NO343353B1 - Inspection and debugging module for use in a floating plant. - Google Patents

Abstract

Floating facilities (10) for the treatment and rearing of marine organisms, comprising an elongate floating structure (12) equipped with several adjacent cages (14) for rearing said marine organisms, as well as outriggers (16) which house the cages (14), where the floating structure ( 12) is a barge which is firmly anchored to the seabed, and that the outriggers (16) which accommodate the cages (14) are projectingly attached to the hull side (12a) of the barge (12). An inspection and de-lice module (100) for use in a floating plant (10) for breeding marine organisms is also mentioned, where the inspection and de-lice module (100) are arranged for placement in one or more cages (14) which are part of the floating plant. (10), and wherein the inspection and de-lice module (100) comprises several channels (102) through which the marine organisms can swim.

Description

Field of the invention

The present invention relates to an inspection and de-lice module for use in a floating facility for breeding marine organisms, where the inspection and de-lice module is designed for placement in one or more cages that are part of the floating facility.

The background of the invention.

The sea contains an important part of the resources that Norway will live on in the future. Aquaculture where healthy, quality food is grown will be an important part of this vision.

Further development of current aquaculture technology will be central to Norway becoming competitive in the international market.

Discussion of prior art.

WO 2016128981 A1 describes a submersible vessel for use in connection with farming fish in the open sea. The vessel is anchored to the bottom so that the farm can swing with the wind, waves and current. The vessel has fish cages connected to a hull or framework. The fish cages can be lowered below the surface so that they are not affected by harsh winds and wave conditions on the surface. The hull has a deck which will still be on the surface when the fish cages are in a submerged state. The deck is equipped with a mobile crane.

NO 310801 B1 relates to a farming facility with a floating structure that can be anchored to the seabed. The floating structure comprises a main part which has projecting piers, and between the piers breeding units with vessels or tanks can be inserted.

The breeding vessels are equipped with floating bodies so that they can float and be moved on the water. The floating structure serves as a carrier for various service equipment, such as pumps for the supply of water and removal of contamination from the breeding vessels, as well as a cleaning unit.

Reference is also made to WO 9514374 A2, which describes a breeding facility where there are fish cages located around a central platform or support device that rests on the seabed. The platform functions as a workplace where various types of functions can be performed, and it can be autonomous for a period of time. The fish cages have ballast tanks so that they can be raised and lowered into the water.

GB 2437637 A shows a buoy for use in a fish farm. The buoy is attached to the seabed using a mooring and has a connecting line to a barge with a number of fish cages. Various types of services can be carried out from the barge and supplies are supplied to the buoy and on to the individual fish cages.

CN 103988802B A shows a breeding facility with a number of fish cages connected to a barge or feeding platform. The feeding system is automated and centralized, which should ensure good feeding control and reduce transport and labour.

EP 3114926 A1 shows a system for removing parasites on farmed salmon swimming through a transport pipe from an inlet to an outlet. The system consists of a pump, at least one treatment chamber, a separation unit connected to a filter and an intermediate pipe. The parasites on the fish are removed using an injection unit which has a plurality of nozzles which ensure a steady supply of water at a low pressure into the transport pipe.

WO 2014129908 A1 relates to a device for treating or vaccinating farmed fish against parasites, especially salmon lice. The device comprises a cylindrical and circular tank with a means for treating the fish and a transfer mechanism having several guide vanes which bring the fish through the tank from the inlet to the outlet in a predetermined direction and speed. This gives the fish a predetermined residence time in the tank. The device may be installed on a floating installation such as a ship.

NO 20130687 A1 describes a cleaning system for removing ectoparasites from fish using a water stream containing gas bubbles. The mixture is aimed at the skin of the fish and removes the ectoparasites in an effective and gentle way. The system works best if the fish is transported through a pipe system with an inlet end and an outlet end. The water flow is driven by a pump and carries the fish through a main channel. An ejector device is designed so that an injection water flow can be introduced through an ejector nozzle and into a main channel.

Purpose of the present invention.

