The present invention relates to drilling for and production of hydrocarbons from subsea located wells. More specifically, the invention relates to drilling through existing production wells without retrieving existing production tubing. The invention provides a bore protector for a tubing hanger, for use whilst undertaking through tubing rotary drilling (TTRD).
Some subsea production trees (Xmas tree), such as horizontal production trees, have a vertical bore into which operations such as wireline operations and further drilling can be undertaken. A recent technology is called through tubing rotary drilling (TTRD), for which further drilling is undertaken in an existing production well without retrieving the existing production tubing. TTRD provides significant savings, making old wells viable for further production. However, the tubing hanger comprises sealing surfaces for plugs that are inserted and activated in order to close the tubing hanger bore sealingly during production, and said sealing surfaces are vulnerable to damage during drilling operations. Said seals are metal to metal seals, and they are critical in order to avoid leakage of hydrocarbons to the environment during production.
So far no acceptable technology exists providing protection of the tubing hanger sealing surfaces, whilst providing easy testing and maintenance.
Some general bore protectors exist for use at other locations, but they are not possible to modify to function as tubing hanger bore protectors because of much larger and simpler geometry and far less demanding or very different functional requirements. Examples on existing general bore protectors are found in patent publications WO 2006103477, relating to a downhole bore protector, and U.S. Pat. No. 6,003,602A, relating to a bore protector of about 18,75″ for conventional drilling and completion. However, more relevant bore protectors are described in the patent publications US 2004/0200614 A1/U.S. Pat. Nos. 6,966,381 and 3,231,93 B1. But the solution of US 2004/0200614 A1 requires a test sleeve and do not provide sufficient protection of the vulnerable seal surfaces, and the solution of U.S. Pat. No. 3,231,93 requires a transition pipe, all of the sealing surfaces may not be protected, testing is not convenient, neither is it adapted for hanging up of a drill string.
A demand exists for a bore protector for protecting a tubing hanger bore in a production Xmas tree, and the objective of the present invention is to provide a bore protector having the required functionality.
The invention provides a bore protector for a tubing hanger, the bore protector is to be arranged in a tubing hanger in a spool in a subsea production Xmas tree for through tubing rotary drilling (TTRD) in an existing production well. The bore protector is distinctive in that it comprises
Preferably, the wear sleeve comprises a shoulder at or near an upper end, the shoulder is arranged on a below positioned seat of a main part of the bore protector, in which position the wear sleeve is releasably fastened.
The wear sleeve is preferably releasably fastened with bolts to a below positioned seat of a main part or main body of the bore protector, for facilitating replacement of the wear sleeve. Alternatively, the releasable fastening is by other feasible mechanisms and arrangements, for example an above the wear sleeve positioned split lock ring or bolts arranged in a radial outward direction instead of a downward direction from the wear sleeve to the main part or body.
The bore protector is a sleeve-like construction with outside geometry small enough to fit inside the spool bore or tubing hanger and an inside bore large enough to allow preparations for and performance of TTRD down through the bore protector whilst protecting the tubing hanger sealing surfaces. Said dimensional limitations are intended to be implicit by the preamble of claim 1.
The bore protector preferably is a sleeve assembly with outer geometry small enough to be installed with a BOP (Blow Out Preventer) connected to the Xmas tree, which means that installation is down through a riser and down through the subsea BOP. The releasable fastening is preferably to the spool bore, but it can be to the tubing hanger or to both the spool bore and tubing hanger. Preferably the bore protector has geometry for hanging up the weight of the bore protector on the tubing hanger, after which the releasable locking is effected. The locking is preferably to the Xmas tree inner bore surface, but alternatively or in addition locking can be to the tubing hanger. Preferably, the locking means comprises means for both axial and rotational locking, such as a split lock ring that is expandable for locking to the spool bore and radial anti-rotation locking keys or similar. The locking means preferably comprises tensioning or pre-tensioning elements, such as springs. The locking means are preferably operated by axial and/or radial and/or rotational movement of the bore protector or elements of the bore protector.
Preferably the bore protector comprises a seat or a shoulder or similar for hanging up the drill string, which is a big advantage with respect to safety when drilling, as a drilling emergency disconnection for example due to severe weather becomes much faster. The geometry of such seat is adapted to match the geometry of a hang up device that is attached to the drill string.
The bore protector preferably comprises means for facilitating pressure testing, preferably comprising seal elements and/or seats functioning to reduce the volume required to pressurise for said pressure testing. Several connections or seals require testing, such as the seal in the connection between the Xmas tree and the BOP and seals of the BOP stack.
Preferably, the geometry and dimension of the outer structure of the bore protector is adapted to standard Xmas tree geometry and dimension. Preferably the lower part of the wear sleeve is adapted to the individual tubing hanger geometry and dimension as well as the drilling and downhole equipment. Accordingly, most of the bore protector parts can be standardized whilst the easily replaceable wear sleeve can be the only part that must be adapted to the tubing hanger of the individual well.
Preferably the wear sleeve comprises a wear indicator. The wear indicator can be a sensor or an ultrasound or electromagnetic based wear sleeve thickness measurement transmitter or it can be a visible indication easily readable by wireline operations or it can be based on embedded optical fibers.
The invention also provides use of a bore protector according to the invention, for protecting the tubing hanger sealing surfaces for the tubing hanger plugs when performing through tubing rotary drilling.
The invention is illustrated with four figures, of which:
Reference is made to
Reference is also made to
The bore protector of the invention can comprise features as described or illustrated here in any operative combination, which combinations are embodiments of the invention.
Number | Date | Country | Kind |
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20110038 | Jan 2011 | NO | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/NO2012/000002 | 1/11/2012 | WO | 00 | 10/23/2013 |
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---|---|---|---|
WO2012/096581 | 7/19/2012 | WO | A |
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Number | Date | Country | |
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20140034328 A1 | Feb 2014 | US |