|Publication number||US2233077 A|
|Publication date||Feb 25, 1941|
|Filing date||Oct 10, 1938|
|Priority date||Oct 10, 1938|
|Publication number||US 2233077 A, US 2233077A, US-A-2233077, US2233077 A, US2233077A|
|Inventors||Barker Ernest L, Gillespie Charles P|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (41), Classifications (14)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Feb- 25., 1941- c. P. GlLLEsPIE .Er m. 'l 2,233,077
WELL CONTROLLIG APPRATEUS Filed oct.. lo, 193sl s sheets-sheet 1 Feb. 25, 1-941.
Filed oct. 1o, 195s shams-sheetV 2 l.Zo mmmlz.' I
a2 77 lz 74 /0 la /a l2 u 5 74 85 79 v1121, 72
M7/ www vF121- 25, 1941- l c. P. -calLLl-:sPua erm. y 2,233,077
WELL CONTROLLING APPARATUS 3 Sheets-Sheet 5 Filed oct. 1o. 1938 t PatentedFeb. 25, 194i 4 UNITED 's'rsrrssv I Pa'rlszNTv OFFICE 2.233.077 WELL CONTROLLING APPARATUS Charles P. Gillespie and Ernest L. Barker, Houston, Tex.; Barker said Gillespie assigner to -sald 'I'his invention relates in general to owing wells. and has for its general object to provide' a means for preventing excessive flow' from a flowing well.
Although adated for use in connection with all types of flowing wells, this invention is particularly designed for use in connection with oil wells and the like.
Ordinarily an oil or gas Well is provided with a Christmas tree or manifold at the upper end by which the now from the well is controlled land directed as desired. This Christmas tree as a usual thing includes not only control valves for' shutting off and opening the well as a whole or any particularly ilow line therefrom, but also includes restricting passages known as chokes which are designed to cut down the flow from the well and maintain a back 4pressure thereon.
As stated, most of these chokes are mounted on the Christmas tree or near the Christmas tree' but in some instances they are placed 4within the well adjacent the bottom ofthe tubing through which the oil or gas flow to the surface. I In a well equipped in the manner just described,` the constant wearing action of the flow, particularly when the flow contains abrasives such as sand or the like, will gradually cut out the choke or chokes and make the opening or openings therethrough larger, thus permitting greater and greater ow as this wear takes place. If the flow is permitted to'become great enough, it may cause great damage in any one or more of` a number of ways. Ihus, an excessive flow may cause the well to sand up, that is, become filled with sand so that it cannot properly flow, or vit may otherwise `injure the well, and many times a well damaged by an excessive rate of flow can never be placed in as goo a condition as it was before. It may even be lost entirely. Furthermore, such excessive rates of flow may subject the owner or operator of the well to penalties on account of violation of the proration laws which in many localities limit the amount of oil which may be produced from a given well.
It is, therefore, an object of this invention to provide a means for preventing the unintentionaly violationkof the proration laws and the ruining or damaging of wells by excessive flow therefrom, l
Furthermore, it sometimes happens that when a Christmas tree is being assembled or placed upon the well sc me part of the tree may not be securely fastened and although the leak may not appear immediately when pressure is' placed upOn the device, the continued washing action due vto the flow of the well will start the actual leak and the cutting action under high ressurewill quickly makean openingwhich will expand more and more until it eventually produces the e'quiv- 5 aient of a blowout. Along this line also it has occurred that due to lightening or the handling of heavy materials adjacent a well. the Christmas tree or a. part thereof may be broken olf, thereby permitting a blowout. 1
In addition to the foregoing, it is also sometimes necessary to remove part of the Christmas tree, perhaps that part containingthe choke, and in some instances it becomes necessary to remove all of the Christmas tree for the purpose 15 of making repairs or replacements. In such case it is customary ,to close down the well by closing gate valves below the Christmas tree or in the Christmas tree. However, in addition. to the fact that gate valves are sometimes very difficult to close under high pressure and high velocityrof flow, the labor employed on a well might easily overlook the closing of the valve before breaking a connection preparatory to a replacement or repair such as above mentioned. This, likewise, may cause a blowout.
