NO343872B1 - Apparatus for removing an external parasite from fish - Google Patents

Description

APPARATUS FOR REMOVING AN EXTERNAL PARASITE FROM FISH

The invention relates to an apparatus for removing an external parasite from fish. More specifically, the apparatus relates to an apparatus comprising a treatment chamber for fish. The treatment chamber is provided with an inlet and outlet, and together these form a treatment channel. The inlet and outlet are immersed in a cage with fish to be processed. The fish is led into the treatment channel. The treatment chamber can also be submerged. In this way, it can be avoided that fish to be processed are lifted above the surface of the water. The fish is thereby treated gently in accordance with one of the purposes of the invention, which is improved fish health and fish welfare. The apparatus further comprises a separate liquid circuit for circulating a liquid from the outlet of the treatment channel to its inlet. The fluid in the fluid circuit is designed to be lethal or paralyzing to the external parasite. The treatment chamber is essentially filled with the liquid in the liquid circuit. The device further comprises a separate destruction channel to kill or contain external parasites so that they do not escape into the surroundings from the device.

External fish parasites, for example crustacean parasites in the Caligidae family, are a problem in fish farming. The best known is salmon louse (Lepeophtheirus salmonis) which is a parasite on salmon fish, for example salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss).

Fish infected with salmon lice have been treated by dissolving active chemicals in the water in which the fish stay, so-called bathing treatment, or in water to which the fish are transferred. It is also known that effective drugs can be added to the fish feed.

Bath products and feed-based medicines have had an effect, but over time salmon lice have built up an increasing degree of resistance to the active agents. Alternative treatments have been developed. One method is to keep the fish in fresh water for a few hours before transferring the fish back to seawater. Another method is to bathe the fish in relatively warm water as described in patent document WO 2015/143549 A1. Patent document NO332298 B1 describes a system for treating large quantities of salmon-infected fish with lukewarm water.

Many of the alternative procedures for treating infected fish include feeding the fish into fish pumps and lifting the fish further up and out of the sea in a stream of water. Such a procedure may include bringing the fish up into a well in a well boat, treating the fish in the well and then returning the fish to the sea. Such a procedure may include taking the fish up into a treatment device on the deck of a vessel and back again to the sea. A disadvantage of these procedures is that they are stressful for the fish and that they have too little focus on fish health and fish welfare. The procedures can be so harsh that some of the treated fish die from the mechanical handling, or they die from a combination of handling and treatment regime. It is also a disadvantage that the stressed fish will not eat for a period after the treatment. This leads to reduced growth or at least delayed growth. Reduced growth is a cost in addition to the reduced growth and mortality directly caused by the parasite, and mortality caused by the treatment.

Patent document EP 3114926 B1 describes a system for treating salmon lice infected fish by passing the fish through a fish pump and to a treatment chamber where salmon lice are flushed by the host with a stream of water directed from the fish's tail and towards the fish's head. Patent document NO 340713 B1 describes treating salmon lice-infected fish with a mixture of gas bubbles and water in a tube. Patent document DK 291400427 A1 describes loosening external parasites on fish skin using electromagnetic pulses. Patent document NO 335279 B1 describes a bath treatment tank with a screw that guides the fish through the tank. The treatment tank may contain a well-known bathing agent that is effective against salmon lice.

Another known disadvantage is that live pre-adult salmon lice and adult salmon lice detach from the fish and escape into the sea during both traditional bathing treatments and the alternative procedures. Preadult and adult salmon lice can reinfect host fish. Adult female lice can release the egg strings so that new salmon lice hatch in the environment, develop into infectious salmon lice larvae (copepoditis) and infect the host fish. It is therefore known that systems for treating salmon lice must also include effective measures to collect salmon lice and eggs that detach from the fish during treatment.

The purpose of the invention is to remedy or to reduce at least one of the disadvantages of known technology, or at least to provide a useful alternative to known technology.

The purpose is achieved by the features indicated in the description below and in the subsequent patent claims.

