TAILING DEPOSIT TOOL

Abstract

Disclosed is a deep sea mining method including, providing a deep sea mining system for mining matter from a bottom of a body of water, the mining system including: a slurry line coupled with a pump system to transport the slurry from the bottom of the body of water; and a return line in fluid communication with the slurry line and distinguishable from the slurry riser, for transporting non valuable slurry part to the bottom of the body of water, the return line having a return line outlet proximate the bottom. The deep sea mining method further includes spreading the non valuable slurry part over the bottom of the body of water in a controlled manner.

Description

BACKGROUND

The present invention relates to a deep sea mining method comprising, providing a deep sea mining system for mining matter from a bottom of a body of water.

GB2495287 relates to a riser system for transporting a slurry from a position adjacent to the seabed to a position adjacent to the sea surface. In order to be flexible in production, GB2495287 teaches to provide first and second risers; a slurry pump system to transport slurry up one of the risers; and a waste water pump system to return waste water down one of the risers. The slurry pump system and the waste water pump system are selectively connectable to each of the risers to allow each riser to be either a slurry riser or a waste water riser.

WO 2010/092145 A1 is another example having a riser conduit and a tailings stream. Tailings are just disposed via a disposal pipe, see FIG. 3. During operations, tailings will accumulate and may easily cause problems in that a site of interest is covered.

US2012/234552 A1 relates to a system for harvesting natural gas from a clathrate deposit. A pipe or tube is suggested for distributing the water back into the ocean away from the harvesting location. In addition, it is also suggested to pump the debris through a particulate disposal system for returning the debris to the sea floor at a location that is removed from the clathrate deposit. Still over time, debris will accumulate and may easily cause problems.

WO 2011/072963 A1 relates to a method of converting a methane containing hydrate deposit in the water bottom into a marketable product. FIG. 2 shows a tailing disposal pipe to a site. Again, over time, debris will accumulate and may easily cause problems.

US2009/284068 A1 relates to a method of monitoring and adjusting a flow rate of a slurry in a riser system of a deep sea mining system. It is suggested to discharge waste water at the sea floor level.

In conclusion, where the prior art disposes debris rather than water alone, it is disposed at a fixed location such that over time, debris will accumulate and may easily cause problems.

SUMMARY OF THE INVENTION

The invention aims to provide a more efficient deep sea mining method. Another object of the invention is to improve a known deep sea mining method in that a problem associated therewith is at least partly solved.

Yet another object of the invention is to provide an alternative deep sea mining method.

According to a first aspect of the invention this is realized with a deep sea mining method comprising providing a deep sea mining system for mining matter from a bottom of a body of water, the mining system comprising;

• • a slurry line coupled with a pump system to transport said slurry from the bottom of the body of water, and
  • a return line in fluid communication with the slurry line and distinguishable from the slurry line, for transporting a non valuable slurry part to the bottom of the body of water, the return line having a return line outlet proximate said bottom,the deep sea mining method further comprising spreading the non valuable slurry part over the bottom of the body of water in a controlled manner.

The spreading of the non valuable slurry part over the bottom of the body of water in a controlled manner enables to perform the mining method more efficient in that non valuable slurry part is distributed in a controlled manner which includes that non valuable slurry part does not cover slurry still to be excavated from the bottom of a body of water. The controlled manner assures that non valuable slurry part is distributed over the bottom of a body of water in a predictable manner.

In an embodiment of the mining method, the mining system comprises a unit for processing mined matter, wherein the return line is in fluid communication with the slurry line through the processing unit. Such a processing unit may take the form of a floating object like a vessel, a subsea platform, or a supported platform.

In an embodiment of the mining method, the spreading of the non valuable slurry part over the bottom of the body of water comprises moving the return outlet over the bottom of the body of water, also seafloor, preferably in a desired pattern. The moving of the return outlet over the seafloor intends to distribute the non valuable slurry part over the bottom of a body of water. The moving of the return outlet over the seafloor is preferably predictable e.g. along a desired pattern, however it may involve intended movement caused by sea currents which has an unpredictable component. It will be clear that, in case of the movement caused by sea currents, despite the non predictable movement of the return outlet, over time the non valuable slurry part is distributed in an even manner.

The matter may comprise gashydrates.

