NO344624B1 - Method and de-lice equipment for non-medicinal de-lice of fish in a cage - Google Patents

Description

344624

1

Field of the invention

The present invention relates to a method and deworming equipment for non-medicinal deworming of fish in a cage.

5 Background of the invention

Salmon lice are a major problem in fish farming. The salmon louse lives as a marine parasite on salmon fish. It feeds on the mucus, skin and blood of the fish. It sucks nourishment from the fish and grows to about 5 mm in length for the males and about 10 mm for the females.

10

To combat salmon lice in farms, chemicals are used to a large extent, e.g. agents that will inhibit the synthesis of chitin in the louse and thus stop the shell change. The medicine is mixed in the feed or in the water that the fish swim in. A petroleum extract of chrysanthemum is one of the substances used.

15

Thermal disinfection is also used. Thermal de-lice is based on the fact that lice on fish are inactivated and fall off if they are exposed to a moderately elevated water temperature for a short period.

20 Preventive medication has been used, but this leads to increased resistance in salmon lice.

Biological methods such as the introduction of wrasse such as e.g. mountain gilt can also be used. The salmon louse's genome is also being mapped, as knowledge of this will make it easier to develop new drugs and vaccines against the organism.

25 Due to increased resistance to the medicinal agents, there has been a sharp reduction in the use of these in recent years. As salmon lice do not themselves lead to death in salmon, but rather the handling and treatment methods, this has increased in the last year as non-medicinal treatment is very stressful for the fish

30 Discussion of prior art

EP0574589 A1 relates to a method and apparatus for cultivating marine organisms while circulating the water in the upper and lower parts of a breeding tank by performing aeration of the tank so that a vertical convection current of the water is generated therein. When air is introduced into the tank via a

35 air supply line, a vertical convection current appears due to the lifting force of bubbles.

344624

2

Furthermore, US 2010/154717 A1 shows a device for supplying gas into water in cages, tanks or ponds with a pump and a dissolver to bring the gas into contact with water, and a water outlet. The pump is a submerged pump that sucks water directly from the cage, pond or tank, and a direct contact between

5 the pump and the dissolver are made to create a submersible unit. The gas is pressurized oxygen or oxygen-enriched air, the dissolver is a venturi dissolver, the pump and dissolver are combined in a sealed housing and the device includes a hook or eye or other mechanical structure, fixed or adjustable, to suspend the unit. In US 2010/154717 A1 it is proposed to use a ring with holes, where it is a matter of using a submerged pump which together with a venturi dissolver supplies oxygen-rich water to the ring and where the oxygen-rich water is released into the cage via the holes in the ring. The purpose is to increase the oxygen level in the water in the cage and especially in a wide area around the ring.

15 Reference is also made to NO 304171 B1 which shows a method and a device for the non-medicinal de-lice of fish, where parasites attached to the fish are loosened by directing water jets from nozzle heads/nozzle slits towards the surface of the fish. The water jets can be directed obliquely towards the surface of the fish.

20 Reference is also made to DK 177873 B1, EP 3141111 A2 and NO 342827 B1 as examples of background technology.

Purpose of the present invention

By using air bubbles of a specific size and supplied in a specific pattern, it is possible to get the air bubbles to drag water and lice upwards towards the surface, thereby forming a vertical column of water in the cage's water mass.

An object is to provide a system and method for non-medicinal treatment of fish to remove lice.

30

A further purpose is to produce a solution for removing the lice from the cage's water masses.

Summary of the invention

35 The above-mentioned purpose is achieved with a method for non-medicinal deworming of fish in a cage, comprising the following steps:

344624

3

- penetration of fish into the water mass of the cage by means of a cast net, which cast net comprises one or more sewn-in panels,

- force the fish through openings in said panel(s) deployed in said body of water, where the openings include nozzles,

5 - flushing the fish when it is forced through said openings with water under low pressure to remove lice,

- application of air bubbles in the water mass of the cage, in an area below the said panel's location, to form a bubble blanket that creates an upward column of water containing water and lice that have been flushed from the fish, and

10 - removal of the louse that has risen to the surface of the cage.

According to the method, water with a pressure of between 0.1 and 1.0 bar can be supplied to nozzles in the panel to form a low-pressure jet that washes away the lice on the fish.

15 According to the method, the nozzles can be oriented at an angle in relation to the panel's opening to form an inclined jet of water that hits under or on the louse's suction cup.

According to the method, the lice that have risen to the surface of the cage can be removed with a skimmer.

