RU2650904C1 - Method of the infected animal corpses disinfection and disposal in field conditions and device for its implementation - Google Patents

Abstract

FIELD: veterinary medicine; environment protection.

SUBSTANCE: invention relates to veterinary medicine, in particular to the environment protection, and can be used for anthrax-infected animal corpses safe disposal. Proposed method of corpses of the animals that have died from the anthrax safe disposal is performed in two stages: in the first stage, dead animals bodies are packed into sacks at the place of their death. Bags are made of a gas-impermeable material with a bright unmasking color and with light reflection elements, tightness securing closing mechanism and are equipped with the over-pressure safety valve 4. In the bags, primary surface disinfection occurs, reinforced with additional hermetic filling of the bag contents by sporicidal gas OKEBM (ethylene oxide with methyl bromide) supply in a given dose, which, by filling the bag air space, is adsorbed by corpses and makes an additional disinfecting effect. In the second stage the corpses are delivered to the place of radical disinfection, then they are removed from bags and lowered to the bottom in a earlier prepared pit onto the heating element, in which the organic and inorganic wastes controlled decomposition is carried out by creating artificial conditions for constant optimal heating with the addition of a catalyst preparation, for example Baikal-M, to accelerate the fermentation processes, and then the pit is covered with a grate and above it a film with a valve and a repelling element is placed, at that, the film edges are sealed. After completion of the remains fermentation, a liquid OKEBM (a mixture of ethylene oxide and methyl bromide) gas at a predetermined dose is supplied under the film coating through a hermetically arranged opening, which, filling the air space under the film, is adsorbed by the formed medium mass and during exposure has a radical disinfecting effect on the dangerous infections pathogens, upon completion of the fumigation process with the sporicidal mixture of gases, the pit inner space degassing is carried out with the subsequent laboratory control of the quality of the works carried out to disinfect the infected corpses of animals that died from dangerous infections. Device for the method implementation in the second stage includes a pit, which walls and the bottom are treated with a moisture-proof composition and covered with a paint with a thermal insulation effect, at that, at the pit bottom a heating element is arranged in the form of a grate, connected to an autonomous natural source of energy, for example, to a windmill or a solar battery, and from the above the pit is covered with a steel grating and a film with a valve and a hermetically arranged hole and is equipped with a thermometer.

EFFECT: use of this group of inventions ensures the safety of disinfection and utilization of animals.

4 cl, 2 dwg

Description

The invention relates to veterinary medicine, in particular to environmental protection, and can be used for the safe disposal of animal corpses infected with anthrax.

Currently, foci of animal damage occur with various infectious diseases (anthrax, African plague, foot and mouth disease, etc.). The death of animals is also caused by various cataclysms (floods, earthquakes, etc.), which poses a great biological and social danger to the environment. Biological materials quickly become sources of accumulation of cadaveric poison, viruses, bacteria and dramatically violate the region’s ecology (soil, air and water pollution). Transportation of fallen animal corpses for their destruction in special plants is prohibited due to the possible spread of infections and requires special technology for safe collection and special equipment for transportation. In this case, the most effective solution is the quick destruction of the bodies of dead animals directly at or near the detection sites in order to prevent the possible spread of infection.

The proposed technical solution is aimed at the safe elimination of dead animal corpses in the field.

There is a method according to copyright certificate No. 376074 class. A01N 7/04 to combat anthrax, which consists in disinfecting the soil by installing a film over the cattle cemetery, under which open vessels with a gas mixture of ethylene oxide and methyl bromide are placed. To increase the effectiveness of the effect of gas in the soil, pits are dug in the soil in the area of the location of cattle cemeteries. The disadvantages of this method include:

- the disinfection process depends on temperature, humidity and the structure of the soil itself;

- the possibility of pollution by toxic environmental gases;

- to use this method for disinfection and disposal of animal corpses that have fallen from anthrax, which are dispersed over a large area, is almost impossible.

There is also known a method of burning animal corpses in the field (patent RU No. 2036385 class F23G 1/00), in which the animal’s corpse is placed in a trench dug in the ground and sprinkled with fuel, followed by coating it with non-combustible material (sheet iron). The disadvantages of this method include the possibility of the spread of infections during the burning of corpses due to free burning (there is no sealing of the combustion products or their cleaning).

