SE541671C2 - Method of covering a wreck on a bottom surface - Google Patents

Abstract

Described herein is a method of covering an object (1) on a bottom surface (3) of a bottom in a water area by means of bottom sediment from the bottom, the method comprising providing a pit (5) in the bottom by suspending the bottom sediment with water from the water area. The pit (5) allows the bottom sediment below and / or around the object (1) to be moved down into the pit (5), a distance (d) between at least one point (p) on the surface of the object and the bottom surface (3) changing when the bottom sediment has been moved down in the pit (5). While and after the bottom sediment below and / or around the object (1) has been moved down into the pit (5), the object (1) is covered with at least the suspended bottom sediment. Also described herein is a device (9) adapted to provide a pit (5) in a bottom in a water area.

Description

METHOD OF COVERING A WREAK ON A BOTTOM SURFACE TECHNICAL FIELD The present invention relates to underwater applications and in particular to the handling of objects at the bottom of a body of water.

TECHNICAL BACKGROUND In the sea around the world and also in lakes, there are very many wrecks such as shipwrecks mainly from the Second World War. These wrecks often contain environmentally hazardous substances that can be released and eventually spread into the surrounding water as corrosion processes break the wrecks.

The document EP1675768B1 describes an example of a method for handling environmentally hazardous substances in a wreck. More specifically, EP1675768B1 describes a method and system for collecting oil from a wreck by placing a covering device at the wreck. The collected oil is pumped up for further transport.

Despite known solutions in the field, there is a need for an efficient method and an efficient device adapted for handling, for example, wrecks on a bottom surface in order to at least reduce risks of environmental consequences that can be caused by the wreck's degradation while resting on the bottom surface.

SUMMARY OF THE INVENTION An object of the present invention is to provide an environmentally effective method for handling an object on a bottom surface of the bottom in a water area and to provide an effective method for covering the upper object by means of bottom sediment from a pit in the bottom.

This object is achieved by a method comprising providing a pit at the bottom of a water area by suspending the bottom sediment with water from the water area. Thus, the bottom sediment is mixed with water from the water area during the time when the pit is created. In other words, suspension or mixing of the bottom sediment with water is created at the same time as the pit is created.

The pit is created so that it allows the bottom sediment below and / or around the object to be moved down into the pit. The pit is thus created at such a distance from the object and with such a depth that the bottom sediment below and / or around the object collapses and is moved down into the pit. In other words, conditions are created for a landslide by digging the pit.

Furthermore, when the bottom sediment has been moved down into the pit, a distance between at least one point on the surface of the object and the bottom surface changes. Thus, the object sinks down in relation to the surrounding bottom surface when a landslide has been caused, ie. in relation to the original bottom surface before the landslide and also in relation to the surrounding bottom surface which is not affected by the landslide.

According to the method, the object is covered with at least the suspended bottom sediment while and after the bottom sediment below and / or around the object has been moved down into the pit. The suspended bottom sediment, but also the bottom sediment drawn with the water currents or otherwise mixed with the water, covers the object simultaneously and after the bottom sediment below and / or around the object has been moved down into the pit. This creates a landslide that causes the object to sink. Furthermore, the object is covered with at least the suspended bottom sediment. As a result, the object is encapsulated in the bottom sediment. In other words, the object is dug into the bottom sediment.

Since the object has been buried in the bottom sediment, the degradation processes, such as corrosion, of the object can be stopped or at least reduced, which reduces the risks of environmental consequences that can be caused by the decomposition of the wreck. Furthermore, thanks to a layer of bottom sediment that has covered the object, the risk of unwanted substances from the object coming out and spreading in the water is also reduced.

Thus, an effective method is provided for covering an object on a bottom surface of a bottom in a water area by means of bottom sediments from the bottom. Thus, the above purpose is achieved.

The method may comprise providing a criminal instruction in connection with the object. By fracture indication is meant an elongate pit, hole or channel which is dug in the bottom sediment on substantially opposite side of the object in relation to the pit described above to produce a landslide. With a fracture indication, said movement of the bottom sediment down into the pit is facilitated when the bottom sediment releases during the fracture indication. Furthermore, a controlled landslide can be achieved with a break instruction.

