NO344245B1 - Apparatus for irradiating an external fish parasite and procedure for using the apparatus - Google Patents

Description

APPARATUS FOR IRRADIATION OF AN EXTERNAL FISH PARASITE AND METHOD OF USING THE APPARATUS

The invention relates to an apparatus for treating fish infected with an external parasite. More specifically, the invention relates to an apparatus for irradiating fish with infrared light to remove external parasites attached to the fish. The invention also relates to a method for removing external parasites attached to fish using infrared light.

The presence of parasites is a major challenge when it comes to fish farming. Salmon lice infection is particularly known to be a challenge in salmon production. Such infections can be fatal to the salmon if left untreated. Several methods of treating salmon against lice have been tested. However, it has been shown that lice, similar to other parasites with a short generation span and high formation potential, build up resistance to chemicals and drugs used against them.

In addition to chemicals and pharmaceuticals, organisms such as wrasse and roe crackers have been used successfully for biological control of lice. However, it is clear that this is not sufficient to eliminate the problem.

Another method used is to bathe infected fish in warm / heated water (approx. 30-35 ° C). One example of a device used in such a method is a so-called Thermolicer. It is clear that lice also build a tolerance to hot water.

A final example of a treatment method is the use of laser pulses. This method is effective at close range and with a limited number of lice.

Document DE102017000809 describes an apparatus for treating fish against, among other things, salmon lice using infrared light over the entire infrared wave spectrum (wavelengths between 0.7 and 1000 micrometres).

Document EP 2837284 deals with a method and an apparatus for treating fish infected with ectoparasites. The fish are exposed to electromagnetic radiation to combat the parasites.

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.

The invention is defined by the independent patent claims. The independent claims define advantageous embodiments of the invention.

In a first aspect, the invention relates more specifically to an apparatus for treating a fish infected with an external parasite, where the apparatus comprises:

- a supply channel for the fish;

- a drainage unit for draining a water;

- a processing chamber;

- at least one light source placed inside the treatment chamber for irradiation of the fish, and - an outlet,

where the at least one light source is configured to irradiate the fish with infrared light with a wavelength between 0.7 and 3 micrometres.

The invention has the effect that the infrared light can penetrate the parasites, thereby heating them up so that they release the fish. The fact that the infrared light can penetrate the parasites means that they will be weakened and/or suffer damage and/or death. The weakening and/or damage can be so extensive that they release the fish. Death will also cause the parasites to leave the fish. The fact that the parasite releases the fish must be understood as the parasite falling off the fish. The exposure time can determine whether the parasites are weakened or damaged or die. Shorter exposure times, such as ten seconds, may be associated with impairment or damage. Longer exposure times, such as 20 seconds, may be associated with death. Said effect is effectively achieved by an infrared light with a wavelength between 0.7 and 3 micrometres. Experiments have been carried out which show that infrared light with a wavelength greater than 3 micrometres will release most of its energy as heat to the surroundings before it reaches the parasites on the fish. Such infrared light will therefore not contain sufficient energy to be able to weaken and/or damage and/or kill parasites attached to the fish's surface when the light reaches the fish.

It must be understood that the given wavelength interval may also include the end points, 0.7 and 3 micrometers.

In one embodiment, the infrared light may have a wavelength between 0.8 and 3 micrometers. This embodiment has the effect that the infrared light will be able to weaken and/or damage and/or kill parasites more effectively as the wavelength spectrum is narrowed towards the wavelengths that penetrate deeper into the parasite.

In one embodiment, the infrared light may have a wavelength between 0.8 and 2.5 micrometers. This embodiment has the effect that the infrared light will be able to weaken and/or damage and/or kill parasites even more effectively as the wavelength spectrum is narrowed towards the wavelengths that penetrate even deeper into the parasite.

In one embodiment, the infrared light may have a wavelength between 0.9 and 2.5 micrometers. This embodiment has the effect that the infrared light will be able to weaken and/or damage and/or kill parasites even more effectively as the wavelength spectrum is narrowed towards the wavelengths that penetrate further into the parasite.

In one embodiment, the infrared light may have a wavelength between 0.9 and 1.5 micrometers or a wavelength between 2 and 2.5 micrometers. This embodiment has the effect that the infrared light can have two different wavelength spectrums, where each spectrum spans between the wavelengths that can penetrate most deeply into the parasites, and thus weaken and/or damage and/or kill the parasites most effectively. In one embodiment, the infrared light may have a wavelength between 0.9 and 1.5 micrometers. In another embodiment, the infrared light may have a wavelength between 2 and 2.5 micrometers

In one embodiment, the apparatus can comprise a second chamber for rinsing the fish, where the second chamber is placed between the treatment chamber and the outlet. This embodiment has the effect that the parasites can be flushed from the fish before the fish leaves the device. In some cases, the parasites will not necessarily fall off the fish even if they leave the fish's surface. Then flushing will be an appropriate way to remove the parasites from the fish. The second chamber may be provided with nozzles which are supplied with water from a reservoir. In one embodiment, the water from the second chamber can be transported away together with the water from the drainage unit.

