This invention regards a device for separating material from a drilling rig situated on the seabed. More particularly, it regards a drilling rig situated on the seabed, where the drilling rig is sealingly enclosed against the surroundings. The drilling rig is liquid-filled and equipped with a separator arranged to separate material from the liquid in the drilling rig.
It is common knowledge that oil and gas deposits in the earth's crust are recovered by drilling holes down to the deposit, to allow oil and gas deposits to be drained to the surface.
The equipment used to drill holes in the earth's crust primarily comprises a drilling derrick formed as a trussed steel structure. In the drilling derrick there is a wireline based drawworks for hoisting and deploying drill pipes. A great deal of auxiliary equipment is also used to handle drill pipes and to set casing in the borehole.
Floating or fixed platforms provided with the required drilling equipment are utilized to recover oil and gas deposits from great depths. These types of platforms are large and expensive structures, as the drilling equipment is large and heavy. In addition to the actual drilling equipment, marine risers must also be used to circulate drilling mud between the platform and the seabed during the drilling operation. Floating platforms also require heave compensation to accommodate wave motion against the platform relative to the seabed.
As an alternative to drilling from floating drilling platforms, the drilling rig may be arranged directly on the seabed, obviating the need for large and expensive platforms.
Today, the oil industry possesses a great deal of advanced equipment developed for remote-controlled subsea operations. This is technology that is available and may be used during a remote-controlled drilling operation where the drilling equipment is situated directly on the seabed.
Furthermore, it is necessary to meet the relatively strict requirements set by the authorities in connection with environmental pollution and the target of zero discharge to the environment.
Prior art does not provide a solution to these problems in connection with drilling rigs situated on the seabed.
The object of the invention is to remedy or reduce at least one of the drawbacks of prior art.
The object is achieved in accordance with the invention, through the features stated in the description below and in the following claims.
A drilling rig in accordance with the invention is situated on the seabed, the drilling rig being sealingly enclosed against the surroundings, and it is characterized in that the drilling rig is liquid-filled and provided with a separator arranged to separate undesirable material from the liquid.
Preferably the hydrostatic pressure inside the drilling rig is lower than that outside the drilling rig, whereby liquid in the drilling rig is prevented from flowing out to the surroundings of the drilling rig.
The separator is connected to a container for separated material, the container, when filled, may be replaced with a new one and brought up to the surface for further processing of the separated material. The drilling rig may comprise several containers for separated material.
Preferably containers going into and out of the drilling rig are passed through lock arrangements.
Most preferably the separator forms part of a circulation system for the liquid in the drilling rig. The inlet of the circulation system communicates with one of the upper or lower part of the drilling rig, while the outlet of the circulation system communicates with the other of the upper or lower part of the drilling rig.
A circulation system in accordance with the invention comprises a pump and necessary piping and also control system in addition to the separator.
A device according to the invention provides a solution for handling e.g. discharges from drilling operations performed from the submerged drilling rig, as the water contained in the drilling rig is circulated through the separator.
The following describes a non-limiting example of a preferred embodiment illustrated in the accompanying drawings, in which:
In the drawings, reference number 1 denotes an enclosed drilling rig constructed for placement on the seabed 11. The drilling rig comprises an upper section 12 and a lower section 13, a supporting section 14 being located primarily in the lower section 13.
The drilling rig 1 is controlled from a surface vessel 2 on the surface 5 of the sea. A tubing and cable connection 3 extends between the drilling rig 1 and the surface vessel 2, from a cable drum 4 and down to the drilling rig 1.
The drilling rig 1 is provided with suction anchors 8 which provide anchorage to the seabed 11. The suction anchors 8 are connected to the supporting section 14 via sections 20.
At the top of the drilling rig 1 there is provided a lock cover 10 for a drilling unit (not shown) and lock covers 9 for drill pipe cartridges 7. The drill pipe cartridges 7 are inserted into encased silos 21.
The upper section 12 comprises the drilling unit (not shown) with associated drill pipe handling equipment (not shown), together with drill pipe cartridge 7.
The lower section 13 comprises robotized handling systems (not shown) for connecting drill pipes, and also pumping systems (not shown).
A circulation system 6 for liquid in the drilling rig 1 is situated in one of the sections 20.
The entire drilling rig 1 is filled with water at a slight underpressure relative to the surrounding pressure.
From the lower section of the drilling rig 1 the liquid is circulated continuously through the circulation system 6, which comprises conduits 18, 19 with a pump 15 and separator 16.
Separated material 17 is transferred from the separator 16 to a closed container 22 which is arranged to be transported to the surface vessel 2 for emptying.
Number | Date | Country | Kind |
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20061274 | Mar 2006 | NO | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/NO07/00103 | 3/16/2007 | WO | 00 | 1/2/2008 |