CS242467B1 - Prolongation method of the charge eggs storage life by means of expanded silicates - Google Patents

Abstract

The invention resolves energy-saving in order to increase the shelf life of the hatching eggs for 15 to 22 days by storage in a wetted microenvironment with expanded silicates at room temperature 12 to 24 ° C and relative humidity 80 to 88%. A stable storage environment is achieved in a double-skinned box whose walls are filled with a 150 mm layer of expanded silicates. Wetting is done either by spraying walls, or silicates moistened with 1% volume water into the box simultaneously with the location hatching eggs. Boxes are placed into direct-protected areas by causing weather conditions with room temperature from +12 to +24 ° C. storage hatching eggs in the microenvironment wetted expanded silicates compared to storage in air-conditioned hatching warehouses for hatching eggs stored for 15 days by 13% a 26% when stored up to 22 days.

Description

(54) Method of extending the shelf life of hatching eggs using expanded silicates

Ϊ

The invention solves in an energy-efficient manner by extending the shelf life of hatching eggs for 15 to 22 days by storing them in a microenvironment formed by moistened expanded silicates at a temperature of 12 to 24 ° C and a relative humidity of 80 to 88%.

A stable storage environment is achieved in a double-shell box, the walls of which are ripped with a 150 mm layer of expanded silicates. Moisturizing is done either by spraying the walls or by placing a silicate moistened with 1% by volume water into the box at the same time as the hatching eggs are placed. The boxes are placed in rooms protected from direct weathering with a room temperature of +12 to +24 ° C. By storing hatching eggs in the microenvironment of moistened expanded silicates, the hatching rate for hatching eggs stored for 15 days is increased by 13% and for storage for up to 22 days by 26% compared to storage in air-conditioned warehouses.

The invention solves prolonging the shelf life of hatching eggs.

Hatching eggs, even under optimum storage conditions, lose weight by age, changing their biological properties, thus reducing the life of the embryo and hatching (Halaj, Kopernický, 1975),

The best hatching results were obtained for hatching eggs stored for 24 to 60 hours (Brooke, 1960). Bohren, Grittenden, King (1961) found that storing hatching eggs over 5 days significantly reduced hatching and increased embryonic mortality. The causes of declining hatching and the increasing storage time of hatching eggs have not been known and precisely identified throughout the entire complex.

Oxidation processes in the egg are considered to be the main cause of the "aging" of hatching eggs. A hatching egg is a living organism whose life manifestations are extinguished by the duration of the critical plus and minus temperatures limiting the life of the protein formations.

Another cause of the loss of the life time of the hatching egg is due to the increasing alkaline reaction of egg white and, in part, the yolk.

The loss of carbon dioxide from the egg content is a major cause of the pH rise. As carbon dioxide escapes through the shell, the concentration of bicarbonate whites ions, which are considered to be a protective buffer system in the egg, also changes, causing the system to break.

The original pH of the egg white can be maintained by increasing the intrinsic concentration of carbon dioxide in the egg and its microenvironment. In accordance with the above cited knowledge, some recommendations apply to storage eggs for hatching eggs such as the storage of blunt-pole storage eggs, flipping eggs during storage for more than a week, maintaining a certain temperature and humidity during storage (8-12 ° C and relative humidity) 55 to 75% according to DIN 46 64 09 of 1973 or a temperature of 16 to 18 ° C and relative humidity of 55 to 75% according to ON 46 6505 of 1981).

Several attempts have been made to prolong the shelf life of eggs for hatching, such as packing eggs in cryovac and polyethylene containers, preheating the eggs prior to storage or incubation, etc., but although in some cases the results in hatchery practice have been positive.

Hatching eggs are generally stored in air-conditioned warehouses for up to 7 days, up to 14 days, at temperatures and relative humidity values as indicated by the previously cited standards of DIN 46 64 09 of 1972 or ON 46 6505 of 1981.

This method of storage is demanding on air conditioning technology and the energy required for air conditioning and the hatching effect of longer stored eggs is very low.

According to the invention, the storage of hatching eggs for 15 to 22 days while maintaining their biological value is achieved by storing them in an environment moistened with expanded silicates of grain size above 0.5 millimeters and with a bulk density of 50 to 100 kg / m ³ on hazels at 12 to 24 ° C and a relative humidity of 80-88%.

The moistened expanded silicates create a gradual stable microenvironment for the hatching eggs with a strong bond of temperature and relative humidity. The dynamics and intensity of water evaporation from moistened expanded silicates is directly proportional to the temperature of the microenvironment.

In the initial storage phase, the microclimatic conditions of the storage microenvironment are adjusted. Evaporation of water in turn affects the temperature of the microenvironment by removing the latent heat required to convert water into water vapor.

Evaporation takes place automatically only after stable temperature and relative humidity values have been reached, which at this temperature have a high degree of saturation. By the complex action of the stabilized microenvironment created by moistened expanded silicates, the oxidation processes in the egg are reduced, the carbon dioxide output from the egg is blocked, and its biostructures are stabilized, which leads to the preservation of biological value even in long-term stored hatching eggs.

Advantageously, the microenvironment is formed in a double-shell box according to the invention located in an area having a temperature of +12 to +24 ° C, wherein the walls, ceiling and door of the boxes are filled with 140-160 mm thick filler of expanded silicates. from 50 to 100 kilograms / m ³ , moistened before the storage process with 1% water by volume.

