NO321422B1 - Device, system and method for effective removal of clay and other sediments on the seabed - Google Patents

Description

The present invention relates to a device, a system and a method for the effective removal of clay and other sediments on the seabed, as stated in the introduction of respective independent claims 1, 9 and 17.

Today there are technologies where water and high pressure are used for this type of mission. However, these have limitations according to what water pressure can be generated. Normally, it is about approx. 100 bar maximum, and with modest amounts of water in addition.

From the patent literature, GB 1312515 shows, among other things, a device for flushing away soil layers or sediments for laying, for example, pipes, comprising a mixing nozzle, in which water coming from a drive nozzle and air flowing in from an annulus are mixed and then driven into the soil layer. US 4,479,741 shows a self-propelled device for burying and excavating pipelines on the seabed, comprising a disintegration element which uses high-pressure water jets to create a slurry of the bottom material, digging elements having suction units for drawing up the slurry, and displacement units for to move the device on the seabed along the conduit. Furthermore, WO 03/102313 shows a solution for removing sediments on the seabed, comprising a lowerable and elevating unit with propellers that form a water flow out of the unit to break up the sediments.

The invention preferably relates to a device and a system for effectively removing clay and other sediments with a hardness > 0.5Mpa. If it is a question of removing masses on the seabed and if these have a greater hardness than 0.5Mpa, traditional dredging (use of vacuum) cannot be used. Then you have to use water with a pressure above 1Mpa (100bar) to break up these sediments. In order to do this much more effectively than traditional methods, the present invention deals with a system that combines ultra-high and low pressure.

These are combined by feeding both of these supply mediums into a compact unit where ultra-high pressure is fed into the center nozzle and where low pressure is fed into an outer nozzle. The ultra-high-pressure nozzle supplies such high water pressure that the sediments on the seabed are funneled. By then adding water at low pressure, these sediments are further broken up. By further combining several such nozzle systems in the same system, one can then effectively dig trenches on the seabed.

It is consequently an object of the present invention to produce a device and system as discussed above.

This purpose is achieved, among other things, with a device as stated in independent claim 1, in that the device comprises a main body with at least one high-pressure nozzle and at least one low-pressure nozzle arranged for receiving and passing on fluid under high pressure and fluid under low pressure, respectively, whereby the main body is arranged to to be arranged on the seabed for the supply of said fluid to break up adjacent sediments.

Alternative preferred embodiments of the device are characterized by the independent claims 2-8.

The main body preferably comprises a centrally arranged high-pressure nozzle and a surrounding outer low-pressure nozzle, where the high-pressure nozzle is designed to supply fluid with sufficiently high pressure to transport sediments within a distance of up to 1 m, and the low-pressure nozzle is designed to further break up said sediments. Water is preferably used as the working fluid. The main body can further comprise a hook-shaped part designed to further break up and/or dig away said sediments.

Device according to the invention can be connected to one or more frequency-controlled fluid pumps for controlling the speed of supplied fluid.

Said device is further connected to a flexible multiline, in which line said fluid under high and low pressure is supplied to the device.

A second aspect of the present invention produces a system as stated in the independent claim 9, in that the system for effective removal of clay and other sediments on the seabed, in connection with offshore cleaning and/or digging of trenches on said seabed, comprises an underwater module including a number of devices in accordance with the invention, where the devices are arranged next to each other at a distance from each other, collection means arranged to collect sediments released by said one or more devices, as well as devices for spreading sediments that have been collected by the collection means.

Alternative preferred embodiments of the system are characterized by the independent claims 10-16.

Preferably, the collection means may comprise at least one suction pipe arranged adjacent to said device(s), and a pump connected to said pipe, designed to suck up loosened sediments. The suction pipe can be a flexible pipe.

Furthermore, the devices for spreading sediments that have been collected by the collection means can comprise an ejector system. The collection means and the devices for spreading sediments can also be connected to one or more frequency-controlled electric motors for operating associated pumps, as well as valve means for controlling said pumps.

