High Pressure Wireline Top-Entry Packoff Apparatus and Method
A high-pressure packoff apparatus and method are disclosed. The packoff allows wireline entering a top drive drilling head through a top entry access system to be isolated in such a fashion to minimize the leakage and escape of drillstring fluids to the atmosphere. Optionally, an extension housing containing a flow tube assembly can be employed to accomplish the task. The flow tube assembly effectuates a pressure drop along the wireline conduit run therethrough, thus minimizing the likelihood of fluid escaping.
The present invention claims the benefit of U.S. Provisional Application Ser. No. 60/481,659 filed Nov. 18, 2003 by Vernon Kauffman and Dwight LeBlanc, entitled “High Pressure Wireline Top-Entry Packoff Apparatus and Method,” hereby incorporated by reference herein.
BACKGROUND OF THE INVENTIONThe present invention relates to an apparatus for use on a drilling rig; specifically to a high-pressure wireline packoff seal apparatus for use on top-drive drilling rigs and the methods of using the same.
The majority of large oil well drilling rigs operating throughout the world now use top-drive units to speed the assembly of drill string and to permit rapid, almost continuous, drilling. Wireline operations required on deep wells using these expensive rigs can be a severe bottleneck if they cannot be carried out with the expediency and efficiency sought by all drilling contractors. To remedy the problem of inserting a wireline through a top-drive unit, a top-entry apparatus providing a safe and effective means of inserting and manipulating a wireline in a top-drive unit has been developed. Top entry systems offer oilfield companies the opportunity to perform certain types of wireline operations under elevated drilistring bore and annulus pressures. Such wireline operations include, but are not limited to, pipe recovery, backoff, formation evaluation, and directional drilling operations. Because of the various requirements and measurements recorded during some of these wireline operations, it is often necessary to maintain this elevated pressure before, during, and after their commencement.
There presently exists an important and long-felt need for a hydraulic packoff system and method with a top drive, top entry, wireline operations scheme that will allow operations to continue without reducing drilistring pressures. In order to accomplish this, a high quality seal mechanism is desired. Such a seal would enable the wireline to communicate with the drillstring bore while allowing the escape or leakage of only minimal amounts of bore fluids. The various embodiments of the present invention all address this particular need.
BRIEF SUMMARY OF THE INVENTIONThe deficiencies of the prior art are addressed by a top entry access system including a hydraulic packoff to allow a conduit into a bore of a drillstring. The hydraulic packoff preferably includes a main body wherein the main body preferably has a lower connection, a seal bore, an upper connection, and a mounting surface. The lower connection is preferably configured to attach to an inlet of the drilistring and the seal bore is preferably configured to receive a gland assembly. Preferably, the seal gland assembly is configured to allow the conduit to communicate with the bore of the drillstring without releasing drilling fluids therefrom. Preferably, the mounting surface of the main body is configured to receive and secure the top entry access system thereupon.
The deficiencies are also addressed by a hydraulic packoff for a top drilling assembly wherein the packoff includes a main body having a lower connection, a seal bore, and a roller assembly. Preferably the seal bore is configured to receive a seal gland assembly with the seal gland configured to allow a conduit to communicate with a bore of a drillstring without releasing drilling fluids therefrom. Preferably, the roller assembly is positioned above and configured to guide the conduit into the gland assembly.
The deficiencies can also be addressed by a hydraulic packoff for a top drilling assembly wherein the packoff includes a main body having a lower connection, a seal bore, and a retaining nut. Preferably the seal bore is configured to receive a seal gland assembly with the seal gland configured to allow a conduit to communicate with a bore of a drillstring without releasing drilling fluids therefrom. Preferably, the retaining nut is configured to compress the gland assembly.
The deficiencies are further addressed by a method for entering a conduit into a drillstring driven by a top drive assembly wherein the method preferably comprises connecting a hydraulic packoff and an extension housing to a drillstring inlet above the top drive assembly. Preferably, the method also includes installing a flow tube assembly inside a bore of the extension housing and connecting a top entry access system above the hydraulic packoff. The method includes routing the conduit from a supply, through the top entry access system, into the hydraulic packoff, through the hydraulic packoff, through the flow tube assembly, through the drillstring inlet and into the drillstring.
