NL1030379C2 - Animal e.g. duck, slaughtering method, involves covering body part of animal with layer of foam prepared from liquid and gas, where gas utilized for making foam comprises gas component with property to kill and/or narcotize animal - Google Patents

Abstract

The method involves placing an animal such as duck in a container (1) such as bag, and introducing the animal into a layer of foam in the container. A body part such as nose, of the animal such as duck, is covered with the layer of foam prepared from a liquid and a gas. The gas utilized for making the foam comprises a gas component such as carbon dioxide, with a property to kill and/or narcotize the animal. The layer of foam is broken down by a defoamer after the animal is killed. The container is provided with a reclosable opening at underside of the container.

Description

Method for clearing an animal, as well as a bag for use in the method

The present invention relates to a method for clearing an animal.

Under certain circumstances it is necessary that animals, such as poultry and pigs, have to be culled, for example to prevent the spread of an infectious disease. Bird flu, pseudo-bird flu, foot-and-mouth disease, etc. can be considered here. The infectious disease can have a viral or bacterial origin. In the case of virus diseases in particular, treatment is often impossible and the animals must be destroyed. For various reasons it is desirable that this culling takes place as quickly as possible, inter alia for animal welfare reasons, to prevent further contamination and from the point of view of costs.

It is known to kill animals with a gas, such as argon, carbon dioxide or carbon monoxide. According to a first possibility this is done by filling the space in which the animals to be cleaned are kept with the gas. This is expensive, time-consuming and leads to more use of gas than desirable. In the case of argon this leads to greatly increased costs, and in the case of carbon monoxide this leads to an increased risk, since this gas is also fatal for people in low concentrations. To address these problems it is known to place the animals in a sealed container, which container is then filled with gas to kill the animals. After the animals have been killed, they are removed from the container, after which the cycle is repeated.

The known methods can be improved from the point of view of costs, animal welfare and efficiency.

The present invention has for its object to provide a method of the type mentioned in the preamble, with which animals can be cleared faster with less manpower and with a reduced risk to public health and to the personnel cleaning the animals.

To this end, the method according to the invention is characterized in that at least one body part selected from the animal's nose and mouth is covered with a foam formed from a liquid and a gas, the liquid containing a surfactant, and making the foam used gas comprises a gas component with a killing and / or intoxicating property.

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Although a foam bubble has a very thin liquid membrane, it nevertheless appears to form a sufficiently good barrier to retain a killing gas. Not only this aspect increases the safety of personnel performing the culling, but also the fact that foam is visible and therefore clearly where the killing and / or intoxicating gas is at the highest concentrations. The atmosphere above the foam can be vented if desired to help prevent workers from being exposed to elevated concentrations of the killing and / or intoxicating gas. The method effectively limits, if appropriate, the spread of the pathogen such as an infectious virus, since the number of persons required for culling is limited, and infected animals are effectively shielded from the environment. The foam adheres to the animal and when that gas inhales from the foam it dies quickly. For animal welfare, it is preferable that the foam itself is inhaled as little as possible. This is possible by choosing a suitable hell size. The larger the bubble, the smaller the number of bubbles that the animal inhales and the more the animal breathes gas in from the bubble. Large bubbles snap more easily, so that these bubbles release their contents. If desired, the liquid-membrane composition of the bubble can be chosen such that it has such a strength and the bubble breaks down upon inhalation of a bubble. The strength depends, inter alia, on the surfactant (s) used, the concentration thereof, and on aids known to make bubbles such as glycerol. A composition that yields bubbles of suitable strength can be experimentally determined for the surfactants used, and requires no further explanation. The method is thought to be suitable not only for clearing animals infected with a contagious disease, but also for eradicating rodent pests, such as those from rats and mice on farms, in grain warehouses and the like. Animals do not necessarily have to be infected. Culling can also take place preventively, or to form an animal-free zone around an infected zone. An example of a gas suitable as a killing gas is nitrogen in a considerably increased concentration relative to the atmosphere. It is advantageous if the gas used to make the foam has a density greater than that of air. An increased density can be achieved in a reduced temperature, and by choice of atomic and / or molecular weight of the gas or the various gas components forming the gas. In the case of flammable killing gases (such as carbon monoxide), the inclusion of the killing gas in the foam reduces the risk of a fire breaking out. In the context of the present invention, the term "killing gas component" means any gas component which, due to its physiological properties, has a killing effect (e.g. carbon monoxide) or simply by dilution / replacement the oxygen concentration in a prior to forming the foam uses gas (including a gas mixture such as air) reduced so that animal death is accelerated. An example of the latter is, for example, argon or nitrogen. If an inert (non-physiologically active) killing gas component is used, the oxygen concentration is reduced to less than 15% by volume, preferably to less than 12% by volume, based on the total gas mixture used to form foam.