In a first aspect, the invention relates more specifically to an apparatus for treating fish infected with an external fish parasite, where the apparatus comprises a treatment channel and where the treatment channel comprises an inlet, a treatment chamber and an outlet, and where the treatment channel is provided with a first separation unit between the inlet and the treatment chamber, and a second separation unit between the treatment chamber and the outlet,

and the apparatus further comprises:

- a liquid circuit supplied with a treatment liquid;

- a destruction channel, where the destruction channel may comprise a first destruction agent for external parasites;

where the treatment chamber forms part of the liquid circuit, and where the liquid circuit further comprises:

- a suction line in fluid communication with the second separation unit;

- a pump; and

- a feed line in fluid communication with the first separation unit, and where the feed line is provided with a fluid treatment unit,

where the destruction channel includes:

- an intake in fluid communication with the first separation unit;

- a pump; and

- an outlet in fluid communication with the second separation unit,

and where the first separation unit is provided with a bottom grate that covers an inlet in the destruction channel's intake, and where the second separation unit is provided with a roof grate that covers an inlet in the liquid circuit's intake.

The treatment of the fish can be a topical treatment.

The treatment channel can be submerged. The treatment channel can be immersed in a cage.

The first destruction means may comprise a filter, a heating unit, a combination of a filter and a heating unit or another device that kills parasites or removes parasites from the liquid in the destruction channel.

The fluid circuit may comprise a dosing unit. The fluid circuit may comprise a temperature control unit. The fluid circuit may include a second means of destruction for external parasites. The second means of destruction may comprise a filter, a heating unit, a combination of a filter and a heating unit or another unit which kills parasites or removes parasites from the liquid in the liquid circuit.

A part of the liquid circuit can be positioned on board a vessel. A part of the destruction channel can be positioned on board a vessel.

The device can be provided with a floating body.

In what follows, an example of a preferred embodiment is described which is illustrated in the accompanying drawings, where:

Fig. 1 schematically shows the connection between the liquid flows in the device according to the invention;

Fig. 2 shows, on a different scale, a more detailed sketch of a submerged part of the apparatus; and

Fig. 3 shows on a further different scale the device together with a vessel that operates the device.

In the figures, reference number 1 shows an apparatus for treating fish 8, which is infected with an external parasite (not shown) and for removing loose parasites from the fish 8. The apparatus 1 is shown schematically in figure 1. The apparatus 1 comprises a treatment channel 2 The treatment channel 2 is formed at a first end with an inlet part 20 and at an opposite second end with an outlet part 29. The inlet part 20 and the outlet part 29 are positioned immersed in a sea 99. The treatment channel 2 comprises from the inlet part 20 and towards the outlet part 29 an inclined first separation unit 21, an essentially horizontal treatment chamber 23 and a second separation unit 22.

The apparatus 1 comprises a liquid circuit 3 for treatment liquid. The liquid circuit 3 is an almost closed circuit. The liquid circuit 3 has an inlet 30 with an inlet 301 in liquid communication with the second separation unit 22. The liquid circuit 3 has an outlet 39 with a mouth part 399 in liquid communication with the first separation unit 21. The liquid circuit 3 comprises from the inlet 30 and towards the outlet 39 a suction line 31, a pump 32 and a supply line 33. The supply line 33 is equipped with a liquid treatment unit 35. A part of the treatment channel 2 which comprises a part of the first separation unit 21, the treatment chamber 23 and a part of the second separation unit 22 forms part of the liquid circuit 3.

The apparatus 1 further comprises a destruction channel 4. The destruction channel 4 has an inlet 40 with an inlet 401 in liquid communication with the first separation unit 21. The destruction channel 4 has an outlet 49 with a mouth part 499 in liquid communication with the second separation unit 22. The destruction channel 4 comprises from the inlet 40 and towards the outlet 49 a suction line 41, a pump 42 and a delivery line 43.

The direction of the liquid flow in the treatment channel 2, the liquid circuit 3 and the destruction channel 4 is shown by arrows in figure 1.