For a more detailed description of the preferred embodiments of the present invention, reference will not be made to the accompanying drawings, wherein:
Referring initially to
Top entry access system 12 typically includes a pair of large diameter sheave wheels 16, 17 between two plates 18, 19 but can be of any other configuration known to one skilled in the art. For example, referring briefly to
Returning again to
Referring now to
At its bottom, packoff gland assembly 54 is held in place by a bottom plate 78 secured by a bottom lip 80 of main body 52. Optionally, below bottom lip 80 of main body 52, a pin insert 82 and sealing ring 90 can be installed with bolts 84 to help align packoff assembly 50 into position on top of top drive assembly. At its top, packoff gland assembly 54 is compressed and held into place with an upper retainer nut 86. Upper retainer nut 86 has an outer threaded profile 88, and an inner threaded profile 90. Retainer nut 86 is installed by threading outer profile 88 into thread profile 66 of main body 52 until gland assembly 54 is properly compressed. Once retainer nut 86 is in position, a packoff safety cap 94 is installed and secured with bolts 96.
Above main body 52 roller assembly 56 is optionally installed. Roller assembly 56 preferably includes roller body 98, a plurality of rollers 100, a bushing 102, and a bushing cage 104. Rollers 100, mounted at the top of roller body 98 and secured with bearing pins 106 and cotter keys 108, smoothly guide wireline 20 into the main body 52 and through the gland assembly 54. A threaded profile 110 is located at the bottom of roller body 98 and corresponds with internal threaded profile 90 to engage roller assembly 56 into upper retainer nut 86. Bushing 102, preferably constructed of brass or any other standard bushing material, acts in conjunction with bushing cage 104 to compress and hold line rubber 72 in place.
Wireline conduit 20 enters packoff assembly 50 of
Referring now to
Extension housing 122 allows for the installation of flow tube assembly 124 to help reduce the bore fluid pressure acting on wireline conduit 20 as it exits gland assembly. Flow tube assembly 124 includes a plurality of expansion cavities 150 that extend around wireline 120 from the bottom to the top of flow tube 124. A fluid port 152 is connected to a main cavity 154 of flow tube 124 and is used to remove pressurized bore fluids from around wireline 20. Because of elevated borehole pressures, flow tube assembly 124 needs to be held in place inside housing 122 with a nut or a c-ring (not shown). Otherwise, sudden elevations in bore pressure could cause flow tube assembly 124 to “blow out” of its seat in housing 122.
As pressurized fluids flow from bottom of flow tube 124 to main cavity 154 the pressure is incrementally dropped after experiencing each cavity 150. Finally, fluids are siphoned off at port 152 to further effectuate the pressure drop, resulting in a fluid pressure at gland assembly 128 that is significantly lower than the fluid pressure at the top drive drilling assembly. This reduced pressure at gland assembly 128, allows for the insertion and removal of wireline conduit 20 from the drilling assembly with little or no escaping bore fluids. While a particular construction for flow tube assembly 124 is shown, it should be understood that various designs can be created and used by one skilled in the art. For instance, a flow tube with varying profiles and numbers of expansion cavities 150 can be used. The specific design and construction of flow tube assembly 124 will depend on variables such as bore pressure, the size of conduit 20, and the amount and rate of pressure drop desired. The example shown is not meant to limit the design, configuration, and construction of flow tube assembly 124, but is merely illustrative.
Referring still to
Next, a length of wireline conduit 20 is released and fed through the gland assembly 128 and main body 126 and then fed through flow tube assembly 124. With wireline conduit 20 pre-fed, main body 126 is threaded onto the upper threads 142 of extension housing 122 with corresponding lower thread profile 132. When packoff assembly 120 is so assembled, Top entry access system 12 can then be secured to the outer bearing surface 134 of main body 126. Preferably, upper threads 142 of extension housing 122 and mating outside threads 158 of inlet 28 are of the same design and construction. This way, if the flow tube assembly 124 is not needed for a particular operation, main body 126 can be threaded directly onto pin 28 without installing extension housing 122, similar to assembly shown in
Referring briefly to
Numerous embodiments and alternatives thereof have been disclosed. While the above disclosure includes the best mode belief in carrying out the invention as contemplated by the named inventors, not all possible alternatives have been disclosed. For that reason, the scope and limitation of the present invention is not to be restricted to the above disclosure, but is instead to be defined and construed by the appended claims.
Claims
1. A top drive entry access system including a hydraulic packoff to allow a conduit into a bore of a drillstring, the hydraulic packoff comprising:
- a main body, said main body having a lower connection, a seal bore, an upper connection configured to receive a roller assembly to guide the conduit from the top drive entry access system into a gland assembly, wherein said roller assembly includes a bushing to compress said gland assembly, and a mounting surface;
- said lower connection configured to attach to an inlet of the drillstring;
- said seal bore configured to receive said gland assembly;
- said gland assembly configured to allow the conduit to communicate with the bore of the drillstring without releasing drilling fluids therefrom; and
- said mounting surface configured to receive and secure the top drive entry access system thereupon, wherein said mounting surface includes a journal bearing surface configured to allow the rotational movement of the top drive entry access system with respect to said main body.
