DE2932195A1 - Oil well blowout control - by large cylinder sunk in sea-bed around well for oil extraction - Google Patents

Abstract

Blow-outs of oil wells, specially of offshore wells, are sealed off by a large cylinder, open at both ends, and with cutting edges at the bottom. An annular ram is reciprocated to drive the cutting edge in the sea bed. Connections on several levels permit pumps to extract the ejected oil until the pressure is reduced enough to close the top of the cylinder. This is a less risky method than the explosive method. It saves time and money compared with the method of drilling a relief hole for a blow-out.

Description

Method of sealing out of control

pressurized oil wells, particularly when drilling underwater and device for carrying out the method It happens again and again that under Well pressurized underwater and on land out of control, whereby in addition to huge oil losses an extensive environmental pollution in particular takes place under water, because there the escaping oil is quickly spread by currents will.

Such out of control wells are two methods fights, once you try to blast the borehole to spill others are being drilled relief holes to keep the pressure out of control to reduce the recommended borehole and then to seal it.

Both procedures involve great risks. In one case, at If the explosive charge is too low, the borehole may not be buried, on the other hand if the explosive charge is too large, other damage, as is known from earthquakes, occurs, so that this method is not applicable in many areas of the world is. In this case, a new borehole must be drilled in order to use the deposit which costs a lot of time and money. In the second method, there are swaths Not expected by drilling, but since drilling is tedious, tremendous kicking amounts of oil from which an uncontrollable pollution and huge losses cause. There is also the risk that one or two more holes for Pressure relief is not enough, which requires even more time and a lot more money.

The object of the invention is to provide a method and a device, which makes it possible1 relatively easily and relatively quickly to get out of control to bring advised drilling under control, the device also for prevention of such accidents are arranged around the borehole before drilling begins can be.

This task is made by a method of sealing out of control Oil wells that have come under pressure, particularly when drilling underwater solved in that a top and bottom open Xbody concentrically around the outside Check the borehole with the emerging oil jet arranged in the ground is driven and anchored, being at different heights of the body laterally the oil is withdrawn from the interior of the body, while in different Heights is deducted laterally until the central upper opening of the body can be closed is and no oil escapes in an uncontrolled manner, and finally the pressure of the escaping oil has been lowered to such an extent that the B6Erlwh can be safely mixed up.

According to the invention, there is an apparatus for carrying out the method in that the body is a pipe several times the diameter of the borehole, is sharpened in the lower part, closable trigger sockets distributed over its height as well as centering and anchoring devices.

Further advantageous refinements of the invention are set out in the subclaims described.

The invention is based on an exemplary embodiment below Reference to a drawing, the schematic representation of an inventive Device for use under water shows, explained in more detail.

The device consists of a continuous top and bottom open Tube 1. The tube has a diameter that is considerably - about 3 to 10 times larger than that the runaway borehole 2, from which an oil flow A exits under pressure. The tube 1 can be in one piece, continuously circular or elliptical from a band be welded together or composed of individual pipe segments, which also welded together or connected to one another by means of flange and screw connections are. The individual segments can also be semicircular and semicircular or other arcuate parts can be assembled.

At the lower end, the tube 1 is pointed and consists of a Federation 3. The collar 3 thus has a wedge-shaped cross section. On the pipe body Above the collar 3, a ram ring 4 is movably arranged, for example is hydraulically driven and hits the upper edge 5 of the collar 3, and thereby the tube 1 placed on the ground .6 with its pointed end drives into the ground 5.

At the upper end of the tube 1, a collar 7 can be provided on which a cover (not shown) which closes the tube 1 at the top can be attached can. Further collars 8 can be connected to the tube 1 at any desired height. Preferably contain the bands 3, 7, 8 continuous discharge nozzle 9, the cover or can be closed by means of valves 10.

Each discharge nozzle 9 is optionally also more rigid by means of flexible ones Pipelines 11 connected to suction pumps (not shown) and large-capacity tanks. The discharge nozzle 9 of each level can have separate discharges or they can be connected to one another by an annular channel 12. Here the wall of the pipe 'to the channel 12 have holes 13. The collar 8 and the tube 1 thus form a double wall.

The nozzles 9 of several levels can also be connected to one another.

