RU2405393C2 - Apple compote sterilisation method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: method envisages apple compote heating in a 135°C heated air flow during 15 minutes with subsequent compote maintaining during 3 minutes in a chamber at a temperature of 100 - 105°C. Then cooling is performed in an atmospheric air flow at a temperature of 18-25°C and at a speed of 7-8 m/s during 5 minutes. Then one continues cooling means of alternate application of a 65-70°C water film on the jar surface for 5 minutes. During heat treatment, the jar is turned upside down.

EFFECT: method provides for significant thermal energy and water saving.

Description

The proposed method for the invention relates to the canning industry, and in particular to methods for sterilizing apple compote 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 10-20 - the duration of heating the water in the autoclave to 100 ° C, min; 10-15 - the duration of their own sterilization, min; 20 - cooling time, min. The total duration of the regime is 40 ÷ 55 min, depending on the type of raw material.

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 temperature difference between the central and peripheral layers reaches 6-7 ° C and, accordingly, the magnitude of the sterilizing effects are not the same; the peripheral layers receive excessive heat exposure);

- high consumption of thermal energy and water.

The aim of the proposed method is to reduce the duration of the heat treatment process, save heat energy and water and improve the quality of the finished product.

This goal is achieved due to the fact that according to the proposed method, the cans after seaming are installed in a special carrier that provides mechanical tightness of the cans, and are subjected to heat sterilization in a stream of heated air at a temperature of 135 ° C and a speed of 8.5 m / s for 15 minutes followed by holding for 3 min in a chamber with a temperature of 100-105 ° C and subsequent cooling in a stream of air with a temperature of 18-25 ° C and a speed of 7-8 m / s for 5 minutes with continued cooling with alternating application of a water can on the surface films with a temperature of 65-70 ° C for 5 minutes, and during the heat treatment, the cans rotate from the “bottom to the lid” with a frequency of 0.133 s ^-1 .

An example implementation of the method.

Banks with compote after sealing cover mounted in a carrier providing the mechanical tightness (to prevent cap failure during heating) and placed in a chamber where the hot air circulating _{in the} temperature t = 135 ° C and a speed of 8.5 m / s, and the contents of the cans are heated for 15 minutes, then the carrier with the cans is transferred for 3 minutes to a holding chamber with an air temperature of 100-105 ° C, followed by cooling in an air stream with a temperature of 18-25 ° C and a speed of 7-8 m / s for 5 min with continued cooling with alternating nan by applying a water film with a temperature of 65-70 ° C to the surface of the can for 5 minutes, and during the heat treatment, the cans rotate from “bottom to cover” with a frequency of 0.133 s ^-1 .

The stepwise cooling of canned food in a stream of atmospheric air with continued cooling with the application of a water film on the surface of the jar allows to intensify the cooling process and at the same time at the initial stage of cooling, to a temperature of 75-85 ° C, when the lethality coefficient is relatively significant and has a significant sterilizing effect, cooling is carried out slowly in the stream of atmospheric air, and then when the lethality coefficient approaches 1 and since the sterilizing effect of the temperature Ura below 75-85 ° C slightly [2], the cooling process continues intensively with the application of a water film on the surface of the jar.

Salient features of the proposed method are: the compote is heated in a stream of heated air with a temperature of 135 ° C and a speed of 8.5 m / s for 15 minutes, followed by exposure at a temperature of 100-105 ° C for 3 minutes and cooling in a stream of atmospheric air at a temperature of 18-25 and a speed of 7-8 m / s for 5 min, with continued cooling with alternating application of a water film on the surface of the cans with a temperature of 65-70 ° C for 5 minutes, and during the heat treatment, the cans rotate from the “bottom to the lid” "Frequency 0.133 s ^-1 .

The total duration of the sterilization process according to the proposed method is 28 minutes, i.e. the duration of sterilization is reduced by 12-27 minutes compared with the prototype. This mode ensures the industrial sterility of canned food, which is confirmed by the magnitude of the sterilizing effect, which corresponds to the standard value of 150-200 srvc. min [2].

Information sources

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

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

Claims (1)

A method of sterilizing apple compote, characterized in that the cans with compote are installed in a carrier that provides tightness, then the compote is heated in a stream of heated air at a temperature of 135 ° C and a speed of 8.5 m / s for 15 minutes, followed by exposure for 3 min in a chamber with a temperature of 100-105 ° C and cooling in a stream of atmospheric air with a temperature of 18-25 ° C and a speed of 7-8 m / s for 5 min with continued cooling with alternating application of a water film at a temperature of 65-70 ° on the surface of the can C for 5 min, pr during this heat treatment rotate with banks "on the bedplate cover" at a frequency of 0.133 s ^-1.