In a second aspect, the invention relates more specifically to a method for treating a fish infected with an external parasite using the apparatus according to any one of the preceding claims, the method comprising the steps:

- bringing the fish from a lake into the apparatus via the supply channel;

- to separate the fish from a surrounding water in the drainage unit;

- guiding the fish into the treatment chamber;

- irradiating the fish with infrared light inside the treatment chamber;

- to lead the fish back to the sea via the outlet.

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

Fig. 1 shows a simplified sketch of the device according to an embodiment of the invention.

The figure is shown in a simplified way, and details that are not important to illuminate what is new

with the invention may have been omitted from the figure. The various elements in the figure are not necessarily

shown in the right scale in relation to each other.

In the following, reference numeral 1 refers to an apparatus for treating a fish (not shown) infected by a parasite (not shown). The apparatus 1 comprises a supply channel 2 to be able to lead the fish from a body of water, such as a lake, and into a drainage unit 3. The supply channel 2 can comprise a pump 20. The pump 20 can create a suction in a first end 21 of the supply channel 2 which guides the fish through the supply channel 2.

The supply channel 2 is connected to a drainage unit 3. The drainage unit 3 separates the fish from the water that enters with the fish via the supply channel 2. In this specific embodiment, the water flows down through a grate 30. Parasites will be able to fall off the fish inside the drainage unit 3. These parasites are removed along with the water. The drainage unit 3 is shown to comprise a second grate 31. The second grate 31 can remove the parasites from the water.

The drainage unit 3 is further connected to a treatment chamber 4. The fish can be led from the drainage unit 3 into the treatment chamber 4. One or more light sources (not shown) are placed inside the treatment chamber 4. The light source(s) can deliver infrared light (IR light) with a wavelength between 0.7 and 3 micrometres. In one embodiment, a wavelength spectrum may vary within the given spectrum.

The IR light will be able to weaken and/or damage and/or kill parasites attached to the fish. It has been found in experiments that IR light within the given spectrum is most effective in weakening and/or damaging and/or killing parasites. IR light with a wavelength greater than 3 micrometres emits most of its energy as heat to the surroundings, and is thus unsuitable for treating fish against external parasites. IR light can be divided into three categories; IR-A, IR-B and IR-C. IR-A has a wavelength between 0.7 and 1.4 micrometres. IR-B has a wavelength between 1.4 and 3 micrometres. IR-C has a wavelength between 3 and 1000 micrometres. From this it can therefore be deduced that IR-C has been omitted from the invention.

From the treatment chamber 4, the fish can be led back to the water through an outlet 5. The outlet 5 is shown to comprise a pump 50.

In the embodiment shown, the device 1 comprises a second chamber 6 for flushing the fish before it is led to the outlet 5. In the second chamber 6, parasites can be flushed away from the surface of the fish. The second chamber 6 comprises nozzles (not shown) which are supplied with water from a reservoir (not shown). After flushing, the water can be transported away together with the water from the drainage unit 3. The second grate 31 is shown to extend below the second chamber 6 so that parasites that are flushed by the fish can be separated from the water before it is transported away. It must be understood that flushing the fish can be done in other ways than using nozzles, such as with perforated pipes.

Claims (7)

Patent claims 1. Apparatus (1) for treating a fish infected with an external parasite, wherein the apparatus (1) comprises: - a supply channel (2) for the fish; - a drainage unit (3) for draining a water; - a treatment chamber (4); - at least one light source placed inside the treatment chamber (4) for irradiation of the fish, and - an outlet (5), characterized in that at least one light source is configured to irradiate the fish with an infrared light with a wavelength between 0.7 and 3 micrometres. 2. The device (1) according to claim 1, where the infrared light has a wavelength between 0.8 and 3 micrometres. 3. The device (1) according to claim 1, where the infrared light has a wavelength between 0.8 and 2.5 micrometres. 4. The device (1) according to claim 1, where the infrared light has a wavelength between 0.9 and 2.5 micrometres. 5. The device (1) according to claim 1, where the infrared light has a wavelength between 0.9 and 1.5 micrometers or a wavelength between 2 and 2.5 micrometers. 6. The apparatus (1) according to any one of the preceding claims, comprising a second chamber (6) for rinsing the fish, the second chamber (6) being located between the processing chamber (4) and the outlet (5). 7. Method for treating a fish infected with an external parasite using the device (1) according to any one of the preceding claims, wherein the method comprises the steps: - to lead the fish from a water into the device (1) via the supply channel (2); - separating the fish from a surrounding water in the drainage unit (3); - guiding the fish into the treatment chamber (4); characterized by the fact that the procedure further includes the steps: - irradiating the fish with infrared light inside the treatment chamber (4); - to lead the fish back to the water via the outlet (5).