Itis, therefore, another object of this invention to prevent accidents due to defective Christmas tree equipment or assembly thereof or due to accidental displacement thereof.
Another object of this invention is to provide a means for automatically shutting off Aflow froml a well when the flow becomes excessive.
Another object is to provide a means for automatically shutting off now through a well tubing when the flow therethrough becomes excessive.
Another object of this invention isto provide a means for automatically shutting off ow through a well casing when flow therethrough becomes excessive.
Another object of this invention is to provide a means for shutting Iofit flow through. a well casing at -a point above the surface of the ground when the flow therein becomes excessive.
Another object of ,this invention is to provide a means for shutting off now through a well connection at a point. below the surface of the ground when the flow therethrough becomes excessive, u A
Other objects and advantages of this inven' tion will become apparent from the following description vtaken with the accompanying draw ings, wherein are set forth by wa'y of examplel vention. It is -to be understood, however, that the same are not by way of limitation, the scope of this invention being limited only by the prior art and by the terms of the appended claims.
In the drawings:
Fig. 1 is an enlarged view partly in vertical cross section illustrating a portion of the upper end of a well and Christmas tree constructed in accordance with this invention.
Fig. 2 is a. similar viewl illustrating a continuation of the lower portion o1' Fig. 1.
Fig. 3 is likewise a similar view illustrating a continuation of the lower portion of Fig. 2.
Fig. 4 is a reduced assembly View illustrating the arrangement set forth on an enlarged scale in Figs. 1 to 3, inclusive.
Fig. 5 is la horizontal cross section taken along the line 5-5 of Fig. 2.
Fig. 6 is a horizont-al cross section taken along l the line 6-6 of Fig. 3.
Fig. 4'l is a fragmentary detail illustrating a portion of the construction shown in Fig. 3.
Fig. 8 is a view similar to the lower portion of Fig. 1 but illustrating a slight modication.
Fig. 9 is an elevation showingone arrangement for the connections at the upper end of the well.
Referringl now more in detail to the drawings, the well casing is illustrated in` Fig. 1 by the numeral I and on the upper end of this casing is mounted the casinghead 2. This casinghead 2 has lateral iiow lines 3 extending in opposite directions .therefrom and is provided within its upper end portion withV a tapering seat 5 adapted to receive the tapered exterior portion of the tubinghanger 6. Threaded into the lower end of this tubing hanger 6 is a special tting 1 which is in turn internally threaded at its lower end to receive the upper end of the tubing 8. The tting 1 is also internally threaded for a considerable distance from its upper end for the reception of a supporting bushing 9, this bushing being threaded at its lower end to receive the valve housing Ill. The lower end of the bushing 9 forms a valve seat. The valve housing I0 is a -continuou's tubular member having a transver's'espider or similar supporting part II intermediate its ends having an opening therein for the reception of a valve stem I2. The valve I3 is carried upon the upper end of this stem I2 and adapted when moved upwardly to seat against the valve seat on the lower end of the bushing 3. Secured on the lower end of the valve stem I2 is a guide member I4 for maintaining the valve stem I2 in proper alignment with the housing I0. Between the guide I4 and the spider II and surrounding the valve stem I2 is a spring I5 which normally holds the valve I3 in its lowermost position and always exerts a force tending to move it to that position. Above the spider' II is a second spring I6 which tends to cushion any such downward movement ,of the. valve and prevent it from hammering against its support.
The joint between the tapered seat 5 and the exterior of the tubing hanger 6 is bridged by 'means of a triple seating sealing ring I1 having one 'sealing part seated within a groove I8 in the upper end vof the casinghead, and a second sealing part seatedvwithin the groove I9 in the upper end of .tire .tubing hanger.
Mounted above the ring I1 is a fitting 20l having a groove 2| in its lower surface adapted to receive a third sealing portionof the ring I1. Thus', a seal is formed preventing any ilow between the space outside the tubing and within Vplace by means of bolts the casing casinghead.
