RU2819032C1 - Cherry compote production method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: disclosed is a method of producing cherry compote, according to which jars with fruits packed in them are treated with a microwave field with frequency of 2,400±50 MHz for 1.5 minutes before pouring syrup, then syrup with temperature of 98 °C is poured, after which it is repeatedly treated with a microwave field for 1.5 minutes and the contents of the jars are heated to 92 °C, followed by covering the jars with lids. Further, the jars with the product are placed for 2 minutes in a chamber with infrared lamps, sealed and sterilized.

EFFECT: invention provides reduced duration of the heat treatment process and thereby improved quality of the finished product, saving thermal energy and water, as well as possibility of canned food sterilization in open type devices without creation of back pressure.

1 cl

Description

The proposed method of the invention relates to the canning industry and can be used in the production of cherry compote in jars 1-82-500.

Sources that were searched for this method showed that the prototype of the proposed method is a method for sterilizing canned goods “Cherry Compote” in an autoclave [1] according to the regime

where 20 is the duration of the period of heating water to 100°C, min;

20 - duration of the period of self-sterilization at 100°C, min;

20 - 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 process of the product; uneven heat treatment of the product in jars; the relatively high consumption of thermal energy and water and the complexity of the technical implementation, which requires the creation of back pressure in the apparatus, ensuring the tightness of the cans (preventing the lids from falling off during the heat treatment process).

The technical result of the proposed method is aimed at creating a method for producing compotes that provides: reducing the duration of the process; ensuring the possibility of heat sterilization of canned food in open type devices, i.e., without creating back pressure; more complete preservation of biologically active components contained in the raw materials, as well as savings in thermal energy.

The specified technical result is achieved due to the fact that according to the proposed method, jars with packaged fruits are placed in a microwave chamber for 1.5 minutes before pouring the syrup, after which the syrup is poured at a temperature of 98°C, and re-placed in the microwave chamber for 1. 5 minutes and heat the contents of the jars to 92°C, then cover with lids and place for 2 minutes in a chamber with IR lamps to sterilize the lids, with further sealing and heat treatment according to the regime , where 8 is the duration of the heating period of cans with the product in a dimethyl sulfoxide solution at a temperature of 110°C, min; 20 - duration of cooling period for cans of product in water with variable temperature from 90 to 40°C, min.

An example of the method.

Prepared fruits are packaged in jars, then the jar with the product is placed in a microwave chamber for 1.5 minutes, where an electromagnetic field with a frequency of 2400 ± 50 MHz is excited using a magnetron. After microwave treatment, syrup at a temperature of 98°C is poured into the jars, placed again in the microwave chamber for 1.5 minutes and the contents of the jars are heated to 92°C. Subsequently, the jars are covered with lids and placed for 2 minutes in a chamber with infrared lamps to sterilize the lids, then rolled up and heated in a dimethyl sulfoxide solution at a temperature of 110°C for 8 minutes. After this time, the jars are cooled for 20 minutes in water, reducing its temperature from 90 to 40°C.

The essential distinctive features of the proposed method are: preheating of fruits packaged in jars for 1.5 minutes in a microwave chamber with a frequency of 2400 ± 50, reheating of jars with the product after pouring the syrup at a temperature of 98°C in a microwave chamber for 1 ,5 minutes to 92°C, followed by covering the cans with lids and placing the cans for 2 minutes in a chamber with infrared lamps, sealing and heating in a dimethyl sulfoxide solution with a temperature of 110°C for 8 minutes, followed by cooling for 20 minutes in water with variable temperature from 90 to 40°C.

Pre-heating of fruits and fruits filled with syrup in a microwave field before sealing helps to remove most of the air from the fruits and jars and sealing at a temperature of 92°C reduces the excess pressure in the jar to a value that ensures sterilization of canned food in open-type devices, without back pressure and without special carriers ensuring mechanical tightness, and placing cans covered with lids in a chamber with infrared lamps provides both additional degassing and sterilization of the lids themselves.

In addition, removing air from the jar before sealing stops oxidative processes and ensures more complete preservation of the biologically active components contained in the fruit. The content of vitamin C in the finished product sterilized using this method is 25% higher than in compote sterilized using traditional technology.

This mode provides a reduction in the duration of the process compared to the traditional one by 32 minutes and thereby improves the quality of the finished product, saves thermal energy and water, as well as the ability to sterilize canned food in open-type devices without creating back pressure, which does not require the presence of bulky device designs.

Literature

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

Claims (1)

A method for producing cherry compote, characterized by the fact that jars with fruits packaged in them are treated with a microwave field with a frequency of 2400±50 MHz for 1.5 minutes before pouring the syrup, then the syrup is poured at a temperature of 98°C, after which the microwave is re-treated -field for 1.5 minutes and heat the contents of the jars to 92°C, then cover the jars with lids, place the jars with the product for 2 minutes in a chamber with infrared lamps, seal and sterilize according to the regime , where 8 is the duration of the heating period of cans with the product in a dimethyl sulfoxide solution at a temperature of 110°C, min; 20 - duration of the cooling period for cans of product in water with a variable temperature from 90 to 40°C, min, without creating back pressure in an open type apparatus.