RU2718257C2 - Apple compote production method - Google Patents

Abstract

FIELD: canning industry.SUBSTANCE: method for production of apple compote is characterized by the fact that fruits laid in a jar are heated by cyclic injection of saturated water vapor with a temperature increasing for cycle by 10 °C for 72 s. After that, syrup is poured, sealed and sterilized in autoclave according to a certain mode.EFFECT: invention allows to reduce sterilization duration, reduce non-uniformity of heat treatment, as well as heat energy saving and finished products quality enhancement.1 cl, 1 ex

Description

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

Sources that were searched by this method showed that the prototype of the proposed method is a compote production method [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 - the duration of heating the water in the autoclave to 100 ° C, min; 18 - the duration of their own sterilization, min; 20 - cooling time, min. The total duration of the regime is 58 minutes

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 the product in the bank and high consumption of heat energy and water.

The technical result of the method is aimed at reducing the duration of the heat treatment process, saving heat energy and water, and improving the quality of the finished product.

с последующим продолжением охлаждения в другом автоклаве или емкости по режиму

.The specified technical result is achieved due to the fact that according to the proposed method, the cans after laying the fruits are placed in the chamber and the fruits are heated for 72 s by cyclic supply of saturated water vapor with increasing temperature to the cans, the duration of the steam supply and soaking cycles is 6 s and 6 s, respectively, and the temperature of the steam from 100 ° C, with each cycle increases by 10 ° C, and in this case, in each cycle of steam supply, the outer surface of the cans is blown with air heated to a temperature of 120-130 ° C, after why pour syrup at a temperature of 97-98 ° C, seal and sterilize in an autoclave according to the regime:

followed by continued cooling in another autoclave or container according to the regime

.

An example of the method

Prepared fruits are laid in jars in accordance with the current technological instructions. Further, according to the current technological instructions, syrup with a temperature of 80-85 ° C is poured into the jars, sealed and sent to an autoclave for sterilization. We propose that the fruits, packaged in jars, be heated for 72 s by means of a cyclic, with an interval of 6 s, steam supply (6 s steam supply, then 6 s exposure) with a temperature increasing from cycle to cycle by 10 ° С: in the first cycle ( the first 6 s) steam is supplied at a temperature of 100 ° C, in the second cycle (second 6 s) steam is supplied to the cans with a temperature of 110 ° C, in the third cycle for 6 s steam is supplied at a temperature of 120 ° C and so on for 72 s (in the last cycle, the steam temperature is 150 ° С), while the surface of the can, in order to prevent thermal battle, is injected into the cycles steam in a jar is blown with air heated to 120-130 ° С. After that, syrup with a temperature of 97-98 ° C is poured into the jars, rolled up and sent for sterilization to an autoclave. The average initial temperature of the product in the jar after sealing is 82 ° С, and according to the current technological instruction 45 ° С.

The use of pulsed heating of fruits with steam with a cyclically increasing temperature provides the possibility of intensifying the process of heating the fruits in banks by increasing the temperature difference, as well as increasing the temperature of the fruits, and thereby reduces the duration of sterilization modes.

Thus, the initial temperature of the product according to the proposed method before sterilization is 82 ° C, i.e. 37 ° C more than the canning method according to the current technological instructions, which will help to reduce the temperature difference between the most and least heated points of the product during sterilization, since the heating of the product will start from the same temperature for the center and periphery, equal to 82, and not 45 ° C.

Since the syrup is boiled at 100 ° C, and the temperature when filling the cans is about 80-85 ° C, there is an ineffective loss of thermal energy for cooling the syrup from 100 ° C to 80 ° C; in addition, according to the regime of the current technological instruction, cooling of canned food to an autoclave water temperature of 40 ° C is provided, which is also associated with large losses of thermal energy and water.