The invention is basically a system solution for farming fish and other aquaculture species such as shells, lobsters, etc. The starting point for the concept is to create a stable anchored floating construction/work platform to which the facility is connected, typically a barge. This concept provides a stable and good working platform, where many processes can be carried out without the need for external help from service, well and crane boats for de-lice removal, cleaning of cages and nets, inspection and certification of nets, processing of slaughter fish, dead fish, etc.

In a fully developed solution, one can produce seafood from eggs to ready-packaged seafood of various types. The facility can be powered by green energy, which is produced at the facility and where all waste is collected and processed into fertilizer or other products that can be reused.

The barge concept can either be anchored in protected waters with normal anchorage or at sea in rougher weather conditions with an external turret anchorage.

The cages or other forms of breeding facilities are attached to the platform/barge. A facility according to the invention can have one or more of the following functions integrated: • Work platform with service crane.

• Inspection, recertification and storage of cages/nuts.

• Feed stock in the barge.

• Processing of waste and excess feed that passes through the cage.

• Lice removal facility, collection of lice and destruction of lice.

• Finished processing of what is produced in the facility (slaughter, gutting, filleting, packaging and storage (frozen/vacuumed)).

• Settled fish farm.

• Conveyor belts or similar transport solutions to/from the floating platform.

• Housing and office facilities.

• Platform for producing green energy in the form of wind (windmills), solar panels or similar.

• Access for service boats (feed boats, collection of waste, service, personnel transport, etc.).

• The entire unit with cages can be easily moved to a new location if this is appropriate/necessary.

• Each cage can be maintained, pulled onto the work platform or moved.

• Installation and operation of the inspection and de-lice module.

In this case, marine organisms mean both what is produced in the cages, as well as dead fish and waste and foreign organisms such as lice. Processing lice will be to destroy the foreign organisms.

It is consequently an object of the invention to produce a floating plant with one or more of the above-mentioned functions.

It is also an aim to produce an inspection and descaling module for use in a floating plant. Using the module, it is possible to continuously inspect and process a representative selection of fish. Over time, it will be possible to inspect and treat all fish in the cages.

The inspection and de-lice module(s) can be rebuilt with different types of functions both when installed or when stored on the barge.

The inspection and de-lice module can either be permanently installed in a cage or lowered and installed as needed. In addition, the inspection and de-lice module can be offered as a stand-alone service for use in other facilities.

Summary of the invention

The above-mentioned purpose is achieved with an inspection and de-lice module for use in a floating facility for breeding marine organisms, where the inspection and de-lice module is designed for placement in one or more cages that are part of the floating facility. The inspection and de-lice module comprises several channels through which the marine organisms can swim, in which channels the organisms are in a controlled area equipped with means for inspection and means for treatment, such as vaccination, feeding, removal of lice, etc., as inspection and the de-lice module comprises a cassette with a number of horizontal tubes through which the organisms swim, and a number of vertical tubes which cross and cut through the horizontal tubes and which are equipped with said means for inspecting and treating the organisms.

The channels through which the organisms swim may be horizontally arranged tubes equipped with a gate at the end of the tube to regulate the residence time in the tube.

Said means for inspecting and treating the organisms can extend through the vertical tubes, and that at least a selection of the means in each vertical tube can have common operation.

Said means for inspecting and treating the organisms can further consist of pull-out modules that can be pushed in and out of the vertical pipes.

Said means for inspecting and treating the organisms may include equipment to produce one or more of the following functions in the individual pipes:

- camera for monitoring,

- laser to remove lice,

- flushing equipment for flushing the organisms with warm or lukewarm water,

- means for vaccination,

- equipment for feeding the organisms with special nutrition,

- brushes for brushing the organisms to remove lice and the like.

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 schematic diagram of a floating plant which is not in accordance with the invention, seen in perspective.

Figure 2 shows the corresponding floating plant, seen in perspective.

Figure 3 shows a simplified version of the floating plant, seen in perspective. Figure 4 shows the floating plant, seen from above.

Figure 5 shows the floating plant, seen from the side and in section A-A in Figure 4.

Figure 6 shows the floating plant, seen from one end.

Figure 7 showed a section of a front part of the floating facility, with a turret anchorage.

Figure 8 shows an inspection and deworming module according to the invention.

