RU2566021C1 - Cherry compote sterilisation method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention is intended for usage in food industry, in particular, during cherry compote preservation. The sterilisation method involves sequential heating in an air flow at 120°C at a rate of 2.75 m/s during 22 minutes and showering with 115°C dimethylsulfoxide solution during 3 minutes with subsequent cooling in an atmospheric air flow at 20-22°C at a rate of 7-8 m/s during 15 minutes. During each heat treatment process the jar is subjected to interrupted 2-3-minutes' turning upside down with a frequency equal to 0.133 sec^-1 with a 2-3 minutes' interval.

EFFECT: method ensures the heat treatment duration reduction and the ready product quality enhancement.

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Description

The invention relates to the canning industry, and in particular to methods for sterilizing compote from cherries in cans SKO 1-82-500.

Sources that were searched by this method showed that the prototype of the proposed method is a method for sterilizing compotes [1], the essence of which is that the rolled cans are placed in a sterilization apparatus (autoclave) and subjected to heat treatment according to the regime

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

The disadvantages of this method are the long duration of the heat treatment process, which affects the quality of the finished product; uneven heat treatment of different layers of the product in the bank, the peripheral layers receive excessive heat exposure.

The technical result of the invention is aimed at creating a method for the production of compote, contributing to a reduction in 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 peels; improving the structural and mechanical characteristics of the finished product and preventing the thermal battle of cans during the heat treatment.

The specified technical result is achieved due to the fact that according to the proposed method, the cans with compote after seaming are installed in a special carrier, which prevents the caps from breaking off during the heat treatment, and they are processed by heating in an air stream with a temperature of 120 ° C and a speed of 2.75 m / s for 22 min with continued heating by dimethyl sulfooxide (DMSO) solution at a temperature of 115 ° C for 3 min, followed by cooling in a stream of atmospheric air at a temperature of 20-22 ° C and a speed of 7-8 m / s for 15 minutes, and in this process, the jar is subjected to intermittent 2-3-minute rotation from the bottom to the lid at a frequency of 0.133 s ^-1 with an interval of 2-3 minutes.

An example implementation of the method.

Cans with compote after sealing the lid are installed in a carrier that provides mechanical tightness (to prevent the lid from tearing off during heating) and placed in a chamber where heated air circulates at a temperature of t _in = 120 ° C and a speed of 2.75 m / s, and for 22 minutes, the contents of the cans are subjected to heating while the cans are intermittently 2-3 minutes rotated from the bottom to the lid at a frequency of 0.133 s ^-1 with an interval of 2-3 minutes with continued heating by dimethyl sulfoxide (DMSO) solution at 115 ° C for 3 min at one temporary intermittent 2-3-minute rotation of the can from the bottom to the lid with a frequency of 0.133 s ^-1 with an interval of 2-3 minutes, followed by cooling in a stream of atmospheric air with a temperature of 20-22 ° C and a speed of 7-8 m / s for 15 min, and the jar is also subjected to intermittent 2-3-minute rotation from the bottom to the lid with a frequency of 0.133 s ^-1 with an interval of 2-3 minutes.

Preheating the cans with compote in a stream of heated air prevents the thermal battle during subsequent sterilization with a solution of dimethyl sulfoxide (DMSO) at a temperature of 115 ° C, and the use of a solution of dimethyl sulfoxide (DMSO) at a temperature of 115 ° C at the second stage provides an intensification of the heat treatment process, since the heat transfer coefficient from it is several times higher than from air.

Salient features of the proposed method are: cans with the product are heated in a stream of heated air with a temperature of 120 ° C and a speed of 2.75 m / s for 22 min, followed by heating by douche with a solution of dimethyl sulfoxide (DMSO) at a temperature of 115 ° C for 3 min subsequent cooling in a stream of atmospheric air with a temperature of 20-22 ° C and a speed of 7-8 m / s for 15 minutes, and in this case, the jar is subjected to intermittent 2-3-minute rotation from bottom to bottom during heat treatment with a frequency of 0.133 s ^{- 1} s inter 2-3 min shaft

This mode provides improved quality of the finished product by reducing the duration and ensuring the uniformity of heat treatment. The product manufactured by the proposed technology has a relatively high, 30-35%, vitamin C content, as well as improved structural and mechanical characteristics and the quality of the syrup.

Literature

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

2. B.L. Flowmenbaum. Basics of food preservation. M .: Light and food industry, 1982.

Claims (1)

A method of sterilizing cherry compote, including the installation of cans in a carrier, ensuring the caps are not torn off during the heat treatment, and processing processes by heating and cooling, characterized in that the compote is heated sequentially in a stream of air at a temperature of 120 ° C and a speed of 2.75 m / s for 22 min and inoculation with a solution of dimethyl sulfooxide (DMSO) at a temperature of 115 ° C for 3 min, followed by cooling in a stream of atmospheric air at a temperature of 20-22 ° C and a speed of 7-8 m / s for 15 min, while every m the processing of the jar is subjected to intermittent 2-3-minute rotation from the bottom to the lid with a frequency of 0.133 s ^-1 with an interval of 2-3 minutes