The upper end of the tting 20 has a ilange 23 to which the lower flange 24 of a valve 25 is secured by means of bolts or the like and sealed in any conventional manner.
The. upper ange 26 of the valve 25 is likewise secured to the flange 21 of a cross iitting 28 by means of bolts 23 or the like and sealed thereto by any conventional means. This cross tting 23 is provided with an upwardly extending branch 30 which may be eitherclosed with a plug or used in some other manner customary and with lateral extensions adapted to receive lateral flow lines 3l. Each oi these lateral extensions is also internally threaded to receive a bushing 32 which is similar in all substantial features to the bushing 9 previously described. This bushing 32 threadedly receives the valve housing 33 which has a spider 34 intermediate its ends for the receipt of valve stem 35. The valve 36 is carried on the end of this valve stem adjacent the bushing 32 and a spring 31 surrounds the valve stem in the same manner as previously described in connection with the spring I5. A guide member 38 is likewise mounted on the end of the valve stem opposite the valve 36.
In connection with this last described valve arrangement the extension within which the valve is mounted is provided with a by-passing channel 39 through which fluid may flow from one side of the valve to the other without passing through the valve. For the purpose of shutting off entirely all iow through this by-passing channel there` is provided a needle valve 40 accessible from the outside of the tting so that it can be moved from open to closed position and vice versa. There is also-a check valve 4I within this passage which is spring pressed toward closed position by a spring 42, this check valve serving to permit flow in the normal direction of flow of the well but to prevent ow in the opposite direction.
It has been previously stated that the location of the choke which normally controls the rate of i'low of a well of this type may be either above the -ground within a portion of the Christmas tree or below the ground. As here illustrated in Fig. 2, the choke 43 is connected in the tubing .below the ground and at a point remote from the surface of the ground. This choke has an opening 44 therethrough which is of a predetermined diameter usually xed by law.
To the lower end of the choke 43 is threadedly connected a tubing section 45 which in eiect forms a. continuation of the tubing 8. Surrounding this tubing section 45 and secured thereto is a housing and abutment member 48 having a downwardly extending generally tubular part 41 surrounding the tubing 45 but spaced radially therefrom in certain of its parts as shown in Fig. 5 to provide a passageway between this tubular section 41 and the exterior of the tubing. Surrounding this tubular portion 41 is an expansible packing member 48 and the space between this tubular portion and the tubing 45 is designated by the numeral 49.
Within the member 46 is a chamber 50. Into threaded as at 5I a fitting 52 which may be integral with the valve housing 53. As in the previous instances, a study of this valve arrangement discloses that the valve housing 53 has a spider 54 extending thereacross for the purpose of slidingly supporting the valve stem 55 carrying the valve 56 on its upper'end. Surrounding `this valve stem 55 is a spring 58 bearing at its lower end upon a guide member 59 in a manner similar to the previously described valve arrangements.
Abutting the lower end of the packer 48 and slidable upon the tubular portion 41 is an abutment ring 60 having a downwardly tapered portion 6I adapted to receive and cause the expansionof slips 62. kThese slips are carried by resilient arms 63. Extending downwardly from the tapered portion 6I of the abutment 68 is a sleeve-like extension 64 about which is slidably mounted acollar-like member 65.
A J-slot 66 is formed within the collar 65 as shown more clearly in Fig. 7 and a similar J-slot adapted to register with the J-slpt 66 is formed at 6l inthe sleeve-like portion 64. Extending into and through these two J-slots is a pin 68 carried upon the tubing section 45. Secured at theirupper ends to the collar 65 are a plurality of spring members 69. These spring members have their upper ends bent as at 'I0 to engagea ring carried by the collar 65 and are mounted at their lower ends upon a free floating ring 1I. Each of these springs is bowed outwardly so as to frictionally engage the innerv wall of the casing.,
Referring now to Fig. 8, a slight modification is illustrated. In this figure, the casinghead 'I2 is provided with flow lines 13`threaded into its lateral branches 'I4 by means of -threaded connections 15. Each of these lateral co'nnections is also internally threaded at 'I6 to receive a bushing TI having internal threads I8 and carrying a valve housing 19. Each valve housing therein has a transverse spider 88 adapted to support in sliding fashion a valve stem 8l carrying a valvel 82 adapted to seat against the end of the bushing 'I'I when moved to the left as seen in the left hand portion of Fig. 8. A spring 83 surrounding this valve stem tends to hold the valve at all times in open position.