According to a further aspect of the invention this is realized with a deep sea mining system for mining matter from a bottom of a body of water, wherein the system comprises,

• • a slurry line coupled with a pump system to transport said slurry from the bottom of the body of water,
  • a return line, in fluid communication with the slurry line and distinguishable from the slurry line, for transporting a non valuable slurry part to the bottom of the body of water and having a return line outlet proximate the seafloor, and
  • a spreading device coupled with the return line outlet for spreading the non valuable slurry part over the bottom of the body of water in a controlled manner.

The spreading device spreads the non valuable slurry part over the bottom of the body of water in a controlled manner and thus enables to mine more efficient in that non valuable slurry part is distributed in controlled manner which includes that non valuable slurry part does not cover slurry still to be excavated from the bottom of a body of water.

In an embodiment, the mining system comprises a unit for processing mined matter, wherein the return line is in fluid communication with the slurry line through the processing unit. The processing unit may subject the slurry to any desired process like segregate the slurry into a desired part and a non valuable slurry part.

In an embodiment of the deep sea mining system, the spreading device comprises a boom member and wherein the return line outlet is coupled with the spreading device through said boom member for moving the outlet relative to the bottom of the body of water.

In an embodiment of the deep sea mining system, the spreading device comprises a vehicle for moving over the bottom of the body of water and coupled with the return line outlet for moving the return outlet over the bottom of the body of water in a desired pattern. The moving of the return outlet over the seafloor intends to distribute the non valuable slurry part over the bottom of a body of water. The moving of the return outlet over the seafloor is predictable.

In an embodiment of the deep sea mining system, the vehicle is remotely controllable. The vehicle is therefore provided with control means to control the vehicle in a manner known per se.

The various aspects discussed in this patent can be combined in order to provide additional advantageous advantages.

DESCRIPTION OF THE DRAWINGS

The invention will be further elucidated referring to preferred embodiments shown in the schematic drawings wherein shown in:

FIG. 1 in side view a mining system according to the invention,

FIG. 2 in side view a further mining system according to the invention;

FIG. 3 in side view an even further mining system according to the invention, and

FIG. 4 in side view of another mining system according to the invention.

DETAILED DESCRIPTION OF EMBODIMENTS

In FIG. 1 a deep sea mining system 1 is shown. The system 1 is suitable for mining matter 2 from a bottom 3 of a body of water 4, typically a seafloor at a depth of between 200 and 3000 meters, more specifically between 400 and 2000 meters.

The deep sea mining system 1 comprises a slurry line 5 for transporting slurry. The slurry contains seawater and excavated matter which is separated from the bottom 3 by an excavation device 13 known per se. The shown excavation device 13 has a cutter arm 11 which arm is provided with a cutting head 12. Here, the cutter arm 11 is hingeably coupled with an excavation device body 10. The slurry line is coupled with a pump system 6 to transport said slurry from the bottom of the body of water.

The deep sea mining system 1 comprises a return line 7. The return line 7 is suitable for transporting slurry, in particular suitable for transporting a non valuable slurry part to the bottom 3 of the body of water 4. The return line 7 is in fluid communication with the slurry line 5. The return line 7 is distinguishable from the slurry line. The return line 7 has a return line outlet 16 as shown proximate to the seafloor 3.

The deep sea mining system 1 comprises a spreading device 14 coupled with the return line outlet 16 for spreading the non valuable slurry part over the bottom 3 of the body of water 4 in a controlled manner. The spreading device 14 here comprising a boom member 15. The return line outlet 16 is coupled with the spreading device 14 through said boom member 15 for moving the outlet 16 relative to the bottom 3 of the body of water 4. The spreading device 14 may take the form of e.g. a crawler having a boom, a Remotely operated vehicle (ROV), which spreads the non valuable slurry part in a pre determined path, or dot pattern.

The pump system 6 is coupled with a vessel 20 via a coupling line 9 for supplying the pump system 6 the required energy and controls. Here, the pump system 6 is supported by a pair of support members 23 which members are placed on the bottom 3 of the body of water 4.

The other embodiments of FIG. 2-4 will be described at least in so far they differ with the embodiment shown in FIG. 1.

In FIG. 2, the deep sea mining system 1 comprises a slurry line 5 for transporting slurry. The slurry line 5 is coupled with the vessel 20. The deep sea mining system 1 comprises a return line 7. The return line 7 is coupled with the vessel 20 as well such that the slurry is transported up to proximate the water surface 8. The return line 7 is in fluid communication with the slurry line 5 via the vessel 20. The mining system 1 comprises a unit (not shown) for processing mined matter, wherein the return line is in fluid communication with the slurry line through the processing unit. Here, the unit is place on the vessel 20.