The closest analogue of the claimed device is an installation for the destruction of chemical and other hazardous materials, including animal corpses (patent RU No. 2157950 class. F23G 5/00), including a working chamber for thermal decomposition and burning of biohazard materials and a system for cleaning combustion products with a dual-circuit suction system, one of the circuits communicating with the cavity of the working chamber, and the other with inter-chamber space and a discharge channel into the atmosphere. At the same time, a grate and a cascade of fans are placed in the working chamber. This installation is structurally complex, requires a special power source for the equipment to work, and only works if there is a special powder composition of filtration combustion, the disposal process takes place by burning corpses, which is unsafe for the environment.

The closest technical solution (prototype) to the claimed method is a method of burning dead carcasses of animals by digging a hole in which an animal’s corpse is placed, then the body is sprinkled with fuel and then the hole is closed with a metal sheet (RU patent No. 2075932, class A01M 19/00) . In addition, fuel is placed in large corpses of animals in plastic bags in a certain proportion. Then the fuel is set on fire and the corpse burns. To improve combustion, aluminum pins are introduced into the corpse of animals (patent No. 2036385 class. F23G 7/00). This method is not safe for the environment, because the products released during combustion enter the air, i.e. into the environment.

The objective of the present invention is to increase the safety of disinfection and disposal of corpses of animals infected with anthrax in the field.

This problem is solved by performing a method of disinfecting and disposing of infected animal corpses in the field, in which the bodies of dead animals are packaged at the place of their mortality in bags with a tight-fitting closing mechanism and an overpressure relief valve from a gas-tight material with bright unmasking color and light reflecting elements, at the same time, primary surface disinfection occurs in the bags, intensified by additional dispensing of a given dose to the bags OKEBM gas (ethylene oxide with methyl bromide), which, filling the airspace of the bag, is sorbed by corpses and has an additional disinfecting effect, then the bags with corpses are delivered to the place of radical disinfection and then the corpses are removed from the bags and placed on a heating element located at the bottom of the pre-prepared hole, after the hole is covered with a grill, and on top of the grill, a film with a valve and a repelling element is placed with the possibility of sealing the edges of the film and after Nia fermentation process through hole arranged sealingly on the film coating liquid fed to a predetermined dose of gas OKEBM for fumigation process, which is carried out after completion of the degassing pit internal space with subsequent laboratory quality control decontamination and disposal of animal carcasses, fallen from dangerous infections. To implement the developed method, a device is proposed that includes a pit, the walls and bottom of which are treated with a moisture-proof composition and coated with a paint with a heat-insulating effect, while at the bottom of the pit there is a heating element in the form of a grate, connected to an autonomous natural energy source, such as a wind turbine or solar panel, and on top of the pit is covered with a steel grill and a film with a valve and a hermetically arranged single-acting hole and equipped with a thermometer.

The essence of the proposed technical solution is illustrated by drawings, where in FIG. 1 shows the implementation of the method in the second stage, and in FIG. 2 - implementation of the method at the first stage.

The work of the proposed technical solution is as follows.

At the first stage, one of the known methods (visual determination on the ground or with the help of an aircraft: drone, helicopter, etc.) reveals infected biomaterial in the form of the bodies of dead animals 1. After detection, the dead bodies 1 are packed in bags 2, which are made of gas-tight material with bright unmasking coloring and with reflection elements of reflection. Bags 2 are sealed by means of a locking mechanism 3 and an overpressure relief valve 4. After packing corpse 1 in bag 2, a mixture of sporicidal gas - OKEBM is fed into bag 2 with corpse 1 and hermetically closed the bag. In this case, a preliminary disinfection of the corpse 1 occurs and contamination of environmental objects by the pathogen from the isolated corpse 1 of the animal is prevented. The installed valve 4 on the bag 2 serves to relieve excess pressure (due to the rotting process there is an increased pressure) and prevent the integrity of the bag 2 from being violated, while the pressure in the bag 2 is equalized to the external atmospheric pressure.

