Claims
- 1. A multi-gage blowout preventer test tool for testing different size ram and annular subsea blowout preventers in one trip, comprising:
- an inner tube assembly;
- a lower connecting member at a lower end of said inner tube assembly for connecting said inner tube assembly to a wellheadhead sealing tool;
- an outer test tube assembly surrounding said inner tube assembly and having a plurality of longitudinally spaced pipe gage diameters formed on an exterior surface thereof corresponding in size to outside diameters of different drill pipe diameters;
- releasable and connectable coupling means at a lower end of said outer test tube assembly for selective connection to said lower connecting member to allow axial telescoping movement of said outer test tube assembly relative thereto and to said inner tube assembly in a released condition, and to prevent relative movement relative thereto in a connected condition;
- an upper connecting member at an upper end of said outer test tube assembly for connecting said test tube assembly to a drill pipe string and moving said outer test tube axially;
- in said connected condition, a first set of said longitudinally spaced pipe gage diameters of said outer test tube assembly being positioned within said blowout preventers for testing said blowout preventers against said first set of pipe gage diameters; and
- in said released condition, a second set of said longitudinally spaced pipe gage diameters of said outer test tube assembly being positioned within said blowout preventers for testing said blowout preventers against said second set of pipe gage diameters.
- 2. The multi-gage blowout preventer test tool according to claim 1, wherein
- said upper connecting member has an upper central bore in communication with the interior of said drill pipe string and an elongate tubular sealing assembly below said upper central bore with a depending lower portion slidably and sealingly received in an upper portion of said inner tube assembly, said sealing assembly having a central bore in communication with said upper central bore and a shut-off receiving and seating surface at an upper end thereof for receiving a shut-off member, and fluid flow bypass passageways isolated from said shut-off receiving and sealing surfaces and said depending lower portion;
- said inner tube assembly has a central bore in communication with said sealing assembly central bore;
- said lower connecting member has a central bore in communication with said inner tube assembly central bore and with a central bore of said wellheadhead sealing tool;
- said outer test tube assembly and said inner tube assembly has fluid flow passageways therebetween isolated from said inner tube assembly central bore, and said outer test tube assembly has a port at a lower end above said coupling means extending radially between its interior and exterior;
- said coupling means at a lower end of said outer test tube assembly has a central bore; and
- upon a shut-off member being received and seated in said shut-off receiving and seating surface at said upper end of sealing assembly, drilling fluids conducted from said drill pipe string pass through said upper central bore, through said sealing assembly bypass passageways, through said fluid flow passageways between said inner tube assembly and said outer test tube assembly, and through said port at the lower end of said outer test tube assembly; whereby fluids may be circulated through said tool during testing operations.
- 3. The multi-gage blowout preventer test tool according to claim 2, wherein
- said upper connecting member and sealing assembly have axially aligned ports extending radially from said sealing member central bore to the exterior of said upper connecting member; whereby
- fluid and pressure is conducted through said wellheadhead sealing tool central bore, said lower connecting member central bore, said inner tube assembly central bore, said sealing assembly central bore, and through said axially aligned ports extending radially from said sealing member central bore to the exterior of said upper connecting member.
- 4. The multi-gage blowout preventer test tool according to claim 2, wherein
- said elongate tubular sealing assembly depending lower portion has a plurality of circumferential longitudinally spaced seal elements; and
- said inner tube assembly has a receptacle at an upper end with a central polished bore for receiving said seal elements; whereby
- said depending lower portion is maintained in sealing relation with said inner tube assembly when said outer test tube assembly is in said connected condition and in said released condition.
- 5. The multi-gage blowout preventer test tool according to claim 2, further comprising
- a shut-off member removably received in said shut-off receiving and seating surface at said upper end of said sealing assembly.
- 6. The multi-gage blowout preventer test tool according to claim 5, wherein
- said shut-off member is a wireline retrievable dart having sealing surfaces at an upper end engageable in sealing relation on said shut-off receiving and seating surface at said upper end of said sealing assembly.
- 7. The multi-gage blowout preventer test tool according to claim 6, wherein
- said dart has an enlarged surface area at an upper end beneath said upper connecting member upper central bore whereby said dart is maintained engaged in sealing relation in said shutoff receiving and seating surface at said upper end of sealing assembly by drilling fluids and pressure conducted through said upper central bore.
- 8. The multi-gage blowout preventer test tool according to claim 1, further comprising
- positioning means connected with said outer test tube assembly for positioning said second set of said longitudinally spaced pipe gage diameters of said outer test tube assembly within said blowout preventers when said outer test tube assembly is in said released condition.
- 9. A method for testing different size ram and annular subsea blowout preventers in one trip in a subsea wellhead, comprising the steps of:
- providing a multi-gage blowout preventer test tool having an inner tube assembly, a lower connecting member at a lower end of said inner tube assembly for connecting said inner tube assembly to a wellhead sealing tool, an outer test tube assembly surrounding said inner tube assembly and having a plurality of longitudinally spaced pipe gage diameters formed on an exterior surface thereof corresponding in size to outside diameters of different drill pipe diameters, releasable and connectable coupling means at a lower end of said outer test tube assembly for selective connection to said lower connecting member, and an upper connecting member at an upper end of said outer test tube assembly for connecting said test tube assembly to a drill pipe string;
- connecting said upper connecting member to a drill pipe string;
- connecting said lower connecting member to said releasable and connectable coupling means;
- connecting said lower connecting member to said wellhead sealing tool;
- lowering said multi-gage blowout test tool and said wellhead sealing tool through said subsea blowout preventers to set said wellhead sealing tool in said subsea wellhead;
- testing said blowout preventers against a first set of said longitudinally spaced pipe gage diameters with said outer test tube assembly positioned within said blowout preventers and said releasable and connectable coupling means in a connected condition;
- uncoupling said releasable and connectable coupling means from said lower connecting member;
- raising said outer test tube assembly to position a second set of said longitudinally spaced pipe gage diameters of said outer test tube assembly within said blowout preventers; and
- testing said blowout preventers against said second set of pipe gage diameters.
- 10. The method according to claim 9, including the step of
- conducting drilling fluids through said multi-gage blowout preventer test tool during said testing of said blowout preventers.
Parent Case Info
This application claims benefit of Provisional Appl. Ser. No. 60/045,776 filed May 5, 1997.
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
4347733 |
Crain |
Sep 1982 |
|
4554976 |
Hynes et al. |
Nov 1985 |
|
4881598 |
Stockinger et al. |
Nov 1989 |
|