Here, the spreading device is a vehicle for moving over the seafloor while coupled with the return line outlet 16 for moving the return outlet over the bottom 3 of the body of water 4 in a desired pattern. The spreading device 14 is therefore provided with rolling members 21 suitable for a seafloor.

In FIG. 3 the pump system 6 is a floating system which is able to float in a manner known per se and is kept in place via the coupling line 9 coupled with the vessel 20 at its upper end. Optionally, the spreading device body 17 may be suspended from an auxiliary vessel 21 by a suitable suspension means 22 like a cable.

In FIG. 4 the slurry line 5 is coupled with the vessel 20. The return line 19 is coupled with the vessel 20 as well. The return line 7 is in fluid communication with the slurry line 18 via the vessel 20. The mining system 1 comprises a unit (not shown) for processing mined matter, wherein the return line is in fluid communication with the slurry line through the processing unit. Here, the unit is place on the vessel 20.

The pump system 6 is a floating system which is able to float in a manner known per se and is kept in place via the coupling line 9 coupled with the vessel 20 at its upper end.

Here, the spreading device is floating for moving over the seafloor while coupled with the return line outlet 16 for moving the return outlet over the bottom 3 of the body of water 4 in a desired pattern. The spreading device 14 is therefore provided with rolling members 21 suitable for a seafloor.

In use of the shown mining systems 1 of FIG. 1-4, a non valuable slurry part is spread over the bottom 3 of the body of water in a controlled manner. This is beneficial since it enables to uncover or win useful sediments while covering of these is prevented.

Preferably, the mined matter is processed. This processing may take place on board of the vessel 20 or elsewhere in the body of water 4, like on the bottom 3 of the body of water 4.

It will also be obvious that the above description and drawings are included to illustrate some embodiments of the invention, and not to limit the scope of protection. Starting from this disclosure, many more embodiments will be evident to a skilled person which are within the scope of protection and the essence of this invention and which are obvious combinations of prior art techniques and the disclosure of this patent.

Claims

1-9. (canceled)

10. Deep sea mining method comprising, providing a deep sea mining system (1) for mining matter (2) from a bottom (3) of a body of water (4), the mining system comprising; a slurry line (5) coupled with a pump system (6) to transport said slurry from the bottom of the body of water, anda return line (7) in fluid communication with the slurry line and distinguishable from the slurry line, for transporting a non valuable slurry part to the bottom of the body of water, the return line having a return line outlet (16) proximate said bottom,the deep sea mining method further comprising spreading the non valuable slurry part over the bottom of the body of water in a controlled manner.

11. Deep sea mining method according to claim 10, the mining system comprising a unit (6) for processing mined matter, wherein the return line is in fluid communication with the slurry line through the processing unit.

12. Deep sea mining method according to claim 10, wherein spreading the non valuable slurry part over the bottom of the body of water comprises moving the return outlet over the bottom of the body of water, preferably in a desired pattern.

13. Deep sea mining method according to claim 10, wherein the matter comprises gashydrates.

14. Deep sea mining system (1) for mining matter (2) from a bottom (3) of a body of water (4), the system comprising, a slurry line (5) coupled with a pump system (6) to transport said slurry from the bottom of the body of water,a return line (7), in fluid communication with the slurry line and distinguishable from the slurry line, for transporting a non valuable slurry part to the bottom of the body of water and having a return line outlet (16) proximate the seafloor, anda spreading device (14) coupled with the return line outlet for spreading the non valuable slurry part over the bottom of the body of water in a controlled manner.

15. Deep sea mining system according to claim 13, comprising a unit for processing mined matter, wherein the return line is in fluid communication with the slurry line through the processing unit.

16. Deep sea mining system according to claim 13, the spreading device comprising a boom member (15) and wherein the return line outlet is coupled with the spreading device through said boom member for moving the outlet relative to the bottom of the body of water.

17. Deep sea mining system according to claim 14, the spreading device comprising a vehicle for moving over the bottom of the body of water coupled with the return line outlet for moving the return outlet over the bottom of the body of water in a desired pattern.

18. Deep sea mining system according to claim 17, wherein the vehicle is remotely controllable.