The killing gas component is advantageously carbon dioxide and present in the gas in a concentration of at least 60% by volume.

A foam is thus provided with gas that is sufficiently killing, while the release of the gas into the atmosphere does not present a direct danger, and also the personnel carrying out the culling have a reduced risk of causing a problematic concentration of the gas. exposed.

In order to prevent the gas from blocking the respiration of the animal, thereby delaying death, it is preferable that some oxygen is present in the gas when a physiologically active killing gas component is used. In particular, it is preferred that the gas contain oxygen as an auxiliary gas.

The oxygen is present in a concentration that reduces the inhibition of respiration that occurs in the absence of oxygen. This concentration depends on the relevant animal species and the composition of the gas used, and can be determined through routine experiments. The use of oxygen as an auxiliary gas is advantageous, for example, when carbon dioxide is used as a killing gas.

The liquid advantageously contains a disinfecting component.

This can limit the spread of a disease. It also reduces the chance that workers will continue to transmit the disease, which could lead to new sources of infection. Since a relatively small amount of disinfectant is used due to the use of foam, this has little disruptive effect if the culled animals are not burned but are biodegraded by rotting. Advantageously, the disinfecting component is selected from a protease, a ligand or receptor that prevents binding of an infectious organism to a host, an antibiotic, and an active chlorine compound.

With regard to the ligand or receptor mentioned, the following is noted. Some microorganisms, in particular viruses, must enter into a specific interaction with the host for infection, for example to invade a specific host cell.

The fluid may contain a ligand or receptor (including a receptor fragment, and any molecule that exhibits the relevant receptor activity, such as, for example, an antibody) that binds to the microorganism. Thus, the chance that the microorganism can infect a host can be reduced. If more than 1 disinfectant is used, account must be taken of whether they are compatible with each other.

Advantageously, the active chlorine compound is selected from chlorine (Cl 2) and a compound with hypochlorite (0 Cl 1) as an active ion.

These active chlorine compounds have a broad spectrum of activity, so that a multitude of organisms can be switched off.

Furthermore, they are not so toxic that a waste problem arises.

A disinfecting effect can also be achieved if the liquid has a pH <3 or> 11.

The pH is preferably <2. If one or more disinfecting components are also present, the chosen pH must be compatible with those disinfecting components if the disinfecting activity thereof is to be maintained.

A first important embodiment is characterized in that more animals are cleared, which animals are located in a space, and the animals in the space are covered with a layer of foam.

This can be done in a simple manner, for example with a foam gun, such as is used, for example, for extinguishing fires. This way of working requires extremely little manpower. The space can be a meadow (such as for ducks and chickens), a tent, in which the animals are driven, or a space in which the animals are kept, such as a stable.

To facilitate the picking up of the animals, it can be favorable if, after the animals have been killed, the layer of foam is at least partially broken down with the aid of a defoamer.

Such agents are known, for example, silicone-based defoaming agents.

A second important embodiment is characterized in that the animal is brought into a container in which a layer of the foam is present, and the animal is brought into the foam layer.

This embodiment is particularly useful with animals kept in cages, such as poultry, in which the container is passed along the cages and the animals are brought directly from the cages into the container, where they die rapidly immersed in the foam.

This embodiment of the method is advantageously characterized in that the holder has an opening for introducing a bird into the holder, which opening has a largest diameter of 15 to 40 cm, and the body of the holder has a diameter of at least 20 at least 50 cm.

This leaves sufficient room for quickly bringing the animals to be cleaned into the container, while gas escaping from foam bubbles that have broken down remains trapped in the container. In particular if the gas or its killing and / or intoxicating gas component (s) have a high molecular weight or atomic weight, it drops and forms a blanket above the animals that have not yet been killed, which may contribute to their accelerated death.

It is preferred if there is an inner bag in the container, and the foam is in the inner bag.

The inner bag containing the animals can then be discharged, incinerated or dumped in a depot, while the container is the sturdy part that is handled and protects the inner bag from being damaged. The container is, for example, a roll container, such as a waste container, green container, etc., which is preferably provided at the top, or optionally in a side wall near the top edge, with an opening which is not much larger than the one in the animal to be brought inside. In the case of dumping, the inner bag is preferably made from biodegradable plastic.

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The holder can also be a bag which is provided with at least 1 loop, which bag and the loop are so strong that they do not collapse if the bag is filled with animals.

The bag can be lifted by the loop. The bag preferably has an opening side, advantageously the underside, via which the inner bag can be removed from the bag. With the aid of the loop the bag can be lifted above, for example, a dump or truck for removal, and according to the preferred embodiment wherein the bag is provided with a reclosable opening on the underside, the contents can be discharged via said reclosable opening.

The present invention also relates to a bag suitable for use in the method according to the invention, which bag has an opening with a largest diameter of 15 -40 cm and the body of the holder has a diameter of at least 50 cm, and The bag near its upper side is provided with at least 1 loop.