When the tubular body is not built around the borehole. will, but z. B. must first be completed and transported in underwater drilling, he can upper floodable floating tank 14 and lower floodable floating tank 15 exhibit. The lower Floating tanks 15 are preferably in Arranged at a distance from the pipe 1 and connected to it by means of a plurality of supports 16.

In the exemplary embodiment, the supports 16 are with the collars 3 and 8 firmly connected and serve as pipelines 11. The Floating tanks 14 are flooded or removed and the floating tanks 15 can also flooded and then with another dietary fiber z. B.

Cement to be filled.

The tube 1 also has eyelets 17 with which it can be, for. B. in swimming transport centered over the borehole 2 by means of ropes and winches from transport ships and is also lowered centered. There can also be guides or winches on the seabed to be ordered.

The invention works according to the following principle: Around the emergency borehole 2, the pipe 1 with a multiple diameter of the borehole 2 is arranged. When drilling on land one will assemble the pipe 1 from split segments in place while man

When drilling underwater, it is assembled beforehand and transported to the borehole. It is centered next to the exiting beam and then means through the beam the winches led in the fiöhe pulled. This beam passage takes place in one Distance from the drilling outlet, hole / where the pressure is reduced so far that the pipe can be held in its vertical position when passing through the beam. The length and the diameter of the pipe 1 depend on the pressure of the exiting Oil jet. If the circumstances a passing through the beam do not allow, the pipe must be cut lengthways so that the parts of at least two sides in calm water below the water surface to the jet brought up and then connected to each other. After lowering the pipe by flooding the floating tanks 14, 15 and possibly additional ballast the ram ring 4 is put into operation, which drives the pipe 1 into the ground, where it by means of the supports 16 and the float tanks 15 and 15 filled with fiber other anchors hooked into the eyelets 17 are attached.

At the same time, the suction nozzle 9 is located inside the pipe the oil is sucked off by means of pumps. Elierdurch is over the length of the pipe Pressure reduced so far that the tube can be closed at the top, so that no oil can escape uncontrolled. The suction continues until the pressure has subsided or is weakened by a neighboring hole.

The invention has the advantage that the bore under relatively quickly Control brought and the escaping oil can be collected. If in particular in the case of underwater drilling, a pipe according to the invention around the borehole before the start of the river is anchored, the drilling can be brought under control in such a short time, that there is no major environmental damage. Since the oil is not lost either the additional costs are negligible even from a purely economic point of view.

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Claims (10)

Patent address 1. Method of sealing out of control oil wells under pressure, particularly in subsea wells, d a d u r c h g e k e n n n z e i c h n e t that a body that is open at the top and bottom is concentric arranged around the out of control borehole with the escaping oil jet, is driven into the ground and anchored, with the Body, the oil is drawn off laterally from the interior of the body, for as long as it takes is withdrawn laterally at different heights until the zentraie upper opening of the body can be closed and no oil escapes uncontrollably and finally the The pressure of the escaping oil has been reduced to such an extent that it can be closed without danger of the borehole is possible. 2. Apparatus for performing the method according to claim thereby characterized in that the body is a tube (1) with a multiple diameter of the Drill hole (2) is sharpened in the lower part is closable distributed over its height A.5 contains pulling studs (9) as well as centering and anchoring devices. 3. Apparatus for performing the method according to claim 2 thereby characterized in that the tube (1) is composed of one-part or multi-part segments is. 4. Votrichtung for performing the method according to claim 2 or 3 characterized in that the tube (1) is detachably connected to it in the upper part having floodable floating tank (14). 5. Device for performing the method according to one of the claims 2 to 4, characterized in that the tube (1) in the lower part with floodable floating tanks (15) is connected. 6. Device for performing the method according to one of the claims 2 to 5, characterized in that the tube (1) has at least three rigidly connected to it Has frets (3,7,8), one in the lower part and a second on the upper edge of the tube (1) are arranged. 7. Device for performing the method according to one of the claims 2-6 characterized in that a ram ring (4) is attached to the tube (1). 5. Device for performing the method according to one of the claims 2-7 characterized in that the tube (1) is at least partially double-walled iStr where then the inner wall Has holes (13). 9. Device for performing the method according to one of the claims 2-8 characterized in that the tube (1) is provided with lateral supports (16) is. 10. Apparatus for performing the method according to claim 9 thereby characterized in that the lateral supports (16) are at the same time drainage pipes (11) and are guided through the lower floodable floating tank (15).