An increase in the initial temperature of the product in the cans before sterilization allows, firstly, to increase the initial temperature of the water in the autoclave before loading the cans for sterilization by up to 90 ° C, compared with the initial temperature of the water in the autoclave during sterilization according to the regime of the current technological instruction (55-60 ° C), and secondly, to reduce the backpressure in the apparatus to 88 kPa, and also allows the canning to be cooled to the final temperature in two stages, without causing the caps to come off from the cans, since the pressure arising it in banks during sterilization according to the proposed method due to the relatively high temperature of the product during sealing is slightly lower than during sterilization according to the regime of the current technological instructions.

In connection with the above, it is proposed to cool canned food during sterilization according to the proposed method in two stages: in the first autoclave, where the process of heating to the sterilization temperature and aging is carried out, cool the canned food to the water temperature in the autoclave, equal to 55 ° С, i.e. 15 ° C more than according to the regime of the current technological instruction, followed by continued cooling in another autoclave or container without backpressure and a water temperature of 35 ° C.

с последующим продолжением охлаждения в другом автоклаве или емкости по режиму

, где: 8 - продолжительность подогрева воды в автоклаве от 90 до 100°С, мин; 10 - продолжительность периода собственной стерилизации при 100°С воды, мин; 12 - продолжительность периода охлаждения воды в автоклаве от 100°С до 55°С, мин; 5 - продолжительность охлаждения во втором автоклаве (емкости) при 35°С, мин; 90 - начальная температура воды в автоклаве перед загрузкой консервов, °С; 100 - температура стерилизации, °С; 55 - конечная температура воды в первом автоклаве, °С; 35 - температура воды во втором автоклаве (емкости) °С; 88 - противодавление в первом автоклаве, кПа.This cooling method allows, firstly, to reduce the duration of the cooling process due to the large temperature difference, and to reduce the time and significantly save thermal energy for heating water in an autoclave before loading another batch of canned food, since in this case the water will not be heated from 40 ° C, as is accepted according to the regime of the current technological instruction, and from 55 ° C, and, in addition, there is a saving in cooling water. The sterilization mode of canned food in an autoclave according to the proposed method can be expressed as follows:

followed by continued cooling in another autoclave or container according to the regime

where: 8 - the duration of heating the water in the autoclave from 90 to 100 ° C, min; 10 - the length of the period of its own sterilization at 100 ° C of water, min; 12 - the duration of the period of cooling water in an autoclave from 100 ° C to 55 ° C, min; 5 - the duration of cooling in the second autoclave (capacity) at 35 ° C, min; 90 - the initial temperature of the water in the autoclave before loading canned food, ° C; 100 - sterilization temperature, ° C; 55 - final water temperature in the first autoclave, ° C; 35 - water temperature in the second autoclave (capacity) ° C; 88 - back pressure in the first autoclave, kPa.

Salient features of the proposed method are preheating of fruits prepared and placed in jars for 72 s by cyclic supply of saturated water vapor with a temperature rising from 100 to 150 ° С, while in the steam supply cycles, the outer surface of the cans is blown with air heated to a temperature of 120 -130 ° C, followed by filling with syrup with a temperature of 97-98 ° C, sealing and sterilization in an autoclave according to the new regime with two-stage cooling.

The mode provides the industrial sterility of canned food, reduces the duration of the process of thermal sterilization and improves the quality of the finished product.

Literature

1. A collection of technological instructions for the production of canned food, t. 2, - M .: Food industry, 1990.

Claims (1)

A method of producing apple compote, characterized in that the fruits after packaging in cans are heated for 72 s by cyclic supply of saturated water vapor with increasing temperature to the cans, the duration of the steam supply and soaking cycles is 6 s and 6 s, respectively, and the temperature steam from 100 ° C with each cycle increases by 10 ° C, and at the same time in each cycle of steam supply, the outer surface of the cans is blown with air heated to a temperature of 120-130 ° C, after which it is poured with syrup at a temperature of 97-98 ° C, seal they are insulated and sterilized in an autoclave according to the regime:

followed by continued cooling in another autoclave or container according to the regime

.