Figure 9 shows the corresponding inspection and the deworming module according to the invention. Figure 10 shows a section of the inspection and deworming module according to the invention.

Description of preferred embodiments of the invention.

As can be seen from the figures, a floating plant 10 for the treatment and breeding of marine organisms is described, comprising an elongated floating structure 12 equipped with several adjacent cages 14 for breeding said marine organisms. An important point is that the elongated floating structure is a barge 12, which provides a stably anchored and floating work platform that can offer or assist in all phases of farming and production. As you know, a barge is a cargo barge that can be described as a floating platform or box. Modern barges are available both with and without engine, with and without rudder, and with and without keel. This is a flat-bottomed boat type. Length in relation to width varies with area of use and waters. Older barge types, such as lørje and barge, were often short and wide. Modern barges, on the other hand, are often long and narrow in relation to their length. It is the latter that is most relevant for use and which is equipped with its own drive mechanism, and for that matter preferably also with its own positioning system. Semi-submersible platforms that offer the same functions can also be used.

The barge 12, which is basically a ship structure, can have ballasting options. The rooms in barge 12 can be used for feed storage, waste processing, treatment of living marine organisms (typical freshwater treatment of salmon to remove lice), destruction of lice, storage of finished products, emergency power generators, etc.

In an advanced version, a so-called dynamic positioning system (DP) can be used if desired. This system consists of machinery with several propellers placed around the hull of the barge 12. The machinery is controlled by a computer. The position to be held and how large a deviation from the position is tolerated is entered into the system. If the position deviates from the desired position, the computer will give instructions to the machinery to change the position to the desired one.

The floating plant 10 is designed to operate in rough weather conditions both offshore and in more protected areas. In addition, the facility 10 can be self-sufficient in energy and facilities and be suitable for operating in remote areas far from infrastructure with poor access. The plant can fully developed operate as an autonomous plant, i.e. self-sufficient in energy, all functions are integrated for breeding marine organisms from eggs to finished product and in addition storage and processing facilities to operate without assistance or goods from others over a longer period.

By using a barge 12, the facility 10 is flexible and can be expanded as needed both with the number of cages 14 and additional functions such as processing of waste and lice, housing and office, processing and storage of finished products, smolt facility, facility for the growth of hatchery fish, green energy, etc. The floating facility 10 may therefore include, but is not limited to, housing and offices 30, buildings 32 for hatching fish and processing fish, windmills 34 for the production of electricity, as well as cranes 36 and winches to operate the facility 10 The cranes 36 can be mobile cranes which are moved on longitudinal rails 38 on the barge 12, and which can operate in the entire longitudinal direction of the barge. Such a facility 10 provides a large work platform where many of the processes in a farming facility can be carried out without the help of service, well and crane boats, e.g. de-lice, cleaning of cages and nets, inspection and certification of nets, processing of dead fish, etc.

The barge 12 can be stored/anchored in several ways. Slack anchoring with typically one or more anchor lines attached to the barge in each corner, turret anchoring where the barge is anchored via a fixed or detachable anchor table or as a DP unit.

As shown, for example, in Figures 1 and 2, the barge 12 can comprise a turret 20 at one end 18a for pivotable anchoring to the seabed. This means that the plant 10 will always lie up against the wind/current so that they cause minimal movement of the plant due to wind and waves. The turret 20 can via a line 22 or a rigid connection be anchored to a mooring buoy 28 which is in turn anchored to the seabed in the traditional way.

Line 22 will also be able to function as a pull-in line. In addition, a further liner 24 can be used which extends from the turret 20 and which is anchored to the seabed. By line here is meant chain, wire, fiber rope, etc., which are suitable for anchoring.

The turret 20 has a turret or turntable function for swiveling anchoring of the barge 12 to the seabed. The turret 20 may comprise an anchoring table 52 which is attached to an upper turret structure by means of a bearing arrangement so that the entire plant 10 rotates around the anchoring table 52. In the anchoring table 52 the anchoring lines 22,24 are attached. The anchoring table 52 can be connected to and from the upper turret structure, which means that the plant 10 can be connected to and from the anchoring system as discussed, i.e. that the floating plant 10 is a detachable system. The windmill 34 can be mounted on top of the turret 20.

