NO335279B1 - Apparatus, method and system for processing farmed fish - Google Patents

Abstract

An apparatus, method and system for treating fish in a cage plant is described.

Description

Field of the invention

The present invention relates to a device, system and method for treating or vaccinating farmed fish against parasites and diseases in farm cages.

Background for the invention

Fish farming is becoming more and more common, and today constitutes a large and important industry. Attacks by diseases and/or parasites cause large financial losses, and also considerable suffering for the fish.

The description of the invention below is, however, exemplified with the farming of salmon and with salmon lice as the harmful parasite since this currently represents a significant challenge for the farming industry in Norway.

In the event of an attack by diseases, and especially infectious diseases, it is common to treat farmed fish with medicines to combat the diseases. The medicines can be administered to the organisms in a number of different ways, the most common for farmed fish being injection of the medicine directly into the fish, oral administration of the medicine as an addition to the feed given to the fish, or the medicine being added to the aqueous environment (bath treatment) in which the organisms reside.

One purpose of the present invention is to provide a device, method and system to be able to administer treatment agents to farmed fish at the farm.

In addition to the device and methods according to the invention being used to treat a disease in farmed fish, the agents can alternatively be used to provide a preventive effect, such as the administration of various vaccines (dip vaccination), or that the agents are directly aimed at the cause of the disease/ the infection, such as bacteria, viruses, amoebas, parasites and more, to kill these or to prevent attacks.

We would also like to clarify that "treatment" does not necessarily mean that a chemical or drug is added to the water environment. In some cases, you can use fresh water in the tank, for example to combat amoebas, and in some cases you can change the temperature of the water environment, such as raising or lowering the temperature.

For the treatment of lice, either preventively to prevent an aquatic environment from being infected by lice, or to prevent the lice from being attracted to the fish, or to prevent the lice from attaching to the fish, or to remove lice that have attached to fish, there are known techniques for adding so-called salmon lice agents to the water in which the fish stay. The salmon lice agents are mixed in or added to the water, either directly or indirectly to the cages in which the fish stay.

Today, there are various solutions where the cage is covered with cloth or tarpaulin to limit the water environment, and in some cases the cage is raised somewhat so that the volume of water that is sought to be treated is somewhat smaller. In any case, it is a problem that the water volume is very large, which means that a significant amount of chemicals must be used for treatment. Furthermore, such systems are more or less open, and one does not have complete control over the contamination of chemicals to the environment, whether it is to the seabed or the water environment adjacent to the additional facilities.

There are also solutions where the fish are transferred from the cage to vessels or tanks, for example tanks on board well boats. Such systems are closed in the sense that you have control over the water and treatment agents that are added to and removed from the system.

WO2010/087722 (D1) describes a device with a chute between two cages for removing lice from aquatic organisms. The channel is arranged in a part of the cage wall, and the treatment unit is partially submerged in the water between the cages.

US4363290 (D2) describes a solution for treating small fish at a hatchery or similar where the fish are preferably anesthetized before being subjected to treatment. Fish are fed onto the conveyor in air, and then taken down into the treatment bath.

N0332298 (D3) describes a closed system for removing lice from fish as the fish is pumped from one unit to another through a pipeline. The design of the pipeline means that part of the pipeline forms a liquid bath for the fish.

The present invention provides a device and solution that represents an improvement of this system with separate vessels, and in particular the purpose of the invention is to provide a solution where the treatment of the fish takes place "continuously" or on-line in a loop.

With the term "continuous" in the context of this invention, it is to be understood that the fish is taken from the cage into a treatment unit and out of the treatment unit again in a continuous process, i.e. as an on-line treatment.

A currently preferred solution comprises a screw tank, for example of the Helix tank type, where the fish is fed into one end of the tank, treated with various means as it is continuously passed through the water environment in the tank, until it is fed out of the other end of the tank. The residence time in the tank can be regulated, and the addition and withdrawal of water and other means to and from the tank can also be regulated.

The difference between the solution according to the invention and solutions which are known from the state of the art is that the system according to the invention is "continuous", while the known solutions are batch or batch-wise, i.e. the treatment is carried out in the cage or in the room of a well boat. In the batch treatments, the fish is first arranged in a treatment volume, then the active substance is added, and then the active substance is diluted again.

With a continuous treatment, the treatment agent will be in the tank and then the fish is added and then the residence time for the fish in the treatment tank is regulated so that it is almost identical, i.e. that the fish is fed out of the tank in approximately the same order as it enters the tank. Furthermore, the tank volume is relatively limited since only a limited proportion of the fish in a cage facility at a given time will be in the treatment tank. This represents a significant advantage since the consumption of chemicals can be reduced, while the contents of the tank can be precisely controlled.