The above-mentioned purpose is also achieved with de-lice equipment for non-medicinal de-lice of fish in a cage, where the equipment comprises one or more panels for deployment in said cage, in which said panel(s) are sewn into a cast groove for penetrating the fish in the cage, 25 said panel(s) comprise openings with nozzles for low-pressure flushing of fish that pass through the openings, as well as a ring located in an area below said panel(s), where the ring is equipped with air nozzles to form a bubble carpet with air bubbles that create an ascending column of water containing water and lice that have been washed off the fish.

30 The ring of the de-lice device can be equipped with several nozzles/holes placed circumferentially around the ring.

The nozzles of the de-lice equipment can be oriented at an angle in relation to the opening of the panel to form an inclined jet of water.

35

The lice removal equipment may include a surface skimmer for removing lice that have risen to the surface of the cage.

344624

4

Description of figures

Preferred embodiments of the invention will be described in more detail below with reference to the accompanying figures, in which:

Figure 1 shows a cage equipped with a ring for forming an ascending water flow.

Figure 2 shows more closely the ring shown in Figure 1.

Figure 3 shows flushing equipment for removing lice from fish in the cage.

Figures 4 and 5 show the flushing equipment in more detail.

Figure 6 shows the removal of the louse using the flushing device and the ring.

10

Description of preferred embodiments of the invention

Figure 1 schematically shows a breeding cage 10 of a commonly known type, be it a closed or open cage, suspended in a floating collar 12 which floats on the surface 32.

15 Immersed in the cage's water mass 30, a ring 14 is placed. The ring 14 can, in a known manner, be suspended from cables or the like, or otherwise be placed in the cage 10. The ring 14 is equipped with several air nozzles/holes 16 placed circumferentially around the ring 14. Preferably, the nozzles 16 are placed evenly around the ring 14, and on the upper side of the ring, i.e. the side that faces the surface 32. However, the outlet openings of the nozzles 16 20 could be placed arbitrarily around the circumference of the ring 14.

The nozzles 16 can alternatively be closable, so that the number of nozzles 16 that are to be open can be determined. The number of open nozzles can be determined before the ring 14 is immersed, or the nozzles 16 can be equipped with remote-controlled closing mechanisms. The pattern of 25 air bubbles 40 that are released can thus be varied.

For the supply of air to the nozzles 16 of the ring 14, an air supply hose 18 can be used which extends down to the ring 14, from an air compressor 20 mounted on the cage 10 or another central location on the plant.

30

Air is released from the nozzles 16 of the ring 14 so that rising air bubbles 40 are created, which drag water with them to form a vertical column of water in the water masses 30 of the cage 10. For example, nozzles of 1 – 2 mm can be used which release air bubbles at a depth of 25m . It can be operated with an overpressure on the system of 5 bar at the surface (in supply hose). The amount of air that goes with it is then approximately from 400 - 850 litres/hour depending on how much water flow is desired. With such a solution, air expansion of the air bubbles is achieved from 25 to 10 muh (metres below sea level).

344624

5

By using a ring 14 of 1.6m in diameter with 20 nozzle openings of 2mm, the air bubbles 40 that come out will rise and expand so that the 5 meters above the ring 14 form a dense bubble blanket 34 that drags water with it. A similar effect can be achieved with a ring of 3m in diameter with 40 nozzle openings of 1mm. This gives a very wide and good updraft. When installed at a depth of 25m, this will create a good updraft from 20m up to the surface, especially in a 160m cage. The size of the ring 14 can thus be varied as desired.

When using the ring 14 as explained above, a column of water 36 is formed in the cage 10 10, and which causes vertical movement in the water so that there is a pressure at the water surface 32 which pushes the surface water out to the sides, and thereby against ingress of water on the surface , and that the water in the cage 10 is supplied with oxygen. As a consequence of this, a water exchange also occurs vertically in the cage 10, and the water becomes more oxygen-rich.

15

In a practical and simple example design, a plastic ring can be mounted at a depth of 25m, and be made of 32mm water pipe. Diameter equal to 300cm. 40 pieces are drilled. holes\nozzles with 1mm bore in ring 14. Air supply from compressor 20, which can provide 3600l\min at 7 bar. The compressor 20 can be placed on the cage 10 or centrally in the facility, 20 and will have sufficient capacity to distribute air to up to six cages.

An important aspect of the present invention is that the lice 52 are flushed from the fish 50 by means of water under pressure in the cage 10.