Figure 2 shows in greater detail a submerged part of the apparatus 1. The first separation unit 21 is in a bottom part 211 provided with a bottom grate 27. The bottom grate 27 covers the inlet 401 in the intake 40 in the destruction channel 4. The second separation unit 22 is in an upper part 221 provided with a roof grid 28. The roof grid 28 covers the inlet 301 to the intake 30 in the intake line 31.

The submerged part of the device 1 is held in position in the sea 99 by means of a floating body 5 in a water surface 9.

In Figure 2, a part of the destruction channel 4's intake line 41 and a part of the destruction channel 4's outlet line 43 are shown as a continuous pipe. The suction line 41 and the discharge line 43 are separated from each other by a partition wall 44. The person skilled in the art will understand that the suction line 41 and the discharge line 43 can be arranged in other ways to suck liquid from the first separation unit 21 and deliver liquid to the second separation unit 22.

Figure 3 shows a vessel 6 which is designed to operate the device 1.

The pump 42 in the destruction channel 4 sucks liquid from the intake 40, through the suction line 41, and pushes the liquid out through the drain line 43 and out through the outlet 49. A part of the drain line 43 is provided with a first destruction agent 48 for external parasites that are carried with the liquid in the destruction channel 4 The first destruction means 48 may comprise a filter (not shown), a heating unit (not shown), a combination of a filter and a heating unit or another device that kills parasites or removes parasites from the liquid in the destruction channel 4.

The liquid treatment unit 35 may comprise a temperature control unit 36 which is designed to keep the liquid in the liquid circuit 3 at a desired temperature. The desired temperature can be harmful or fatal to external parasites. The temperature control unit 36 may comprise a cooling pump 362 and a heat pump 364. The liquid treatment unit 35 may comprise a dosing unit 37 which doses a chemical to the desired concentration in the liquid circuit 3 and which is designed to maintain the chemical at the desired level. The chemical may be hydrogen peroxide or another drug such as a pyrethroid. The liquid treatment unit 35 is further provided with a second destruction agent 38 for parasites that are in the liquid. The second destruction means 38 may comprise a filter (not shown), a heating unit (not shown), a combination of a filter and a heating unit or another device that kills parasites or removes parasites from the liquid in the liquid circuit 3. In an alternative embodiment, the destruction means can 38 be a separate unit in the fluid circuit 3.

The submerged part of the apparatus 1 and the floating body 5 are positioned inside a cage (not shown). The fish 8 to be processed in the apparatus 1 is guided from the cage into the inlet section 20 by the pump 42 in the destruction channel 4 creating a negative pressure in the inlet section 20. The fish 8 passes the bottom grate 27 and the first separation unit 21. The seawater 99 is sucked through the bottom grate 27 while the fish 8 due to its speed, will slide up the inclined bottom grate 27. The mouth part 399 in the liquid circuit 3 is positioned downstream of the bottom grate 27 in the direction of movement of the fish 8. The mouth part 399 is arranged so that liquid flowing out of the outlet 39 in the liquid circuit 3 is directed upwards and will contribute to the fish 8 being led upwards and out of the first separation unit 21 and into the approximately horizontal processing chamber 23. The fish 8 is led through the processing chamber 23 by the liquid that is pumped around in the liquid circuit 3 by the pump 32. The fish 8 is further led downwards in the the second, inclined separation unit 22. The liquid is sucked up into the liquid circuit 3 through the roof grid 28 the second processing unit unit 22 while the fish 8 slides further down the second processing unit 22. The roof grid 28 prevents the fish 8 from being sucked up into the intake 30 in the liquid circuit 3. The fish 8 is led out of the outlet part 29 together with liquid from the outlet 49 of the destruction channel 4. The liquid from the outlet 49 maintains a liquid flow out of the device 1 and out to the environment in the cage.

The seawater 99 which is led into the destruction channel 4 from the bottom grate 27 contains external fish parasites, such as salmon lice, which have fallen off the fish 8 at the inlet part 20. The fish parasites are killed, or retained in the destruction agent 48 in the destruction channel 4. Thereby, the seawater which is led out of outlet 49 free of live parasites.