The bag can be made from, for example, canvas or from reinforced or non-reinforced plastic, and can be made, for example, with the techniques and materials known for plastic bags (called ICBs or Bigbags) for transporting building materials such as sand.

Advantageously, the bag has a reclosable opening, preferably at the bottom, through which the contents can be removed from the bag.

A bag according to the invention will now be explained with reference to the sole figure.

The figure shows a container 1, which contains a bag 2 according to the invention. An inner bag 3 is arranged in the bag 2. A layer of foam A (not shown) is contained in the inner bag. This foam A is made of a liquid containing a surfactant and a gas. The foam A can be made with a bubble blower 30 (formation of foam with gas under low pressure) or with the aid of gas under high pressure and a nozzle (e.g. a foam gun). The gas comprises an animal-killing gas component, for example carbon dioxide, which acts by displacing oxygen from the animal's body. The container 1 has wheels for easily moving the bag 2, for instance between rows of cages of poultry to be cleaned.

In general, at the beginning, the inner bag 2 will contain at least as much foam A as the void volume as it will be present between the animals finally stacked in the inner bag 2. Bag 2 has a relatively narrow opening 3 at its top, through which animals can be introduced into the inner bag 3. The animals sink through the foam A and die in it quickly. After sufficient animals have been collected in the inner bag 3, the inner bag 3 will generally be sealed, together with a large part of the killing and / or intoxicating gas component of the gas.

On the underside of the bag 2 there is a closed, releasable, reclosable large opening 5, through which an inner bag 3 filled with animals to be cleaned can be discharged. To remove the inner bag 3 from the bag 2, the cover 6 of the roll container 1 is opened, and the bag 2 according to the embodiment of a method according to the invention described here is lifted from the roll container 1 by loops 7, 7 '. The releasable opening 5 is opened above a dump or loading container of a lorry, whereby the contents of the bag 2 end up at the desired location. To open the releasable opening 5, a pull cord may be present (not shown). The opening 5 of bag 2 will then be closed again and the bag 2 will be provided with a new inner bag 3 (in any order). After inserting foam A at a suitable time, the culling can be continued. Incidentally, the use of an inner bag 3 can be dispensed with.

During filling it is preferable that the opening of at least the inner bag 3 is fixed in an opened condition, for example by clamping against the cover 6.

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Claims (15)

A method of cleaning up an animal, characterized in that at least one body part selected from the nose and mouth of the animal is covered with a foam formed from a liquid and a gas, the liquid being surface-active substance, and the gas used to make the foam comprises a gas component with a killing and / or intoxicating property. 10 The method of claim 1, wherein the killing gas component is carbon dioxide and is present in the gas in a concentration of at least 60% by volume. Method according to claim 1 or 2, wherein the gas contains oxygen as an auxiliary gas. The method of any one of claims 1 to 3, wherein the liquid contains a disinfectant component. 20 The method of claim 4, wherein the disinfectant component is selected from a protease, a ligand or receptor that prevents binding of an infectious organism to a host, an antibiotic, and an active chlorine compound. 25 A method according to any one of the preceding claims, wherein the active chlorine compound is selected from chlorine (Cl 2) and a compound with hypochlorite (C 10 -) as active ion. A method according to any one of the preceding claims, wherein the liquid has a pH <3 or> 11. 8. Method as claimed in any of the foregoing claims, characterized in that more animals are cleared, which animals are in a space, and the animals in the space are covered with a layer of foam. 103 0 3 79 _ A method according to claim 8, characterized in that, after the animals have been killed, the layer of foam is at least partially broken down with the aid of a defoamer. Method according to one of claims 1 to 7, characterized in that the animal is introduced into a container (2) in which a layer of the foam is present, and the animal is introduced into the foam layer. A method according to claim 10, characterized in that the holder 10 (2) has an opening (4) for introducing a gel into the holder, which opening (4) has a largest diameter of 15 to 40 cm, and the body of the holder (2) has a diameter of at least 50 cm. Method according to claim 10 or 11, wherein an inner bag (3) is present in the container (2), and the foam is located in the inner bag (3). 13. Method as claimed in any of the claims 10 to 12, wherein the holder is a bag (2) provided with at least 1 loop (7), which bag (2) and the loop (7) are made so strong that they are not collapse if the bag (2) is filled with animals. 14. Bag (2) suitable for use in the method according to claim 13, which bag (2) has an opening (4) near the top with a largest diameter of 15-40 cm and the body of the container (2) ) has a diameter of at least 50 cm, and the bag (2) near its top is provided with at least 1 loop (7). The bag (2) according to claim 14, wherein the bag (2) is provided with a reclosable opening (5) on the underside. 1 03 0 3 79 ________ ____J