RU2650898C1 - Apricot compote preservation method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: method of apricot compote preserving is that the fruits laid in a jar are heated by cycling the saturated steam with a temperature of 105–110 °C for 80 sec. Duration of the steam supply and holding cycles is 10 and 10 sec, respectively. Meanwhile, during the whole process of steam supply, the outer surface of the cans is blown by a stream of air at a speed of 5–6 m/sec, heated to a temperature of 110–120 °C. After that, a syrup with a temperature of 95–97 °C is poured into the cans, subjected to their preliminary cover rolling, heating in a stream of air at a temperature of 140 °C and a speed of 6.5–7 m/sec for 5 minutes to 90–92 °C. Then covers are completely rolled and heating in hot water with a temperature of 100 °C is continued for 10 min with further stepwise cooling in water with temperatures of 80, 60 and 40 °C, respectively, for 4, 4 and 5 minutes.

EFFECT: invention provides a reduction in the duration of sterilization, a reduction in the unevenness of heat treatment, as well as the prevention of the thermal battle of cans and the improvement of the finished product quality.

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Description

The proposed method for the invention relates to the canning industry, and in particular to methods for the production of stewed apricots in cans SKO 1-58-200.

Sources, which were searched by this method, showed that the prototype of the proposed method is a method of producing compote from apricots [1], the essence of which is that rolled cans of the product are placed in a sterilization apparatus (autoclave) and subjected to heat treatment using mode:

where 20 is the duration of heating the water in the autoclave to 100 ° C, min; 10 - the duration of their own sterilization, min; 20 - cooling time, min; 118 - back pressure in the autoclave, kPa; 100 - sterilization temperature, ° C. The total duration of the regimen is 85 minutes.

The disadvantages of this method are:

- the long duration of the process and the unevenness of the heat treatment of the product in the bank, which affects the quality of the finished product; the complexity of the sterilization process, which requires the process in a backpressure apparatus, or the need to install cans in special media to prevent tearing of the lids from the cans during heat treatment.

The technical result of the invention is aimed at creating a method for the production of compote contributing to: reducing the duration of the process; preservation of biologically active components of the raw materials used; reducing the number of boiled fruits and fruits with cracked skin; prevention of heat battle of cans and providing the possibility of heat treatment of canned food in open-type apparatuses without creating back pressure in the apparatus and without the use of carriers for mechanical sealing of cans in the course of heat treatment.

The specified technical result is achieved due to the fact that according to the proposed method, the cans are placed in the chamber after laying the fruits and the fruits are heated for 60 s by cyclic supply of saturated water vapor to the cans at a temperature of 105-110 ° C, the duration of the steam supply and its exposure cycles is 10 s and 10 s respectively, while during the entire steam supply process, the outer surface of the cans is blown with an air stream at a speed of 5-6 m / s, heated to a temperature of 110-120 ° C, after which the syrup is poured into the cans with a temperature 95-97 ° C, subjected to preliminary podkatke lids, placed in a chamber where the heated air circulates _{in the} temperature t = 140 ° C and a speed of 6.5-7 m / s, and within 5 min the contents of the cans subjected to heating up to 90-92 ° C, then the cans are finally rolled up and placed in a hot water bath with a temperature of 100 ° C and for 10 minutes the contents of the cans are heated to 97-98 ° C, followed by cooling in 80 ° C water baths for 4 minutes , then in water with a temperature of 60 ° C for 4 min and 40 ° C for 5 min.

An example implementation of the method.

The cans with pre-packaged fruits are placed in the chamber and the fruits are heated for 60 s by cyclic supply of saturated water vapor to the cans with a temperature of 105-110 ° C, the duration of the steam supply and soaking cycles is 10 s and 10 s, respectively, during the whole the steam supply process, the outer surface of the cans is blown with an air stream at a speed of 5-6 m / s, heated to a temperature of 110-120 ° C. Then poured into jars syrup temperature 95-97 ° C, subjected to preliminary podkatke lids, placed in a chamber where the heated air circulates _{in the} temperature t = 140 ° C and a speed of 6.5-7 m / s, and within 5 min the contents cans are heated to 90-92 ° C. Then the cans are subjected to final rolling and placed in a hot water bath with a temperature of 100 ° C and for 10 minutes the contents of the cans are heated to 97-98 ° C, followed by cooling in 80 ° C water baths for 4 minutes, then water at 60 ° C for 4 min and 40 ° C for 5 min.

The salient features of the proposed method are: preheating the fruit prepared and placed in jars for 60 s by cyclic supply of saturated water vapor with a temperature of 105-110 ° C, while during the entire steam supply process, the outer surface of the jars is blown with air heated to a temperature of 110 -120 ° C, and a speed of 5-6 m / s, followed by filling the cans with syrup at a temperature of 95-97 ° C, pre-rolling the cans with lids, followed by heating the pre-rolled cans with the product ohm in a stream of heated air with a temperature of 140 ° C and a speed of 6.5-7 m / s for 5 min with further recharging and continued sterilization in hot water with a temperature of 100 ° C for 10 min and stepwise cooling in series in water baths with temperatures of 80 , 60 and 40 ° C respectively 4, 4 and 5 min.

Preheating fruits in jars with saturated steam and fruits filled with syrup in jars with rolled lids up to 90-92 ° C in a stream of heated air, removes air from the jars during heating and thereby reduces the pressure in the jars, which allows the sterilization process to continue carry out cans without backpressure after additional filling, which greatly simplifies the design of canned sterilizers. In addition, the removal of air from the cans helps to prevent oxidative processes and more complete conservation of biologically active components (the vitamin C content in the compote made according to the proposed method is 35% higher than by traditional technology, and also has a more pronounced aroma, taste and t .d.), characteristic of the feedstock.

The duration of the sterilization process according to the proposed method is 28 minutes, i.e. the duration of sterilization is reduced by 24 minutes compared with the prototype.

This mode ensures the industrial sterility of canned food, provides the possibility of heat sterilization without backpressure and special carriers for mechanical sealing of cans during the heat treatment, and provides an increase in the quality of the finished product by reducing the duration, removing air from the cans before sealing them and ensuring uniform heat treatment.

Literature

1. A collection of technological instructions for the production of canned food. T. 2, - M .: Food industry, 1977.

Claims (1)

A method of preserving apricot compote, characterized in that the fruits after packaging in cans are heated for 60 s by cyclic supply of saturated steam at a temperature of 105-110 ° C in cans, the duration of the steam supply and soaking cycles is 10 s and 10 s, respectively , during the whole steam supply process, the outer surface of the cans is blown with air heated to a temperature of 110-120 ° C and a speed of 5-6 m / s, after which syrup with a temperature of 95-97 ° C is poured into the cans, subjected to preliminary under attack and heating in a stream of air with a temperature of 140 ° C and a speed of 6.5-7 m / s for 5 minutes, followed by additional charging and continued heating in hot water with a temperature of 100 ° C for 10 minutes, with further stepwise cooling in water with temperatures of 80, 60 and 40 ° C, respectively, for 4, 4 and 5 minutes.