This valve arrangement is likewise provided Y with means for by-passing fluid consisting of the by-passing passageway 84. This passageway 84 is controlled and may be closed or opened by means of a needle valve 85 accessible' from permit iiow from within the well through the passageway 84 past the valve 82 when the same is closed, but to prevent passage of iiuid in the opposite direction.
In Fig, 9 there is shown a means for by-passing fiuidunder pressure from the casing to the tubing or vice versa or for applying pump presure to either thecasing or the tubing or both for the purpose of raising the pressure on the down stream side of a closed valve in the casing or i the tubingand causing the opening of such valve. For this purpose, the casing flow line 3 is4 provided with valves 81 and 88 and the tubing flow line 3i is provided with valves 89 and 98. A by-pass 9| controlled by a valve 92 is connected between the flow lines 3 and 3l between the valves 81 and 88, and between the valves'89 and 90, respectively. A line 93 controlled by a valve 94 is connected to the by-pass line 9| and to the outlet of a pump 9 5, respectively, and by this A check valve 86 is arranged to` means pump pressure may be applied to valves either in the tubing orin the casing or both.
y In operation, each of the valves, I3, 38, 58 and. 82 will as previously stated be normally held in open position. In this position they will, of
, course, permit ow to take placefrom the wellv springs holding the respective valves in open position are so tensioned and adjusted that they will hold the valves open against the wash and the consequent pressure exerted thereupon by the normal flow from the well.' Thus, during normal operations the valves remain each in its open position in which position it does not ma- -terialiy affect the operation of the well.
Now, in the event that the choke for example should become excessively cut out so that a larger amount of fluid than desired is permitted to flow therethrough, this flow will when it attains a predetermined value dependent upon the tension of the springs holding the respective valves in their open position, cause these valves to suddenly close. Thus, considering the arrangement to be as illustrated at Figs. 1 to 7, inclusive, when the choke opening 44 cuts out excessively so as to permit greater ow than desired, this flow may cause ,a closure` of the valver I3 because the entire flow is-directed about this .valve throughv the housing I0. However, it is preferable that the valves be soadjusted that the valve 36 will close rst, thus stoppingvthe excessive flow from the well and preventing any damage which might have otherwise resulted therefrom. In the event the choke is situated in the Christmas tree as is also'customary, the result would be the same, as it would make no difference whether 'the choke be located ahead of or down stream from thecontrol valves disclosed. These control valves are substantially unaffected by changes in pressure and the same control valve may ordinarily be used on a very high pressure well that is used on a low pressure well with substantially the same adjustment.
The only substantial force4 governing the closing of these valves is that provided by an increase in the velocity of iiow of uid past the valves.
In addition to the foregoing use for the valves disclosed, it is to be noted that if in assembling a part of the Christmas tree should not .besecurely connected, and a leak should appear after the well has started flowing, this leak would gradually increase as the washing of fiuidtherethrough continued and would eventually produce such a velocity in the fluid flowing from the well that it would cause the closure of, for` example, the valve I3.- ',well would, of course, be shutdown and no'fur- Upon this closure the vther damage -could be done until repairs were effected and the operator desired to continue the operation of the well.
Likewise, in the event that an accident should occur such as in dismantling the derrick over a well, and the Christmas `treeor a `part thereof should b`e knocked olf, or if such should occur as a result of a bolit of lightning or the like, then the well would immediately be closed in automatically by the `valves I3 and 56. The valve I3 is, of course, below the point where the tubingwis hung and when closed would prevent any lilow 82,' however,
through the tubing, whereas the valves 56 are located far down in the well and would naturally prevent any ow`through the casing when they are closed. The packer 48 when seated in a customary manner clearly apparent would form a seal between the inside of the casing and the outside of the tubular member 41, leaving only the passageway 49 about the tubing within the casing. Fluid could flow through this passageway so long as the flow was not excessive but upon the occurrence of an accident such as referred to and the resulting increase in flow through the opening 49 past the valves 56, these valves would be immediately closed preventing any further flow through the casing.