25 For flushing the fish 50 with pressurized water, flushing equipment in the form of a panel 60 can be immersed in the water masses 30 of the cage 10. This panel 60, or several panels, can in a practical design be sewn into a cast groove 80 so that the fish is simultaneously penetrated.

The panel 60 comprises many square or round openings 70 through which the fish 50 can swim, and where the openings 70 can form a grid pattern as shown in figure 3. Each opening 70 is equipped with water nozzles 62, as for example shown in figures 4 and 5 In the case of square openings 70, the water nozzles 62 are preferably placed in respective vertical parts 64 and horizontal parts 66 of the panel 60. In the case of round openings, the water nozzles 62 are placed circumferentially around the opening 70. As shown in Figure 5, the fish 50 can thus be flushed both from the upper side and the lower side.

344624

6

In the panel 60, water under pressure is supplied to the water nozzles 62 via water lines 68 from a pump or compressor. The water supplied preferably has a relatively low pressure, for example 0.1 – 1.0 bar. The water is preferably supplied with low pressure so as not to harm the fish.

5

As shown in Figure 5, the nozzles 62 can be mounted at an angle α in relation to the panel 60. The water jets that come out obliquely from the water nozzles 62 (illustratively shown in Figure 5) will then hit the louse 52 under or on the louse's suction cup and thus remove the louse more easily .

10 After the louse 52 has been rinsed off the fish 50, the louse should preferably be removed from the cage 10. For this purpose, the ring 14 mentioned in connection with figures 1 and 2 can be used. A ring 14 with a dimension adapted to the size of the panel 60 is thus placed centrally in the cage 10, and when air is supplied to the ring, said bubble blanket 34 is formed which creates an upward flow of water 36 which will drag the louse 52 with it to the surface 32. The ring 15 14 dimension can thus deviate from what has been described previously.

The lice 52 that rise to the surface 32 can then be removed with, for example, a skimmer 72 for destroying the lice in a lice destruction facility. The skimmer 72 can capture lice that float in or near the surface, for example by an upper layer of water in the surface 32 being sucked up and which is then sent to said lice destruction facility.

Claims (8)

344624 7 Patent claim 1. Procedure for non-medicinal de-lice removal of fish in a cage, characterized by including the following steps: 5 - penetration of fish (50) into the water mass (30) of the cage (10) by means of a casting groove (80), which casting groove (80) comprises one or more sewn-in panels (60), - force the fish (50) through openings (70) in said panel(s) (60) deployed in said body of water (30), where the openings (70) include nozzles (62), - flushing the fish (50) when it is forced through said openings (70) with 10 water under low pressure to remove lice (52), - application of air bubbles (40) in the water mass (30) of the cage (10), in an area below the location of said panel (60), to form a bubble blanket (34) which creates an ascending column of water (36) containing water and lice (52) ) which is flushed by the fish (50), and 15 - removal of the louse (52) which has risen to the surface (32) of the cage (10). 2. Method in accordance with claim 1, in which water with a pressure of between 0.1 and 1.0 bar is supplied to nozzles (62) in the panel (60) to form a low-pressure jet which washes away the lice (52) on the fish (50). 20 3. Method according to claim 2, in which the nozzles (62) are oriented at an angle (α) in relation to the opening (70) of the panel (60) to form an inclined jet of water that hits under or on the suction cup of the lice (52). 25 4. Method in accordance with claim 1, in which the louse (52) which has risen to the surface (32) of the cage (10) is removed with a skimmer (72). 5. De-lice equipment for non-medicinal de-lice of fish in a cage, characterized in that the equipment includes: 30 - one or more panel(s) (60) for deployment in said cage (10), in which said panel(s) (60) are sewn into a cast groove (80) for pushing the fish (50) into the cage (10) , - in that said panel(s) comprise openings (70) with nozzles (62) for low-pressure flushing of fish (50) that pass through the openings (70), as well - a ring (14) placed in an area below said panel(s) (60), where the ring (14) 35 is equipped with air nozzles (16) to form a bubble blanket (34) of air bubbles (40) which create an ascending water column (36) containing water and lice (52) which have been washed off the fish (50). 344624 8 6. De-lice equipment in accordance with claim 5, in which the ring (14) is equipped with several nozzles/holes (16) located circumferentially around the ring (14). 7. De-lice equipment in accordance with claim 5, in which the nozzles (62) are oriented at an angle (α) in relation to the opening (70) of the panel (60) to form an inclined water jet. 8. Lice removal equipment in accordance with claim 5, comprising a surface skimmer (72) for removing lice (52) which have risen to the surface (32) of the cage (10). 10