Crime instruction can have the shape of an arch, ie. which can mainly extend along a hook line. The fracture instruction may, for example, be in the form of a semicircle. Thus, one can at least partially enclose the object to facilitate said landslide and to achieve a better control the transfer of the bottom sediment down into the pit.

The method may further comprise determining the nature and depth conditions of the bottom sediment. Thus, for example, the type of soil mass that constitutes bottom sediment can be determined. Likewise, the depth of the bottom sediment before the said pit is achieved can be determined. In this way, better control over the step of making the pit can be obtained.

Alternatively, the pit can be provided by directing a jet of pressurized water towards said bottom. Thus, the bottom sediment can be effectively mixed with water while the pit is created.

The object can be a wreck such as a boat wreck or an airplane wreck.

The method may include monitoring the movement of the bottom sediment down into the pit. With a monitoring of the movement of the bottom sediment down into the pit, some risks in connection with the implementation of the method can at least be reduced.

Another object of the present invention is to provide an environmentally effective device for handling an object on a bottom surface of the bottom in a water area and to provide an effective device for covering the upper object by means of bottom sediment from a pit in the bottom.

This object is achieved according to another aspect of the present invention by means of a device adapted to provide a pit on a bottom in a water area, the device comprising: at least one nozzle connected to a pump arranged to pump water through the at least one nozzle to create a jet of pressurized water and a platform arranged to position the at least one nozzle against said bottom.

Thus, the nozzle can be positioned correctly towards the bottom by means of the platform and furthermore a pit in the bottom can be provided by means of the jet.

Thus, the above object is achieved.

The platform may comprise a monitoring device. Thus, an improved device adapted to provide a pit in a bottom in a water area can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS Further objects and advantages and features of the invention will become apparent from the following description of one or more embodiments given with reference to the accompanying drawings, in which: Fig. 1 illustrates an object on a bottom, Fig. 2 illustrates the object of Fig. 1 and a pit on the bottom, Fig. 3 illustrates a landslide caused by the pit in Fig. 2, Fig. 4 illustrates the object of Figs. 1-3 covered by bottom sediment and Fig. 5 illustrates a device for making the pit in Fig. 2.

DESCRIPTION OF PREFERRED EMBODIMENTS The present invention is described in more detail below with reference to the accompanying drawings, in which exemplary embodiments are shown. The invention should not be construed as limited to the described embodiments. Equal features have the same reference numerals throughout the description below.

Fig. 1 illustrates an object 1 on the bottom 2 of a water area, such as an ocean. According to Fig. 1, a device 9 has been positioned on a bottom surface 3 on the bottom 2. The device 9 is described in more detail in connection with Fig. 5. The device 9 can be connected to a boat 4.

The object 1 can be a wreck. Because the wreck, which can for example be a shipwreck, lies on the seabed, it has to some extent been stabilized there, ie. it has stabilized in the bottom sediment. With a constructed and controlled landslide of the desired surface, you can make the shipwreck slide on its bottom bed without much strain, down into a predetermined flushed pit, and covered by the loose water-saturated sludge from the pit. The sludge can also be called dredged material. Among other things, the suspended bottom sediment will eventually stabilize, like all other dredged material, and insulate the wreck from, for example, oxygen. Thus, the corrosion processes can at least be reduced.

Fig. 2 illustrates that a pit 5 has been provided by means of the device 9 in the vicinity of the object 1. As illustrated in Fig. 2, a rupture instruction 7 has also been dug or washed on the other side of the object 1 in relation to the pit 5. The rupture instruction which also can be called a gutter can be provided by means of the device 9. As illustrated in Fig. 2 a suspension is provided, i.e. a mixture of the bottom sediment and water while the pit is being created by means of the device 9.

Knowing the nature of the bottom sediment means that you know something about the properties of the seabed, i.e. the "soil mass" in the relevant landslide area. The sediment may consist of sand, clay, mud or the like. In order to be able to plan how much and how deep to flush to achieve the pit, it can be an advantage to know the nature of the bottom sediment.