The underwater module may comprise one or more monitoring devices selected from a group comprising video camera, gyro, sonar, echo sounder, MRU, lights, etc. The underwater module may comprise control devices, such as propellers, to control and control the underwater module's position in relation to the seabed. The underwater module's control devices and monitoring devices can also be connected to a status and monitoring system.

A third aspect of the present invention produces a method as stated in independent claim 17, in that the method for effective

removal of clay and other sediments on the seabed, in connection with offshore cleanup and/or digging of trenches on said seabed, the steps include lowering to the seabed an underwater module comprising one or more devices in accordance with the invention, supplying fluid under high pressure and fluid under low pressure to said device(s), where said fluid is supplied respectively to a respective high-pressure nozzle and a low-pressure nozzle, to break up adjacent sediments on the seabed with the help of said fluid under high pressure, and to supply said fluid under low pressure to the same sediments in order to further break up said sediments.

Alternative preferred embodiments of the method are characterized by the independent claims 18-23.

The underwater module is moved step by step along the seabed to carry out the aforementioned cleaning and/or digging of trenches. High-pressure fluid is supplied with an ultra-high pressure preferably above 200 bar, and more preferably above 250 bar, where high-pressure fluid and low-pressure fluid can be supplied alternately, or high-pressure fluid and low-pressure fluid can be supplied simultaneously.

Loose sediments are preferably collected using collection means arranged in or adjacent to the underwater module, and sediments collected by the collection means can be spread over the seabed in an area far from the working area of the underwater module.

The invention will now be described in more detail with reference to the attached drawings, in which: Figure 1 shows a perspective drawing of a device according to the invention.

Figure 2 shows a section of the device shown in Figure 1.

Figure 3 shows a system according to the invention, comprising a number of devices in accordance with Figures 1 and 2. Figures 1 and 2 show a device according to the invention for effective removal of clay and other sediments on the seabed, preferably in connection with offshore related drilling operations. As can be seen from the figures, the present device comprises a preferably compact main body 10 including at least one high-pressure nozzle 12 and at least one low-pressure nozzle 14 arranged for receiving and passing on fluid under high pressure and fluid under low pressure, respectively. The device is consequently arranged to be arranged on the seabed for the supply of said fluid to break up adjacent sediments.

Preferably, the main body 10 comprises a centrally arranged high-pressure nozzle 12 and a surrounding outer low-pressure nozzle 14, but the nozzles can be positioned in other ways than what is shown here. The high-pressure nozzle and the low-pressure nozzle are of common, known types and will therefore not be described in more detail as they are considered known to a person skilled in the art.

In one embodiment, the high-pressure nozzle 12 is designed to supply fluid with sufficiently high pressure so that sediments within a distance of up to 1 m are funneled. In another embodiment, the high-pressure nozzle 12 can be designed to transport sediments also over a distance of over 1m. The low-pressure nozzle 14 is therefore designed to further break up said sediments within the same distances. Fluid is preferred

which is used water, but other fluids can also be used.

As can be seen, the main body 10 can also comprise a hook-shaped part 16 designed to further break up and/or dig away said sediments. The hook-shaped part 16 is preferably arranged to the underside of the main body, and at a suitable distance from said nozzles.

The device(s) according to the invention is preferably connected to one or more frequency-controlled fluid pumps for controlling the speed of supplied fluid, such as for example the fluid pump 22 shown in connection with the system in Figure 3, but if the device according to the invention is to be used alone, i.e. not in connection with the present system, the fluid pump can be arranged in a different way. Furthermore, the main body 10 is connected to a flexible multiline 18, in which line said fluid under high and low pressure is supplied to the device through separate channels 18a and 18b.

Preferably, the ultra-high-pressure nozzle is supplied with such high water pressure that the sediments on the seabed are transported in a range of, for example, approx. 40-60 cm depth from the position where the nozzle is in the sediment. By then adding water at low pressure, these sediments are further broken up. By further combining several such nozzle systems in the same system, one can then effectively dig trenches on the seabed - in sediments > 0.5Mpa.