Figure 3 shows a simplified version of the floating facility 10. The facility 10 is, for example, without the building 32 for hatchery fish and processing fish. Furthermore, the plant can be more traditionally stored via anchoring lines 26 attached to each end 18a, 18b of the barge 12 and anchored to the seabed. The plant 10 can otherwise be similarly equipped.

The floating breeding facility 10 comprises one or more cages 14 without traditional anchoring, but which are connected to the barge 12. There are no restrictions on the number of cages 14 in the facility 10.

The cages 14 can be self-floating or held up by cantilevers/outriggers 16 from the barge 12. The outriggers 16 can be firmly attached to the barge's 12 hull side 12a and be designed to move together with the barge 12. Alternatively, the outriggers 16 can be hingedly attached to the barge's 12 hull side 12a and be arranged to move independently of the barge 12. In the latter case, the outriggers 16 or the cages 14 can be equipped with buoyancy means to absorb forces when the outriggers 16 move independently of the barge 12.

Each cage 14 can be disconnected from its fastening device to the barge 12 and towed to a new location, be it another location in the facility 10 or at another facility or location.

The cages 14 in the facility 10 can be open, closed or partially closed cages of known construction. The cages 14 can thus comprise a groove or other enclosure which is attached to a bottom ring 40 and which terminates in a collection funnel 42, from which a suction hose 44 for collecting waste, feces, dead fish and feed residues can run up to the treatment facility on the barge 12. Alternatively a separate suction hose with pump can be lowered into the cage and for vacuuming the cage. The waste then enters the waste processing facility on the barge 12 via hoses/pipes.

The cages 14 or the outriggers 16 can also be equipped with lice skirts 46. Lice normally reside in the upper bodies of water and the lice skirts 46 can be submerged to approximately 15m. Each cage 14 can be equipped with a separate winch, or a portable/removable winch can be used for operating the cage and associated components.

On the outside of the cages 14, and preferably between the outriggers 16, an additional structure 50 or walkway can be attached. This additional structure will provide good and safe access to the cages 14, as well as that it can function as an attachment arrangement for the louse skirts 46 which prevents lice from entering the cages 14. The outriggers 16 will also function as an attachment arrangement for the louse skirts 46.

The cages 14 can also be supplied in a known manner with fresh and lice-free water from deeper bodies of water via a suction hose 48 and pump, and the cages can be equipped with energizers.

The facility 10 can have integrated functions to ensure that lice are detected at an early stage so that measures can be taken to limit the access of lice into the cages. When it is discovered that lice are in the area around the cages 14, it can be ensured that clean, lice-free water is pumped into the cages. In addition, lice on the fish can be removed in the cage, and the lice can be collected and destroyed safely in a separate processing module placed on the barge.

The invention relates to an inspection and de-lice module 100, as shown in particular in Figures 7-9, for use in a floating facility 10 for breeding marine organisms.

The inspection and de-lice module 100 is arranged for placement in one or more cages 14 which are part of the floating facility 10, as shown in Figures 4 and 6.

The inspection and de-lice module 100 comprises several channels 102 through which the marine organisms can swim, where the channels 102 are equipped with means for inspection and means for treatment, such as vaccination, feeding, removal of lice, etc.

The inspection and de-lice module 100 can comprise a cassette with channels in the form of several tubes 102 through which the fish naturally swims. Several cassettes can be installed in a cage 14 if desired. Furthermore, in the cage 14, preferably in front of the cassette, guide means can be installed which guide and/or force the fish towards the pipe mouths, for example a funnel, guide plates, guide groove, etc.

The residence time of the fish in the pipes can be controlled by closing and opening a hatch. When the fish swims through the tube, it will be photographed/monitored for lice. When lice, disease or other foreign organisms are detected on the fish, measures are taken to prevent further spread and, in addition, to remove the foreign organisms. This is done by equipping the inspection and de-lice module with additional functions such as washing, vaccination/medication, brushing, lighting, removal of waste/lice etc. To prevent the further spread of such foreign organisms, the installed lice skirts 46 can be used and water pumped from deeper bodies of water, typically 30-50 m.

