream of air with a temperature of 120 ° C and a speed of 2.5 m / s for 12 minutes, followed by continued heating by hot water at a temperature of 100 ° C for 10 minutes, followed by cooling in a stream of atmospheric air with a temperature of 20-25 ° C and a speed of 6-7 m / s for 15 minutes, and at the same time, during the entire heat treatment process, the cans rotate from “bottom to cover” with a frequency of 0.12 s ^-1 .

Preheating the fruits, which are filled with syrup in the microwave chamber with dilution before sealing the cans, contributes to the complete removal of air from the fruits and banks due to volumetric heating of the fruits with destruction of the cell structure, which stops the oxidation processes and ensures more complete conservation of biologically active components contained in feedstock. The vitamin C content in the finished product made by this method is 50% higher than in the compote made using traditional technology.

This mode provides a reduction in the duration of the process compared to traditional by 20 minutes, improving the quality of the finished product, saving heat energy and water.

Literature

1. Collection of technological instructions for the production of canned food, T. 2. M., Food industry, 1977.

Claims (1)

Method for the production of sweet compote, characterized in that the cans with pre-packaged fruits after pouring the syrup are placed in a microwave chamber with a vacuum of 75-80 kPa and for 1.5-2 minutes the contents of the cans are subjected to an electromagnetic field of ultrahigh frequency 2400 ± 50 MHz, covered with lids, then at the outlet of the chamber, the cans are sealed, installed in a carrier providing mechanical tightness of the cans, and subjected to heat treatment in an air stream at a temperature of 120 ° C and a speed of 2.5 m / s for 12 min heating with hot water by temperature 100 ° C for 10 minutes, followed by cooling in a stream of atmospheric air with a temperature of 20-25 ° C and a speed of 6-7 m / s for 15 minutes, while during the whole process of heat treatment the cans rotate from the bottom on the lid with a frequency of 0.12 s ^-1 .