The fracture instruction can have a form of gutter that can be flushed around the wreck in the form of an upside-down U, with start and end where the sediment pit is planned, ie in the opening on the U. The advantage of this shape is that friction against the avalanche sides is eliminated and that the avalanche is cut out like a cake. The depth of this channel i.e. on the breaking instruction 7, behind the wreck, in the arch itself can be about 10 meters. And both straight stretches on the U.et, a sloping bottom of the gutters is flushed down to the planned depth of the pit, which is approximately 40 meters. The slope can be about 30 - 40 degrees. The size of the washed-up sediment pit can be 1/2 times the length of the shipwreck. An estimated size of an example wreck (Liberty vessel) is L (length) 130 m, B (wide) 17 m and Displacement 14,250 tons.

Fig. 3 shows that a landslide has been caused by means of the pit in Fig. 2 and due to forces on the sediment mass under and around the object caused by, among other things, the weight of the object but also the weight of the sediment mass.

As shown in Fig. 3, the bottom sediment below and / or around the object 1 has been moved down into the pit 5. Thus, an opening in the bottom which is defined by the outer edges of the pit 5 and by the fracture indication 7 has been provided. The object has sunk and a distance d between at least one point p on the surface of the object and the bottom surface 3 has increased. When the object begins to slide down, the nozzles of the device 9 are hoisted up.

Fig. 4 illustrates that the object 1 in Figs. 1-3 has been covered by the bottom sediment after a time when conditions around the object have stabilized. The object has been covered by the bottom sediment from the pit 5. Over time, the object 1 can also be covered by bottom sediment inflowing with sea currents.

The layer of bottom sediment the object is covered may, for example, be 1 m or more when an encapsulation of the object is provided to at least reduce the corrosion processes of the object.

Fig. 5 illustrates a device 9 for providing the pit 5 in Fig. 2.

The device 9 comprises: at least one nozzle 11 connected to a pump 13 arranged to pump water through the at least one nozzle 11 to create a jet of pressurized water and a platform 15. A monitoring device 17 such as, for example, sonar or camera or sonar can be placed at the platform 15.

The device 9 may comprise a plurality of nozzles 11. The nozzles 11 may be self-digging nozzles with outlet channels angled upwards.

Transponders can be used to orient a wreck and to check the position of the wreck. With these you can see how deep the wreck was buried and exact positioning for future interests.

The device 9 may have measured approximately 60 x 25 meters and may comprise two or more pieces of pontoons for surface water position, which are filled with air during transport (towing). Furthermore, the device 9 may comprise a balance pontoon. The pontoon can be designed to withstand all existing working depths. Electronics and control units can also be included in the device. Trusters, for example four electric motors for maneuvering the device 9 up and down and laterally can also be included in the device 9. Two of these can also be used in surface water mode for maneuvering. A certain number of pumps connected to encapsulated electric motors and hydraulic winches with swivel-connected flushing hoses can be used. Flushing nozzles can be designed as self-pulling down to the bottom through back jets as well as a control valve for flushing side position for best mixing, water clay can be used. Four beams on each maneuver and one beam forward can be arranged as an example.

The control valve can be a hydraulic cylinder that is pressurized with high-pressure water from one or more hoses.

On the boat, electricity generators and a cable drum can be arranged and connected to the device 9. The device 9 can comprise a guillotine for cutting hoses if the device gets stuck in the sediment.

Claims (6)

A method of covering a wreck (1) on a bottom surface (3) of a bottom in a water area by means of bottom sediment from said bottom, the method comprises: mixing the bottom sediment with water from the water area to create a pit (5 ) in said bottom, the pit (5) allowing a landslide of the bottom sediment below and / or around the wreck (1) to be caused which causes the bottom sediment below and / or around the wreck to be moved down into the pit (5), a distance (d) between at least one point (p) on the surface of the wreck and said bottom surface (3) changes when the bottom sediment below and / or around the wreck has been moved down into the pit (5), while and after the bottom sediment below and / or around the wreck (1) has moved down into the pit (5), cover the wreck (1) with at least the mixed bottom sediment. The method according to claim 1, wherein the method comprises providing a fracture indication (7) in the bottom sediment adjacent to the wreck and on substantially opposite side of the wreck relative to the pit (1). The method of claim 2, wherein said fracture indication (7) is in the form of an arc. The method according to any of the preceding claims comprising determining the nature and depth conditions of the bottom sediment. The method according to any of the preceding claims, wherein the pit (5) is provided by directing a jet of pressurized water towards said bottom. The method according to any of the preceding claims, comprising monitoring the movement of the bottom sediment and the wreck down into the pit (5) by using a monitoring device.