Basically, high water pressure can be between 250bar-1200ltr/min to 930bar-230ltr/min. Low pressure can be constant at 8.5bar - 13300ltr/min. Nozzles will vary in size according to pressure and water quantity. Normally this concerns a variation of ø1.5mm-4.5mm at high pressure. At low pressure, the nozzle size in a preferred design can be approx. ø77mm inner diameter against ø30mm outer diameter of small nozzle in the center (i.e. the area in the annulus). However, it must be clear that nozzles with other characteristics can be used, and that other pressures and fluid quantities can be used, both above and below what is mentioned here.

As mentioned, the present also includes a system for the effective removal of clay and other sediments on the seabed, in connection with offshore cleaning and/or digging of trenches on said seabed, comprising an underwater module 20 including a number of devices in accordance with what is described above, where the devices are arranged next to each other with a mutual distance. Furthermore, the underwater module 20 comprises collection means 24 designed to collect sediments released by said one or more devices, as well as devices 26 for spreading sediments collected by the collection means 24.

The collection means preferably comprise at least one suction pipe 28 with a suction head, arranged adjacent to said device(s), and a pump connected to said pipe, designed to suck up loosened sediments. The suction pipe 28 is preferably a flexible pipe.

The underwater module 20's devices 24 for spreading sediments collected by the collection means 24 comprise an ejector system, which can consist of, for example, two or more outlets 30 which are arranged transversely to the working direction, and which spread said sediments beyond the seabed for a distance sufficiently far from the underwater module so that said sediments do not come into conflict with the work area. In the embodiment shown, the outlets 30 are shown more or less inside the underwater module, but the outlets can be offset so that they are far in front or to the side of the underwater module.

The collection means 24 and the devices 26 for spreading sediments are preferably connected to one or more frequency-controlled electric motors for operating associated pumps. Pumps and motors are preferably arranged adjacent to the fluid pump referred to as 22, but all pumps and motors can be arranged in other ways than that shown in figure 3, in that the location is not essential for practicing the invention.

To facilitate operation of the underwater module 20, it may comprise one or more monitoring devices selected from a group comprising video camera, gyro, sonar, echo sounder, MRU, light, etc. Furthermore, the underwater module comprises control devices to control and control the underwater module's position in relation to the seabed. The control devices can, for example, comprise a number of propellers 32 which can be placed in various places on the underwater module in order to control its movement in all necessary directions.

The underwater module's control devices and monitoring devices can be connected to a status and monitoring system above the sea surface.

In use, the underwater module 20 is lowered onto the seabed, preferably comprising one or more devices in accordance with the invention, whereupon fluid under high pressure and fluid under low pressure are supplied to said device(s), where said fluid is respectively supplied to a respective high-pressure nozzle and a low-pressure nozzle. Adjacent sediments on the seabed are broken up with the help of said fluid under high pressure, and supply of said fluid under low pressure on the same sediments further breaks up said sediments, at the same time as the underwater module is moved along the seabed to carry out said cleaning and/or digging of trenches.

As mentioned, high-pressure fluid is supplied with an ultra-high pressure, preferably above 200 bar, and more preferably above 250 bar. High-pressure fluid and low-pressure fluid can be supplied alternately, or high-pressure fluid and low-pressure fluid can be supplied simultaneously.