The prolongation of the shelf life of hatching eggs is still currently in breeding to obtain larger groups from one batch for the purposes of evaluating the statistical demonstration of genetic gains, the combinability and the selection effect of the breeding lines and populations.

The extension of shelf life is also important for breeding holdings with smaller numbers of parental populations and in hatcheries with egg-laying intervals longer than 1 week. In addition, the cost of the air-conditioning equipment and the energy required for air-conditioning of the hatching egg warehouses by the technology used up to now will be saved.

The method of prolonging the shelf life of hatching eggs follows the hitherto used systems of their collection, sorting and treatment. In contrast to prior art storage in air-conditioned hatching egg warehouses from treatment to insertion in the hatchery, they are stored in a stabilized microenvironment formed by moistened expanded silicates at a constant temperature and relative humidity.

The apparatus for producing the desired stabilized microenvironment is a box, the axonomical view of which is shown in FIG. 2. The ceiling door and three vertical walls are made of double-skin panels filled with expanded silicates, the bottom is solid, made of 3 cm thick wooden panel.

The design of the double-skin panel is shown in FIG. 1: a front view of the outer and inner shell of the panel is in part A, the shell being formed by a frame structure 1, a reinforcement of the frame structure 2 and a nylon mesh 3 having a mesh size of 0.5 millimeters; a cross-section of the double-skin panel is shown in part B where the frame and stiffening structure of the inner and outer skins 1, 2 is a nylon mesh 3; the space between the skins is filled with expanded silicate 4. The inner distance of the outer and inner skins is 150 mm.

At the top, bottom and sides the skins are joined to the panel by a panel 5. The joining of the individual panels to the box must be airtight and therefore the joints are provided with a sealing insert 6 as shown in Figure 1 of Part C.

The door closing device is provided with a pressing mechanism and the contact surfaces of the door with the panels are provided with a sealing insert. The inside clearance of the box is in all dimensions larger than the peripheral dimensions of the trolley by 150 mm. The wooden construction elements of the box can be replaced by equally strong plastic materials. As an expanded silicate, experite 150 with a grain size above 0.5 mm and a bulk density of 50 to 100 kg / m ³ can be used.

The space for placing the box must be protected against direct weathering so that the temperature does not rise above +24 ° C and do not fall below +12 ° C. Before placing eggs, the expanded silicates are moistened from the inside of the box with a gentle spray of water or a box with moistened expanded silicates is placed in the box.

The wetting is carried out in a volume ratio of 1 part water to 50 parts expanded silicate. A cart with hatching eggs placed on the hazel is inserted into the box thus prepared and closed for storage. The stabilized environment is formed gradually over a period of 5 days from deposition, by evaporating the water from the expanded silicate under a given temperature of the microenvironment to the formation of 85% relative humidity.

The temperature in the sealed microenvironment after stabilization is 2 to 6 ° C lower than the temperature prior to the start of storage in the surrounding space. The temperature range in the microenvironment is directly proportional to the lowest and highest ambient temperatures, which are limited by values from +12 to +24 ° C. The relative humidity and temperature values reached in the micro-storage environment after stabilization are maintained until the end of storage.

Execution example

Hatching bags obtained from the same biological material of Slovgal hens were used for storage. Vials were divided into 3 groups of 420 pieces each and were numbered: control group 0; experimental group 1; experimental group 2. They were stored in hazelnuts and trolleys.

Control group 0 was placed in an air-conditioned hatching egg warehouse and stored at 17 ° C and 70-78% relative humidity.

Experimental group 1 was placed in box no. 1 and sprinkled with experts.

Experimental group 2 was placed in a double-shell box whose gaps between the walls were filled with moistened experite.

Thermohydrographs were placed in the boxes. The boxes were placed in the warehouse and hazel washroom and communicated with the outside environment through two open doors. The box for experimental group 1 intended for storing the eggs buried in the expertite had an inside diameter in all dimensions greater than the circumferential dimensions of the hazel trolley by 100 mm.

The double-shell box for test group 2 had a distance of inner and outer walls of 150 mm. The space between the walls was filled with expertlit. Inner diameter of double-shell box as in the first alternative. In both cases, water-injected experite per 100 l of water-injected expertl was used.

When the experiment was set up, the temperature in the environment of the boxes and thus also in them was 18 ° C and the relative humidity was 60%. Within 5 days the temperature dropped to 13 ° C and the relative humidity rose to 85% and these values were maintained at the same level until the end of storage.

The eggs were placed in the hatchery at storage periods of 8, 15 and 22 days. For each hatch, 1 hazel of 140 eggs marked with the group number was selected.

Hatching and hatching of all groups was performed for identity conditions in one hatchery and hatchery machine.

Claims (3)

BEFORE T E T 1. A method of extending the shelf life of hatching eggs for a period of 15 to 22 days, wherein the hatching eggs are stored in hazelnuts at a temperature of 12 to 24 ° C and a relative humidity of 80 to 88%, characterized in that the eggs are placed in the micro-environment moistened with expanded silicates of a grain size above 0.5 millimeters and a bulk density of 50 to 100 kg / m ³ . 2. A method for prolonging the shelf life of orchard eggs according to claim 1, characterized in that an expanded silicate moistened with 1% by volume water prior to the storage process is used to form the microenvironment. 3. Apparatus according to claim 1, comprising a double-skinned open box, the walls, ceiling and door of which are filled with expanded silicate of bulk density from 50 to 100 kg / m ³ with a layer thickness of 140 to 160 mm.