In the form shown in Fig. 8, iiow through the casing instead of or in addition to being controlled by valves located down in the well as in Figs. 2 and 4 is controlled by valves located in the flow lines from the casinghead. The operation of these valves is identical with the operation of the valves 56 and accomplishes the same result. The advantage of putting the valves down in the well as shown in Fig. 2 is, of course, that when in this position they are out of any danger due to an accident to the well caused by external means. When in the position shown in Fig. 8, however, they are more readily accessibleA and can be more easily changed or reopened once they have been closed.
On this latter point, it will be appreciated that any of the valves illustrated may be caused to reopen by simply raising the pressure on the downstream side of the valve in question. This may be accomplished in the case of any of thel valves disclosed, and particularly in the cases of the valves I3 and 56, by means of operating the pump 95. If the valve I3 is in closed position and it is desired to Open it by means of the pump 95, the valves 81, 88 and 90 will be closed and the valves 89, 92`and 94 will be opened, whereupon the operation of the pump will raise the pressure on the downstream side of the valve I3 until the same can be opened by the spring I5.` If 'the valve or valves 5G be closed, these may be opened by closing the valves 88 and 92 and opening the va'lves 81 and 94, whereupon operation of the pump will increase the pressure above the valves 56 until they can be opened by the springs 58. The other valves disclosed may be opened in a similar manner.
If either .the casing or the tubing is opened for iiow, and one of the valves in the other is closed, the same can be opened by simply bypassing pressure fromthe casing to the tubing or vice versa to raise the pressure on the down stream side of the closed valve. This by-passing may be accomplished by closing the valves 88, 90 and 94 and opening .the valves 81, 89 and 92. This will permit the raising of the pressure until the spring` associated With the closed valve is able to open the valve.
-In the case of the valves .illustrated at '36 and additional provision is made for raising the pressureson the down stream side for the purpose of opening these valves. Taking the valve 36 as an example, let it be assumed that this valve has been closed dueto excessive ow therethrough. Once it is closed, the pressure within the well will keep this valve in closed position against the tendency of the spring 31 to cause it to open. If the difliculty is caused by a break or by the washing out of a choke located on the down stream side of this valve, thereplacement necessary is rst made and the parts spring 31 would cause the valve 36 to open and the well could then be opened by further normal flow. Thus, the provision of a by-pass pasuntil it would approach the pressure within the well, at which time the sageway and a valve such as shown in connection with the valve 36 and the valve 82 eliminates in many cases the necessity' for pumping into the well to cause the opening of one of these control valves once it has been closed.
It will be seen from the foregoing that a means has been provided for preventing any unintentional excessive flow from a owing well either when the same is caused by accidents or by constant wear upon such means as may be employed to keep the :flow within predetermined limits. It will -be seen that blowouts due to these causes will be practically eliminated and that great damage not only to the property surrounding the wells but to the wells themselves will be avoided by this invention.
Having described our invention, we claim:
1. In combination with a ilowing well, a passageway leading from the bottom thereof and a Christmas tree at the upper end thereof for receiving the flow from said passageway, and a normally open valve in the path of flow from said passageway and adapted to be closed when the ow through said passageway exceeds a predetermined rate, said valve being located in one of the branches of said Christmas tree.
2. In combination with a flowing well, a passageway leading from the bottom thereof and a Christmas tree at the upper end thereof adapted to receive flow from said passageway, an upwardly closing normally open valve in thev path of ilow through said passageway and adapted to be closed when the flow through said passageway exceeds a predetermined rate, and a second normally open valve in the path of flow from said passageway adapted to be closed when said ow exceeds a predetermined rate, said second valve being located in one of the branches of said Christmas tree.