Fish parasites that fall from the fish 8 in the treatment chamber 23 follow the liquid flow up to the roof grid 28. The pump 32 in the liquid circuit 3 is designed to suck up, essentially, all liquid that flows out of the treatment chamber 23 and into the outlet section 29. The liquid is sucked up through the roof grid 28. The fish parasites are retained or killed by the destruction agent in the liquid circuit 3. Live fish parasites will therefore not escape into the environment from the liquid circuit 3. Some liquid will be lost through the outlet section 29. The liquid circuit 3 is designed to maintain the amount of liquid in the liquid circuit 3 by add suitable liquid as needed.

The device 1 can also be provided with a fish counter 7 in the processing channel 2.

The invention provides an apparatus 1 which is gentle on the fish 8 to be treated. The fish 8 does not pass through any fish pumps and the fish is not lifted into and out of tanks on board a well boat or processing units on a deck. The device 1 collects or kills fish parasites that detach from the fish 8 so that these do not re-enter the environment. This prevents the fish parasites from reinfecting the fish 8. The apparatus 1 is also provided with a treatment chamber 23 where the fish 8 is gently bathed in a treatment liquid.

It should be noted that all of the above embodiments illustrate the invention, but do not limit it, and those skilled in the art will be able to devise many alternative embodiments without departing from the scope of the appended claims. In the requirements, reference numbers in parentheses should not be seen as limiting.

The use of the verb "to comprise" and its various forms does not exclude the presence of elements or steps not mentioned in the claims. The indefinite articles "an", "ei" or "et" before an element do not exclude the presence of several such elements.

The fact that certain features are listed in different mutually dependent claims does not indicate that a combination of these features cannot be advantageously used.

Claims (8)

Patent claims 1. Apparatus (1) for treating fish (8) infected with an external fish parasite, where the apparatus (1) comprises a treatment channel (2) and where the treatment channel (2) comprises an inlet (20), a treatment chamber (23) and a outlet (29), the treatment channel (2) is provided with a first separation unit (21) between the inlet (20) and the treatment chamber (23), and a second separation unit (22) between the treatment chamber (23) and the outlet (29), characterized in that the device (1) further comprises: - a liquid circuit (3) supplied with a treatment liquid; - a destruction channel (4), where the destruction channel (4) can comprise a first destruction agent (48) for external parasites; where the treatment chamber (23) forms part of the liquid circuit (3), and where the liquid circuit (3) further comprises: - a suction line (31) in fluid communication with the second separation unit (22); - a pump (32); and - a conveying line (33) in fluid communication with the first separation unit (21), and where the conveying line (33) is provided with a liquid treatment unit (35), where the destruction channel (4) includes: - an intake (40) in fluid communication with the first separation unit (21); - a pump (42); and - an outlet (49) in fluid communication with the second separation unit (22), and where the first separation unit (21) is provided with a bottom grate (27) covering an inlet (401) in the destruction channel (4) intake (40), and where the second separation unit (22) is provided with a roof grate (28) which covers an inlet (301) in the liquid circuit (3) intake (30). 2. Apparatus (1) according to claim 1, where the treatment channel (2) is submerged. 3. Apparatus (1) according to any one of the preceding claims, wherein the liquid circuit (3) comprises a dosing unit (37). 4. Apparatus (1) according to any one of the preceding claims, wherein the liquid circuit (3) comprises a temperature control unit (36). 5. Apparatus (1) according to any one of the preceding claims, wherein the fluid circuit (3) comprises a second means of destruction (38) for external parasites. 6. Apparatus (1) according to any of the preceding claims, where a part of the liquid circuit (3) is positioned on board a vessel (6). 7. Apparatus (1) according to any of the preceding claims, where a part of the destruction channel (4) is positioned on board a vessel (6). 8. Apparatus (1) according to any one of the preceding claims, wherein the apparatus (1) is provided with a floating body (5).