At the second stage, a place is chosen for the placement and construction of a device for stationary elimination of animal corpses. The place can be chosen from the condition of the minimum distance to the location of the corpses of animals or the place is determined, convenient for the construction of pit 5 and the storage of bags with corpses. Then they dig a hole 5, equip it and equip it with special equipment. The number of pits 5 depends on the distance between the corpses, and the volume of the pit on the number of corpses. Each pit 5 is arranged as follows: the walls 6 and the bottom 7 are treated with a moisture-proof compound and covered with a paint with a heat-insulating effect, while at the bottom of the pit 5 there is a heating element 8 made in the form of a grate and connected to an autonomous natural energy source 9 (for example, a wind turbine, solar battery, etc.) and is equipped with a thermometer 10 to monitor the temperature in the pit 5. The temperature in the pit 5 should be in the range from 10 ° C to 45 ° C or more, this temperature contributes to the efficient course of the decomposition process corpse 1. If the temperature is below 10 ° C, the process of decomposition of biological waste requires significantly more time or stops.

Corpses 1 are removed from bags 2 and lowered into a prepared pit 5 (stationary biomaterial utilizer), in which the decomposition of organic and inorganic waste is carried out by creating artificial conditions of constant optimal heating with the addition of a preparation - a catalyst (for example, Baikal-M) to accelerate enzymatic processes, then the pit 5 is covered with a grill 11 and on top of it is covered with a film 12 with a valve 13 and a repelling aromatic element, while the edges of the film are sealed (for example, earth lock 14). After the fermentation of the remains under the film coating through the hermetically made hole 15, OKEBM liquid gas (a mixture of ethylene oxide with methyl bromide) is supplied in a predetermined dose, which, filling the air space under the film 12, is sorbed by the mass of the resulting medium and has a radical disinfecting effect on the causative agents of dangerous infections during the exposure. Upon completion of the fumigation process with a sporicidal gas mixture, the internal space of pit 5 is degassed, followed by laboratory quality control of the work carried out to decontaminate infected dead animals from dangerous infections.

Packing of infected animal corpses into bags allows: to exclude contact with the environment of infected material, the spread of infection through vectors, the transition of the vegetative form of the causative agent of anthrax to a more stable spore, to begin the process of primary disinfection by creating favorable conditions for the growth of putrefactive flora in the corpse under aerobic conditions, antagonist of the causative agent of a particularly dangerous infection, with the addition of a sporicidal gas mixture OKEBM there is an additional surface disinfection Contents. In addition, the bags are equipped with a deterrent (aromatic) and reflective element in order to deter other animals and birds so that they do not destroy the bags.

The advantage of this method is to prevent infection of environmental objects and is guaranteed by the radical disinfection of large volumes of infected biomaterial in an environmentally safe and economically feasible way. In eliminating the consequences of biological and social emergencies caused by dangerous and especially dangerous pathogens of infections in agricultural livestock.

Due to the artificial conditions of constant heating and adding a drug to accelerate the enzymatic processes of decomposition of organic and inorganic waste, the process of neutralizing pathogens of especially dangerous infections is accelerated significantly.

Due to the metal coating in the form of a mesh-barrier, there is no access for predators to the tank.

Due to the sealing of the pit and the autonomous device for supplying electric energy and heating, conditions are created for year-round use of the tank to neutralize especially dangerous biological waste and in permafrost.

The implementation of this method does not require special equipment and materials.

Claims (4)

1. A method for disinfecting and disposing of infected animal carcasses in the field, characterized in that the carcasses of dead animals are packaged at the place of their death in bags with a tight-fitting closure mechanism and an overpressure relief valve from a gas-tight material with a bright unmasking color and light reflecting elements, feeding into bags a specified dose of OKEBM sporocidal gas, delivering bags of corpses to the place of radical disinfection, removing corpses from the bags and placing them on the heating element placed at the bottom of the pre-prepared hole, then the hole is covered with a grate, and a film with a valve and a repelling element is placed on top of it to seal its edges, after the fermentation process is completed, a specified dose of OKEBM liquid gas is supplied through the hermetically sealed hole for the film coating for the implementation of the fumigation process, after the completion of which degassing of the internal space of the pit is carried out, followed by laboratory monitoring of the quality of disinfection and disposal carcasses of animals killed by dangerous infections. 2. A device for the disinfection and disposal of infected animal corpses in the field, characterized by the presence of a pit, the walls and bottom of which are treated with a moisture-proof composition and coated with paint with a heat-insulating effect, a heating element placed on the bottom of the pit and made in the form of a grate connected to an autonomous natural energy source , a thermometer, a steel grate and a film with a valve and a hermetically sealed hole for placement on top of the pit. 3. The device according to claim 2, characterized in that the energy source is a wind turbine. 4. The device according to claim 2, characterized in that the energy source is a solar battery.

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