3. In combination with a flowing well, a casing in said well, and a tubing within said casing, and a normally open valve in the path of uid flowing through both said tubing and said casing, each of said valves being adapted to be closed when the ow therethrough exceeds a predetermined rate.
4. In combination with a flowing well, a casing within said well and a tubing within said casing, a packer surrounding said tubing and adapted to form a sealing engagementwith said casing, means providing a passageway through said packing, and a normally open valve in the path of flow through said passageway adapted to be closed when the flow through said passageway exceeds a predetermined rate.
5. In combination with a ilowing well, a passageway leading from the bottom thereof and a normally open valve in the path of flow through substantial rate of ilow predetermined rate, means for by-passing iluid from the upstream side to the downstream side of said valve to raise the pressure on the downstream side of said valve and cause it to open after it has been closed, and a needle valve accessible from the exterior of said passageway for controlling the opening and closing'of said by-pass means.
6. In combination with a flowing well, a passageway leading from the bottom thereof and a normally open valve in the path or iiow through said passageway adapted to be closed wh'en the velocity of ilow through `said passageway exceeds a predetermined rate, means for by-passing fluid from the upstream side to the downstream side of said valve to raise the pressure on the downstream side of said valve and cause it to open after it has been closed, a needle valve accessible from the exterior of said passageway for controlling the opening and closing of said by-pass means-and a check valve in said passageway for permitting iiow inysaid one direction and for preventing flow in the opposite direction therethrough.
'7.'In combination with aiowing well, a passageway leading from the bottom thereof, and means for preventing more than a predetermined substantial rate oi' tlow upwardly through said passageway, comprising an upwardly closing valve in said passageway, which valve remains open during substantial upflow not exceeding said 'predetermined rate o1 flow velocity o1' flow exceeding rate. Y
8. In combination with said predetermined a iiowlng well, a passageway leading from the bottom thereof, and
means for preventing more than a predetermined upwardly through said and is closed by a e passageway, comprising an upwardly closing valve in said passageway, which valve remains open during substantial upiiow not exceeding said predetermined rate oi' itlow and is closed by a velocity o1' flow exceeding said predetermined rate. and a choke in said passageway normally restricting the now through said valve -to a velocity not exceeding said predetermined rate of iiow.
9. In combination with a iiowing well, a passageway leading from the bottom thereof, and means for preventing more than a predetermined substantial rate of ilow upwardly through said passageway, comprising an upwardly' closing valve in said passageway, which valve remains open during substantial upiiow not exceeding said predetermined l velocity of ilow exceeding said predetermined rate, and a choke in said passageway normally restricting the iiow through said valve to a velocity not exceeding said predetermined rate of ilow. the choke being below the valve. l
l 10. In combination with a ilowing well', a caslng in said well, a tubing with said casing, and means for preventing more than a predetermined rate of flow upwardly through said tubing, comprising a closure casing in the path tween said tubing of ilow through the space beand said casing and below the `surface o1' the ground, a iiow passage through said closure, a valve controlling lsaid passage, said valve being normally open against a substantial predetermined rate ofilow and adapted to be closed when the velocity of now therethrough ex ceeds said vpredetermined rate.`v
CHARLES P.' GnLEsPIE. ERNEST L. BARKER.