Summary of the invention

The present invention thus relates, in a first aspect, to a device for treating or vaccinating farmed fish against parasites and diseases in farmyards comprising a tank with a treatment agent in which the fish is to be treated and a feed mechanism for fish in the tank, characterized in that the tank is a screw tank and that the feed mechanism has more than two vanes which guide the fish through the tank from inlet to outlet with a predetermined direction and speed, to give the fish a predetermined residence time in the treatment medium, and where the device includes means for transferring the fish from a first volume of water via dewatering means and the inlet to a new water environment in the tank and via dewatering means and outlet to a new volume of water.

In a preferred embodiment, said transport mechanism comprises paddles mounted on a chain or belt which are driven forward to push said farmed fish through the tank.

In a preferred embodiment, the tank is a screw tank, preferably of the Helix tank type.

In a preferred embodiment, the device comprises transport mechanisms for transporting fish to/from cages and tanks, where said transport mechanisms optionally comprise conveyor belts and pumps such as Mamut pumps, vacuum pumps, ejector or centrifugal pumps.

In one embodiment, said dewatering means, arranged between the first cage and the tank, and/or between the tank and the second cage, is a sorting machine.

In one embodiment, said sorting machine(s) comprise screening between cage and tank, and screening grating between tank and cage.

In design, the tank includes one or more inlets for the supply of liquid and various treatment agents.

In one embodiment, the device comprises subsequent tanks designed to carry out several treatments of said fish.

In one embodiment, the tank includes one or more sensors for monitoring various parameters such as temperature, pH, O2 and ORP, concentration of various treatment agents, density of fish in the tank (fish counter), as well as water quantity meter and dosing pumps with quantity measurement for addition.

In one embodiment, the device includes means for automation, such as means for regulating the supply and output of the number of fish to/from the tank, means for regulating liquid flow and residence time, means for regulating the supply and concentration of treatment agents, etc.

In a second aspect, the present invention relates to the use of a device according to one of claims 1-10 for the treatment of farmed fish in farm cages, where said fish are transferred from a cage via dewatering means and an inlet to a treatment tank designed so that the fish are taken up in a new aquatic environment, and that said fish is continuously transported, with a predetermined direction and speed, with a forward mechanism with paddles through the treatment tank and that the fish after treatment is taken out of the tank via dewatering means to a new aquatic environment.

In a preferred embodiment, the fish's residence time in the tank can be regulated.

In one embodiment, treatment agent is supplied to the tank via a number of entrances so that the water environment in the tank becomes homogeneous.

In one embodiment, said treatment is designed to prevent and/or treat disease in said farmed fish.

In one embodiment, said treatment is designed to remove parasites from fish.

In one embodiment, where said parasite is lice, preferably salmon lice, the treatment comprises treating the fish with an adequate agent that effectively fights the lice and/or removes the lice from the fish, where said agent is selected from among pyrethroids, pyrethrum, organophosphates, chitin inhibitors, avermectins and hydrogen peroxide.

In one embodiment, said treatment is for the removal of amoebae, and where said water in the treatment is fresh water or water of low salt content.

In one embodiment, said parasite is lice, preferably salmon lice, and the treatment comprises treating the fish with water to which ozone has been added.

In a third aspect, the present invention relates to a system for treating farmed fish from a cage, characterized in that the system comprises a treatment device according to claim one of claims 1-10 arranged as part of a floating installation such as a vessel or raft, and where the treatment unit comprises a tank, where the tank is a screw tank with a feed mechanism, where the feed mechanism comprises paddles, where said fish are led in a water environment through the tank via dewatering means and the inlet to a new water environment in the tank and after treatment via dewatering means and outlet to a new volume of water.

In one interpretation, said vessel is a ship.

In one embodiment, the screw in said screw tank is detachable from the tank.

In one embodiment, the tank is equipped with a lid or cover which is placed over the tank as the screw is removed.

In one embodiment, where said vessel is a ship, the screw in said screw tank is detachable from the tank.

A representative device according to the invention will be explained below with reference to the accompanying figures, where, Figure 1 shows in a perspective view a principle sketch of a device according to the invention. Figure 2 shows an embodiment where a screw tank is used for on-line treatment of farmed fish.

In the case of a cage system consisting of a number of cages 12, a tank 14 is arranged on-line for processing the fish from the cages. In the description of the example below, the treatment is exemplified with the removal of salmon lice that attached themselves to the fish.