2-9. (canceled)
10. The top drive entry access system of claim 1 wherein said inlet is positioned on a manifold above a top drive drilling head.
11. The top drive entry access system of claim 1 wherein an extension housing and a flow tube assembly are positioned between said inlet and said main body.
12. The top drive entry access system of claim 11 wherein said extension housing is integral to said main body.
13. The top drive entry access system of claim 11 wherein pressures of said drilling fluids are reduced as said fluids extend up said flow tube assembly along the conduit.
14. The top drive entry access system of claim 1 further comprising a
- flow tube assembly including a through bore and a plurality of expansion cavities arrayed along a length of said through bore;
- said through bore configured to receive the conduit therethrough;
- said through bore in fluid communication with said expansion cavities; and
- said expansion cavities configured to create a pressure reduction profile about the conduit as it extends along said length of said through bore.
15. The top drive entry access system of claim 14 wherein said flow tube assembly includes a fluid port configured to remove fluids and pressure from said through bore.
16. A hydraulic packoff for a top drive entry drilling assembly, the hydraulic packoff comprising:
- a main body, said main body having a lower connection, a seal bore, and a roller assembly;
- said seal bore configured to receive a seal gland assembly configured to allow a conduit to communicate with a bore of a drillstring without releasing drilling fluids therefrom; and
- said roller assembly positioned above and configured to guide said conduit into said seal gland assembly, wherein said roller assembly includes a bushing to compress said seal gland assembly.
17-20. (canceled)
21. The hydraulic packoff of claim 16 further comprising a mounting surface to attach a top drive entry access system.
22. The hydraulic packoff of claim 21 wherein said mounting surface includes a journal bearing configured to allow the rotational movement of said top drive entry access system with respect to said main body.
23. The hydraulic packoff of claim 21 wherein said mounting surface includes a thrust bearing configured to resist thrust and bending forces exerted by said top drive entry access system on said main body.
24. The hydraulic packoff of claim 16 wherein said lower connection connects to an entry inlet of the top drive drilling assembly.
25. The hydraulic packoff of claim 16 further comprising an extension housing extending from said lower connection, said extension housing providing a seal bore to receive a flow tube assembly.
26. The hydraulic packoff of claim 16 further comprising:
- a flow tube assembly, said flow tube assembly comprising a through bore and a plurality of expansion cavities arrayed along a length of said through bore;
- said through bore configured to receive the conduit therethrough;
- said through bore in fluid communication with said expansion cavities; and
- said expansion cavities configured to create a pressure reduction profile about the conduit as it extends along said length of said through bore.
27. The hydraulic packoff of claim 26 wherein said flow tube assembly includes a fluid port configured to remove fluids and pressure from said through bore.
28-32. (canceled)
33. A hydraulic packoff for a top entry drilling assembly, the hydraulic packoff comprising:
- a main body, said main body having a lower connection, a seal bore, and a retaining device;
- a seal gland configured to be received in said seal bore, said seal gland configured to allow a conduit to communicate with a bore of a drillstring without releasing drilling fluids therefrom;
- a flow tube assembly, said flow tube assembly comprising a through bore and a plurality of expansion cavities arrayed along a length of said through bore;
- said through bore configured to receive the conduit therethrough;
- said through bore in fluid communication with said expansion cavities;
- said expansion cavities configured to create a pressure reduction profile about the conduit as it extends along said length of said through bore; and
- said retaining device positioned above and configured to compress said gland assembly.
34. The hydraulic packoff of claim 33 wherein said retaining device is a roller head.
35. The hydraulic packoff of claim 34 wherein said retaining device is a retaining nut.
36. A method for entering a conduit into a pressurized bore of a drillstring driven by a top drive assembly, the method comprising:
- connecting a hydraulic packoff and an extension housing to an inlet of the drillstring, the inlet located above a drive motor of the top drive assembly;
- installing a flow tube assembly inside a bore of the extension housing;
- connecting a top entry access system above the hydraulic packoff; and
- routing the conduit from a supply, through the top entry access system, into the hydraulic packoff, through the flow tube assembly, through the drillstring inlet and into the drillstring.
37-38. (canceled)
39. The method of claim 36 further comprising removing pressurized fluid from a fluid port in communication with a through bore of said hydraulic packoff assembly on the top drive assembly to reduce the pressure in the through bore and in the hydraulic packoff.
40-42. (canceled)
Type: Application
Filed: Nov 17, 2004
Publication Date: Apr 23, 2009
Inventors: Vernon E. Kauffman (Friendswood, TX), Dwight R. LeBlanc (Alvin, TX)
Application Number: 11/383,458
International Classification: E21B 33/072 (20060101); E21B 19/00 (20060101);