RU2598480C1 - Method for freeze-drying of lumpy food products and feedstuffs - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: present invention relates to drying equipment and can be used in food and feedstuff industry for drying plant and animal products. Method for freeze-drying large-sized products and feedstuffs includes heating a freeze-drying chamber, evacuating air with a pump, drying and draining condensate. Freeze-drying is carried out in two independently operating freeze-drying chambers, isolated from each other by a partition; steam with the temperature of 110 to 230 °C. is fed from five sides into a closed heating system made in the form of a heating jacket. Unloading of each chamber is performed when humidity reaches the preset value at continuous operation of the unit. To reduce heat losses freeze-drying chamber is covered with heat-insulating material.

EFFECT: use of the disclosed method widens the range and allows to increase particle size (pieces) of products and feedstuffs, ensures uniform heating of processed products throughout the volume of the freeze-drying chamber working at its full capacity, reduces specific energy consumption and processing times.

1 cl, 1 dwg

Description

The invention relates to drying equipment and can be used in the food, feed industry for drying products of plant and animal origin.

It is known "Device for vacuum drying of heat-sensitive materials" (US Pat. RU, No. 2357166, F26B 5/06, 05/27/2009), containing a working chamber, which contains shelves, desublimator, heating device, vacuum system, cold supply, etc.

Electric heating of baking sheets is not rational, since at the same time low fuel efficiency, placement of a sublimator and desublimator in the working chamber is not technological and not hygienic, the installation is inefficient.

Closest to the proposed invention is the "Installation for freeze-drying" (a.s. SU, 1430699, F26B 5/06, 10/15/1988) - taken as a prototype containing a vacuum chamber and placed in it carts with trays, condensers, a horizontal branch heater inserted into the gaps between the grooves of the pan.

The method implemented in the installation with individual heating of each baking sheet is not rational: a heater with horizontal branches occupies a significant amount of the sublimation chamber and is inconvenient to maintain, and also does not allow to process large-sized products.

The objective of the invention is to create a method for uniform heating of processed products throughout the volume of the sublimation chamber, its full use, expanding the range and size of particles (pieces), reducing specific energy costs and processing time.

The problem is achieved in that in the method of sublimation of lumpy products and feed, including heating the sublimation chamber, evacuating with air evacuation, drying and condensate drainage process, it is new that the sublimation process is carried out in two independently working sublimation chambers isolated from each other by a partition to which steam is supplied from five sides to a closed heating system made in the form of a steam jacket, the temperature of which is regulated from 110 to 230 ° C, while the discharge of each sublimation oh chambers are carried out upon reaching a predetermined humidity, with continuous operation of the installation, and to reduce heat loss, sublimation chambers are coated with heat-insulating material.

To ensure the continuous operation of all systems and increase the productivity of the installation, two autonomously working sublimation chambers are provided, which allows loading, unloading and sanitization of any of them without stopping the process.

Steam supply for heating sublimation chambers into a closed heating system made in the form of a steam jacket is associated with the need to maintain a uniform, identical temperature at each point in the volume of the chambers, as well as to uniformly heat the processed product (large-sized), excluding the ingress of steam into the chambers.

The conservation (reduction of losses) of heat in the sublimation chambers and the elimination of its losses during unloading are provided by coating the heat-insulating material of the steam shirts of the sublimation chambers and the heat-insulating partition located between them, which in turn reduces the specific cost of energy and processing time.

The steam temperature range of 110-230 ° C depends on the assortment, the size of the pieces and is established experimentally (B.P. Kamovnikov, L.S. Malkov, V.A. Voskoboinikov. M: Agropromizdat, 1985, p. 229- 232, tab. 6-1).

The essence of the invention implemented in the "Installation for the sublimation of lumpy foods and feed", is illustrated in Fig. - installation diagram for the sublimation of lumpy foods and feed.

The sublimation installation contains two autonomously operating sublimation chambers 1, 2 (see Fig.), Double-walled on five sides, with a distance between the walls δ, in the cavity of which a closed heating system circulates, in the form of a steam jacket connected to independent steam supply 3, 4, equipped with valves 5, 6. Sublimation chambers 1, 2, separated by a heat-insulating partition 7, have heat-insulating hermetically sealed doors 8, 9 and vacuum wires 10, 11. Inside the sublimation chambers 1, 2 are placed trolleys 12, 13 with baking sheets The bottom of the sublimation chambers 1, 2 are mounted cranes 14, 15 for discharging condensate and the top of the valves 16, 17 for discharging residual steam from the steam shirts and their washing with themselves sublimation chambers 1, 2 are covered with insulating material 18.

Installation for sublimation of lumpy foods and feed works as follows.

Pre-frozen in baking sheets, large-sized (chopped fish, vegetables, fruits), as well as possibly finely ground (1.0-10 mm) processed materials are placed in the trolley 12 (Fig.) And loaded into the sublimation chamber 1, the door 8 is closed, it is turned on a vacuum drive (not shown in FIG.), and through the steam supply 3, with the valve 5 open, steam is supplied to the steam jacket of the sublimation chamber 1 and the sublimation unit 1 begins to function. Next, the prepared processed materials are placed in the cart 13 and loaded into the sublimation chamber 2, the door 9 is closed, the vacuum drive (not shown) is turned on, and through the steam supply 4, with the valve 6 open, the steam jacket of the sublimation chamber 2 is fed steam and sublimation unit 2 also starts. Sublimation takes place: the product is uniformly heated, with moisture evaporating in the form of frozen water molecules leaving the wires 10, 11 through the vacuum, and condensate is discharged through the taps 14, 15, with the taps 16, 17 in steam jackets open. When the specified humidity of the processed product in the sublimation chamber 1 is reached, unloading is performed in the following sequence: the valve 5 for supplying steam 3 is closed, the vacuum wire 10 is turned off, the door 8 is opened, the carriage 12 is unloaded and the sublimation chamber 1 is sanitized and the steam jacket is washed. In this case, the sublimation chamber 2 continues to work in a given mode. Then the sublimation chamber 1 is loaded with a new portion of the processed material and is included in the work in the above sequence. Upon reaching a predetermined humidity of the processed product in the sublimation chamber 2, it is unloaded similarly to the sublimation chamber 1 and further regular loading. Due to the alternate loading and unloading of sublimation chambers 1, 2, the installation itself for the sublimation of lumpy foods and feeds works continuously. The above process relates to the sublimation of similar products. When processing products of different types, sizes and humidity, unloading in sublimation chambers is carried out as the desired humidity is reached. The presence of the coating of sublimation chambers 1, 2 with heat-insulating material 18 and their separation by a heat-insulating partition 7 reduces heat loss during operation of the chambers, as well as during unloading and loading.

Thus, the application of the proposed method of sublimation of lumpy products and feeds allows you to expand their range and particle sizes (pieces), to produce uniform heating of processed products throughout the volume of the sublimation chamber, with more complete use, and to reduce the specific energy costs and processing time.

Claims (1)

The method of sublimation of lumpy foods and feeds, including heating the sublimation chamber, evacuating with air evacuation, drying and condensate drainage process, characterized in that the sublimation process is carried out in two autonomously working sublimation chambers, isolated from each other by a partition to which is closed from five sides the heating system, made in the form of a steam jacket, steam is supplied, the temperature of which is regulated from 110 to 230 ° C, while each sublimation chamber is unloaded upon reaching the set minutes humidity during continuous operation of the plant and to reduce losses of heat sublimation chamber coated with insulating material.

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