.rate of iiow and is closed by a,
V25 between said tubing and saidv
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2447827 *||Mar 30, 1942||Aug 24, 1948||Lane Wells Co||Automatic shutoff device for oil wells|
|US2794505 *||Nov 4, 1955||Jun 4, 1957||Cameron Iron Works Inc||Pipe hanging apparatus|
|US2915286 *||Apr 20, 1953||Dec 1, 1959||Marcus W Haines||Deflection tool for rotary directional drilling|
|US2939727 *||Oct 15, 1956||Jun 7, 1960||Cameron Iron Works Inc||Wellhead equipment|
|US3095929 *||Jan 14, 1960||Jul 2, 1963||Halliburton Co||Casing heads for oil wells|
|US6276386 *||Nov 24, 1997||Aug 21, 2001||Kvaerner Oilfield Products, Inc.||Charging device for hydraulic systems|
|US6918439 *||Jan 6, 2003||Jul 19, 2005||L. Murray Dallas||Backpressure adaptor pin and methods of use|
|US6938696||Aug 6, 2004||Sep 6, 2005||H W Ces International||Backpressure adapter pin and methods of use|
|US7055632 *||Oct 10, 2003||Jun 6, 2006||H W C Energy Services, Inc.||Well stimulation tool and method for inserting a backpressure plug through a mandrel of the tool|
|US7069987 *||Feb 6, 2004||Jul 4, 2006||Stream-Flo Industries, Ltd.||Casing adapter tool for well servicing|
|US7201229 *||Oct 22, 2004||Apr 10, 2007||Vetco Gray Inc.||Tree mounted well flow interface device|
|US7740074||Nov 9, 2006||Jun 22, 2010||Vetco Gray Inc.||Tree mounted well flow interface device|
|US7743824||Mar 20, 2008||Jun 29, 2010||Stream-Flo Industries Ltd.||Method and apparatus for isolating a wellhead for fracturing|
|US7992633||Aug 15, 2009||Aug 9, 2011||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US7992643||Jun 1, 2004||Aug 9, 2011||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8066063||Sep 13, 2007||Nov 29, 2011||Cameron International Corporation||Capillary injector|
|US8066067||Aug 15, 2009||Nov 29, 2011||Cameron International Corporation||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8066076||Feb 25, 2005||Nov 29, 2011||Cameron Systems (Ireland) Limited||Connection system for subsea flow interface equipment|
|US8091630||Apr 27, 2010||Jan 10, 2012||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8104541||Nov 15, 2007||Jan 31, 2012||Cameron International Corporation||Apparatus and method for processing fluids from a well|
|US8122948||Apr 27, 2010||Feb 28, 2012||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8167049||May 26, 2011||May 1, 2012||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
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|US8245787 *||Nov 19, 2008||Aug 21, 2012||Vetco Gray Inc.||Utility skid tree support system for subsea wellhead|
|US8272435||Aug 15, 2009||Sep 25, 2012||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8281864||Aug 15, 2009||Oct 9, 2012||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8297360||Nov 15, 2007||Oct 30, 2012||Cameron International Corporation||Apparatus and method for processing fluids from a well|
|US8469086||Jun 20, 2011||Jun 25, 2013||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8540018||Jun 28, 2012||Sep 24, 2013||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8573306||Feb 27, 2012||Nov 5, 2013||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8622138||Aug 8, 2011||Jan 7, 2014||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8733436||Nov 28, 2012||May 27, 2014||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8746332||Mar 8, 2012||Jun 10, 2014||Cameron Systems (Ireland) Limited||Apparatus and method for recovering fluids from a well and/or injecting fluids into a well|
|US8776891||Oct 6, 2011||Jul 15, 2014||Cameron Systems (Ireland) Limited||Connection system for subsea flow interface equipment|
|US8776893||Aug 22, 2012||Jul 15, 2014||Cameron International Corporation||Apparatus and method for processing fluids from a well|
|US20040129429 *||Jan 6, 2003||Jul 8, 2004||Dallas L. Murray||Backpressure adapter pin and methods of use|
|US20040173348 *||Feb 6, 2004||Sep 9, 2004||Stream-Flo Industries Ltd.||Casing adapter tool for well servicing|
|US20050016736 *||Aug 6, 2004||Jan 27, 2005||Dallas L. Murray||Backpressure adapter pin and methods of use|
|US20050077043 *||Oct 10, 2003||Apr 14, 2005||Dallas L. Murray||Well stimulation tool an method for inserting a backpressure plug through a mandrel of the tool|
|US20050109514 *||Oct 22, 2004||May 26, 2005||White Paul W.||Tree mounted well flow interface device|
|WO2005040545A2 *||Oct 22, 2004||May 6, 2005||Vetco Gray Inc||Tree mounted well flow interface device|
|U.S. Classification||166/67, 166/129, 137/460, 166/86.3, 166/97.1, 166/126, 137/540, 166/91.1, 166/369, 166/151|
|International Classification||E21B34/00, E21B34/02|