The treatment is not carried out in the cages 12 themselves, but the fish is transferred to a separate treatment unit, i.e. a loop ("on-line") is established through which the fish is transported and this loop includes at least one treatment unit or tank 14. Such a treatment unit can be permanent arranged near the cages 12, but more preferably it is mobile in relation to the cage facility, and it is preferably arranged on board a raft or barge, or it may be an integral part of a vessel such as a ship.

Transfer of fish from the cages 12 to the treatment unit or tank 14 can take place in any suitable way, and the invention is not limited to how this is done. The aim is to achieve an efficient transfer while the fish is treated gently. It is considered highly preferred that the water in which the fish stays when it is in the cage is not transferred to the tank 14, and it is therefore in the transport systems that transfer fish to and from the treatment tank 14 that means are provided for dewatering the fish. This can be arranged as grooves or grates, or openings in pump systems so that the fish are separated from the water environment in which they originally stayed.

As an example, Figure 1 shows a sorting machine 14c. Water and fish are pumped from cage 12', for example with a pump 15 via the sorting machine 14c. In this sorting machine 14c, the water is drained out at the same time that unwanted fish are sorted out. For example, smaller fish such as small pollock and wrasse can be sorted out so that these are not sent to the processing unit 14. The wrasse can be removed, while the wrasse is returned (without going via the treatment tank) to one of the cages 12". Between the sorting machine 14c and the processing unit 14 a fish counter can be arranged for counting fish that are led into the processing unit 14. Alternatively, such a fish count can be carried out elsewhere in the process, for example in the processing unit 14.

The fish enters the treatment tank 14 via one or more entrances 14a, and is transferred to a new water environment, i.e. that which is in the treatment tank 14. This water environment which is in the treatment unit 14 is selected especially with regard to the treatment to which the fish will be subjected. To remove lice, the water may contain agents that are effective in treating salmon lice, such as pyrethroids, pyrethrum, organophosphates, chitin inhibitors, avermectins, hydrogen peroxide and ozone. The water contains a sufficient amount of one or more of such treatment agents so that effective de-lice takes place during the time the fish stays in the tank 14. It is possible that the system's online characteristics enable the use of ozone as an active substance where previously, of considerations for rapid redemption in large volumes of water, could only use hydrogen peroxide.

The residence time in the tank, i.e. how long a given fish stays in the tank from the time it enters the tank until it is fed out of the tank, can be easily regulated with the transport mechanism. For a helix tank, the paddles and water flow will push the fish through the tank, and the rates of this feeding can be set by regulating the rotational speed of the shaft to which the paddles are attached.

Furthermore, the tank is equipped with a number of inputs and outputs to supply or remove water and/or treatment agents, or other components, to and from the tank. Figure 2 shows a screw tank with inputs, such as input 14e for dosing water, input 14f for dosing oxygen, input 14g for dosing treatment agent. Also shown in Figure 2 are device 14h for removing protein, heat exchanger 14i, mixer 14 14j, sensors 14k, screening grate 141 and overflow 14m.

In some embodiments, the temperature of the water bath is important, and the tank 14 is then equipped with means to be able to supply water of any temperature to the tank 14. In some embodiments, the tank is insulated so that the temperature of the water is maintained over a longer period of time. It is also possible to use a cooler (14j) to lower the temperature of the treatment bath. You can then carry out treatment with oxygen radicals, such as with hydrogen peroxide and ozone in summer. In the current method with hydrogen peroxide in a well boat, it is not always possible to treat fish in summer due to the undesirable effects of hydrogen peroxide on the fish at high temperatures.

It is preferred that the tank is equipped with a number of sensors, where these are arranged and arranged so that they can monitor various parameters. These can be parameters such as pH, O2 and ORP, temperature of the water, salt content of the water, concentration of various treatment agents, number of organisms in the water, etc. In a preferred embodiment, sensors are arranged which can monitor whether lice are attached to the salmon, i.e. .so that you get a picture of whether the treatment is finished.

It is possible to divide the tank into different zones so that different treatment can be given in the different zones. However, it is currently preferred, if the fish is to be subjected to different treatments, to carry out this in separate tanks 14 which are connected in series.

The treatment water can be supplied to the treatment tank 14 by means of pumps so that the mixture becomes homogeneous (for example with regard to the concentration of treatment agents) throughout the tank 14. It is also possible to add treatment agents to several areas in the tank 14 so that, for example, one can reinforce the effect if the treatment agents are weakened or consumed during the treatment.

The essential thing about the device according to the invention is that you have an on-line treatment, i.e. that the fish is fed evenly and gradually through the treatment unit itself.