The channels 102 through which the organisms (fish) 120 swim are preferably horizontally arranged tubes equipped with a gate at the end of the tube to regulate the residence time in the tube. The inspection and de-lice module 100 further comprises a number of vertical pipes 104 which cross and cut through the horizontal pipes 102, and which are equipped with said means for inspecting and treating the organisms.

The means for inspecting and treating the organisms include equipment for producing one or more of the following functions in the individual pipes: camera for monitoring, laser for removing lice, flushing equipment for flushing the organisms with warm or lukewarm water, means for vaccination, equipment for feeding the organisms with special nutrition and brushes for brushing the organisms to remove lice and the like.

The equipment for the various means can be in the form of extendable modules 110,112,114,116 which can be pushed in and out of the vertical tubes 104, as shown in Figure 8. Seen from the left side in Figures 8 and 9, a first module 116 can be arranged for flushing of the fish with warm or lukewarm water, and have recirculation by filtering the water. A second module 114 can be used for vaccination and camera monitoring. A third module 112 can comprise brushes, preferably in the form of spiral or screw-shaped brushes, where waste from the brushes can be collected in a lower drainage. A fourth module 110 can be gates to control the fish's residence time in the vertical tubes 102. Other modules with functions as mentioned can correspondingly be placed in the inspection and de-lice module 100 cassette.

Several of the means in each vertical tube 104 can have joint operation, such as in particular the brushes 112.

When lice and other waste have been brushed off, this will be sucked up via pipes and hoses at the bottom of the inspection and lice removal module 100, and the waste can be pumped into a processing/destruction module at the plant 10.

The floating facility 10 according to the invention can be prepared for smolt facilities and facilities for growth for hatchery fish (typically growing fish from 50 - 150 g) before they are released into the cages 14. The facility 10 can also be used for breeding wrasse for use in this facility or for sale to other facilities.

Facility 10 will not discharge fish waste, fish feed or dead fish. This is collected at the bottom of each cage 14 and pumped via hoses and pipes to the platform/barge 12 where there are separate processing modules for such waste. The waste can be fully processed, packaged and stored at the facility.

At the facility 10, there may also be equipment (mobile cranes, tools, space) to take up cages 14 for inspection, recertification and possibly storage. The facility 10 can also be equipped with an ROV handling unit for inspection of the facility under water.

Claims (5)

Patent claims 1. Inspection and de-lice module (100) for use in a floating facility (10) for breeding marine organisms, where the inspection and de-lice module (100) is designed for placement in one or more cages (14) that are part of the floating facility (10) ), characterized in that the inspection and de-lice module (100) comprises several channels (102) through which the marine organisms can swim, in which channels (102) the organisms are located in a controlled area equipped with means for inspection and means for treatment, such as vaccination, feeding, removal of lice, etc., the inspection and de-lice module (100) comprising a cassette with a number of horizontal tubes (102) through which the organisms swim, and a number of vertical tubes (104) which cross and cut through the horizontal tubes (102) and which is equipped with said means for inspection and treatment of the organisms. 2. Inspection and de-lice module (100) in accordance with claim 1, characterized in that the channels (102) through which the organisms swim are horizontally arranged tubes equipped with a port at the end of the tube to regulate the residence time in the tube. 3. Inspection and de-lice module (100) in accordance with claim 1, characterized in that said means for inspection and treatment of the organisms extend through the vertical pipes (104), and that at least a selection of the means in each vertical pipe (104 ) have joint operations. 4. Inspection and de-lice module (100) in accordance with claim 1, characterized in that said means for inspection and treatment of the organisms consist of extendable modules (110,112,114,116) which can be pushed in and out of the vertical pipes (104). 5. Inspection and de-lice module (100) in accordance with claim 1, characterized in that said means for inspection and treatment of the organisms include equipment to produce one or more of the following functions in the individual pipes: - camera for monitoring, - laser to remove lice, - flushing equipment for flushing the organisms with warm or lukewarm water, - means for vaccination, - equipment for feeding the organisms with special nutrition, - brushes for brushing the organisms to remove lice and the like.