Claims (23)

1. Device for the effective removal of clay and other sediments on the seabed, characterized by comprising a main body (10) with at least one high-pressure nozzle (12) and at least one low-pressure nozzle (14) arranged for receiving and passing on fluid under high pressure and fluid under low pressure respectively , whereby the main body (10) is arranged to be arranged on the seabed for supplying said fluid to break up adjacent sediments. 2. Device in accordance with claim 1, characterized in that the main body (10) comprises a centrally arranged high-pressure nozzle (12) and a surrounding outer low-pressure nozzle (14). 3. Device in accordance with claim 2, characterized in that the high-pressure nozzle (12) is designed to supply fluid with sufficiently high pressure so that sediments within a distance of up to 1m are funneled. 4. Device in accordance with claim 3, characterized in that the low-pressure nozzle (14) is designed to further break up said sediments. 5. Device in accordance with one or more of the preceding claims, characterized in that the fluid used is water. 6. Device in accordance with one or more of the preceding claims, characterized in that the main body (10) comprises a hook-shaped part (16) designed to further break up and/or dig away said sediments. 7. Device in accordance with one or more of the preceding claims, characterized in that said device is connected to one or more frequency-controlled fluid pumps (22) for controlling the speed of supplied fluid. 8. Device in accordance with one or more of the preceding claims, characterized in that said device is connected to a flexible multiline (18), in which line said fluid under high and low pressure is supplied to the device. 9. System for the effective removal of clay and other sediments on the seabed, in connection with offshore cleaning and/or digging of trenches on said seabed, characterized by including an underwater module (20) including a number of devices in accordance with one or more of the requirements 1 -8, where the devices are arranged next to each other at a distance from each other, collection means (24) arranged to collect sediments released by said one or more devices, as well as devices (26) for spreading sediments that have been collected by the collection means (24) . 10. System in accordance with claim 9, characterized in that the collection means (24) comprise at least one suction pipe (28) arranged adjacent to said device(s), and a pump connected to said pipe, designed to suck up loosened sediments. 11. System in accordance with claim 10, characterized in that the suction pipe (28) is a flexible pipe. 12. System in accordance with claim 9, characterized in that the devices (26) for spreading sediments which have been collected by the collection means (24) comprise an ejector system (34). 13. System in accordance with one or more of claims 10-12, characterized in that the collection means (24) and the devices (26) for spreading sediments are connected to one or more frequency-controlled electric motors for operating associated pumps, as well as valve means for controlling mentioned pumps. 14. System in accordance with one or more of claims 9-13, characterized in that the underwater module (20) comprises one or more monitoring devices selected from a group comprising video camera, gyro, sonar, echo sounder, MRU, light, etc. 15. System in accordance with one or more of claims 9-14, characterized in that the underwater module (20) comprises control devices (32), such as propellers, to control and control the underwater module's position in relation to the seabed. 16. System in accordance with one or more of claims 9-15, characterized in that the underwater module's (20) control devices and monitoring devices are connected to a status and monitoring system. 17. Procedure for the effective removal of clay and other sediments on the seabed, in connection with offshore cleanup and/or digging of trenches on said seabed, characterized by: lowering an underwater module (20) comprising one or more devices in accordance with one or more of claims 1-8, to supply fluid under high pressure and fluid under low pressure to said device(s), where said fluid is supplied respectively to a respective high-pressure nozzle (12) and a low-pressure nozzle (14), to break up adjacent sediments on the seabed using said fluid under high pressure, and adding said fluid under low pressure to the same sediments to further break up said sediments. 18. Method in accordance with claim 17, characterized in that the underwater module (20) is moved along the seabed to carry out said cleaning and/or digging of trenches. 19. Method in accordance with claim 18, characterized in that high-pressure fluid is supplied with an ultra-high pressure preferably above 200 bar, and more preferably above 250 bar. 20. Method in accordance with claim 19, characterized in that high-pressure fluid and low-pressure fluid are supplied alternately. 21. Method in accordance with claim 19, characterized in that high-pressure fluid and low-pressure fluid are supplied simultaneously. 22. Method in accordance with claim 20 or 21, characterized in that loosened sediments are collected using collection means (24) arranged in or adjacent to the underwater module (20). 23. Method in accordance with claim 22, characterized in that sediments collected by the collection means (24) are spread beyond the seabed in an area remote from the working area of the underwater module (20).