Claims (23)

1. Device (10) for treating or vaccinating farmed fish against parasites and diseases in farm cages (12) comprising a tank (14) with treatment agent in which the fish is to be treated and a feed mechanism for fish in the tank, characterized in that the tank (14) is a screw tank and that the advance mechanism (14d) has more than two vanes which lead the fish through the tank from inlet (14a) to outlet (14b) with a predetermined direction and speed, to give the fish a predetermined residence time in the treatment medium, and where the device includes means for transfer of the fish from a first water volume (12') via dewatering means and the inlet (14a) to a new water environment in the tank (14) and via dewatering means and outlet (14b) to a new water volume (12"). 2. Device in accordance with claim 1, characterized in that said transport mechanism comprises paddles mounted on a chain or belt which are driven forward for pushing said farmed fish through the tank (14). 3. Device (10) in accordance with one of claims 1-2, characterized in that the tank (14) is of the Helix tank type. 4. Device in accordance with one of claims 1-3, characterized in that the device (10) further includes transport mechanisms for transporting fish to/from cages (12) and tank (14), where said transport mechanisms optionally include conveyor belts and pumps such as Mamut pumps (15), vacuum pump, ejector or centrifugal pump. 5. Device in accordance with one of claims 1-4, characterized in that said dewatering means, arranged between the first cage (12') and tank (14), and/or between tank (14) and second cage (12"), is a sorting machine (14c). 6. Device in accordance with claim 5, characterized in that said sorting machine(s) (14c) comprise screening between cage (12') and tank (14) and screening grate between tank (14) and cage (12"). 7. Device in accordance with one of claims 1-6, characterized in that the tank (14) comprises one or more entrances (14e, 14g) for the supply of liquid and various treatment agents. 8. Device in accordance with one of claims 1-7, characterized in that the device includes subsequent tanks designed to carry out several treatments of said fish. 9. Device in accordance with one of claims 1-8, characterized in that the tank includes one or more sensors for monitoring various parameters such as temperature, pH, O2 and ORP, concentration of various treatment agents, density of organisms in the tank (fish counter), as well as quantity meter for water and dosing pumps with quantity measurement for addition. 10. Device in accordance with one of claims 1-9, characterized in that the device includes means for automation, such as means for regulating the supply and output of the number of fish to/from the tank (14), means for regulating liquid flow and residence time , means for regulating the supply and concentration of treatment agents, etc. 11. Use of a device according to one of the claims 1 - 10 for the treatment of farmed fish in a farm cage, where said fish are transferred from a cage (12) via dewatering means and an inlet (14a) to a treatment tank (14) arranged so that the fish are taken in a new water environment, and that said fish is continuously transported, with a predetermined direction and speed, with a forward mechanism (14d) with paddles through the treatment tank (14) and that the fish after treatment is taken out of the tank 14 via dewatering means to a new water environment. 12. Application in accordance with claim 11, where the fish's residence time in the tank can be regulated. 13. Application in accordance with one of the claims 10-12, where the treatment agent is supplied to the tank via a number of entrances (14g) so that the water environment in the tank becomes homogeneous. 14. Application in accordance with one of claims 10-13, where said treatment is designed to prevent and/or treat disease in said farmed fish. 15. Application in accordance with one of claims 11-13, wherein said treatment is designed to remove parasites from fish. 16. Application in accordance with claim 15, where said parasite is lice, preferably salmon lice, and that the treatment comprises treating the fish with an adequate agent that effectively fights the lice and/or removes the lice from the fish, where said agent is selected from among pyrethroids, pyrethrum , organophosphates, chitin inhibitors, avermectins and hydrogen peroxide. 17. Application in accordance with one of claims 10-15, where said treatment is for the removal of amoebae, and where said water in the treatment is fresh water or water of low salinity. 18. Application in accordance with claim 15, where said parasite is lice, preferably salmon lice, and that the treatment comprises treating the fish with water to which ozone has been added. 19. System for processing farmed fish from a cage, characterized in that the system comprises a processing device according to claim one of claims 1-10 arranged as part of a floating installation such as a vessel or fleet, and where the processing unit comprises a tank (14), where the tank (14) is a screw tank with a feed mechanism, where the feed mechanism (14d) comprises paddles, where said fish is guided in a water environment through the tank via dewatering means and the inlet (14a) to a new water environment in the tank (14) and after treatment via dewatering means and outlet (14b) to a new volume of water (12"). 20. System in accordance with claim 19, characterized in that said vessel is a ship. 21. System in accordance with claim 20, characterized in that the screw in said screw tank is detachable from the tank. 22. System in accordance with claim 21, characterized in that the tank is equipped with a lid or cover which is placed over the tank when the screw has been removed. 23. System in accordance with one of claims 19-22, where said vessel is a ship, characterized in that the screw in said screw tank is detachable from the tank.