ANNULAR FLUID CONTAINMENT DEVICE
An annular fluid containment device includes a mandrel, and packing assembly disposed about the mandrel to form a seal between the mandrel and the well casing. A sleeve disposed within the mandrel defines a space between the mandrel and the sleeve. Seals are disposed between the mandrel and sleeve at upper and lower ends, wherein the upper seal is located above a location of the packing assembly, and the lower seal is located below the packing assembly. Upper and lower passages are defined in the wall of the mandrel, in communication with the annular space, wherein the upper fluid passage is located above the packing assembly and below the upper seal, while the lower fluid is located below the position of the packing assembly and above the lower seal. Hence, a fluid passage is formed bypassing the packing assembly within the mandrel.
The present invention relates to apparatus for repairing a damaged well casing, and more particularly to a method and apparatus for inexpensively repairing a producing well.
BACKGROUNDIn the well servicing industry, a common problem encountered is a damaged well casing in a well. It is desirable to quickly and inexpensively repair a damaged well casing. In particular, in a marginally producing well, a quick and inexpensive method is desirable such that the well may be maintained in production in a cost effective manner.
In a typical gas or oil well, for example, a well casing is placed within a bore hole such that the well casing extends from the surface to the production zone. A production tubing string is placed within the casing, and the gas or oil is withdrawn through the production string. An annular space, or annulus, surrounds the production string, between the exterior wall of the production string and the interior wall of the well casing.
During the life of the well, the casing may become corroded or otherwise damaged, resulting in holes or openings in the casing which allow water or other undesirable fluids to enter into the annular space between the production string and well casing, and travel downward to reach the production zone. Accumulation of the undesirable fluids within the annular space may result in reduced production, either by inhibiting the free flow of gas or oil into the production zone and into the production tubing, or simply by displacing a substantial quantity of the gas or oil such that pumping operations must pump a large quantity of the undesirable fluid along with a desired product of the well, reducing the efficiency of recovery of the well.
For example, in an oil well, the well casing may pass through a water-bearing sand formation well above an oil formation from which oil is pumped. Corrosion of the well casing such as by the water in the water-bearing sand formation may result in holes, cracks or other openings in the well casing, allowing entry of the water into the well casing. Once entered into the annular space within the well casing, the water will travel to the bottom of the well to the oil formation. Accumulation of excessive water may result in hydrostatic pressure sufficient to prevent entry of oil into the casing, or may simply mix with oil such that a diminished quantity of oil is recovered as the water is pumped up along with the oil. In either case, it is desirable to prevent water, or other undesirable fluids, from reaching the production zone.
It is therefore desirable to introduce a sealing device into the annular space, below the damaged portion of the casing and above the production zone, forming a seal against the casing to prevent undesirable fluids entering the casing from reaching the production zone.
A variety of sealing devices are known, including packers such as tension packers, compression packers and the like, which include, broadly speaking, a mandrel or tubing forming essentially a core of the packer, a packing element disposed about the mandrel to provide a seal against the inside wall of the casing, a set of slips for gripping against the casing wall, and a mechanism to set (and, in some arrangements, a mechanism to release) the packer.
A conventional tension packer 600 is shown in
However, introduction of a seal into the annular space may result in problem in that pressure from the oil formation may build up within the annulus below the sealing device. In certain circumstances, such pressure may build to a point wherein, because of the pressure build up, the well's production is reduced or stopped altogether. That is, as pressure within the casing or the annular space between the casing and the production string increases, the tendency for oil to flow into the casing decreases. Therefore, it is desirable, in a sealing device provided in the annular space as discussed above, to include a venting means for venting and releasing pressure through the sealing device, while preventing water, or other undesirable fluids, from reaching the production zone.
Another problem found in the use of retrievable sealing devices such as conventional retrievable well packers is that accumulation of debris above within the annular space and above sealing element may hinder retrieval of the sealing device. That is, once such a sealing device is set, any debris introduced into the annular space, such as sand or silt brought into the annular space along with an undesirable fluid through a breach or opening in the casing simply collects on top of the sealing device, and over time may collect to a degree such that the presence and amount of the debris causes difficulty in removal of the sealing device.
SUMMARYAn retrievable annular fluid containment device and method are provided for introducing a seal into the annular space between a well casing and a tubing string within the casing, providing a venting means for venting and releasing pressure through the seal to eliminate a pressure differential within the annulus across the seal.
According to one aspect of the invention, an annular fluid containment device comprises a tubular main body tubing having an outside diameter configured for placement within a well casing to define an annular space between an outside wall of the tubing and an inside wall of the well casing. A packing element is disposed about the main body and is configured for forming a seal between the main body and an inside wall of the well casing. A tubular inner sleeve is disposed within the main body, with an outer surface of the inner sleeve spaced apart from an inner surface of the main body to define an annular passage therebetween. Upper and lower seals are provided between the main body and the inner sleeve, at upper and lower ends of the inner sleeve respectively, to enclose ends of the annular passage. An upper gas or fluid port is formed through the wall of the main body near the upper end of the inner sleeve, and above a position of the packing element, and a lower gas or fluid port is formed through the wall of the main body near the lower end of the inner sleeve, and below a position of the packing element. Hence, a gas or fluid conduit is formed within the main body, bypassing the packing element, allowing equalization of pressures within the annulus below and above the packing element, once the annular fluid containment device is placed and set within a well casing.
In another aspect of the invention, fittings may be provided at one or both of the gas or fluid ports for attachment of a tubing or hose, for example to allow connection of a tubing or hose to the upper gas or fluid port to allow venting to the surface or to a position within the well above the height of any accumulated water or undesirable fluid entered into the annulus.
According to a further aspect of the invention, a rupture disk or other pressure releasing element may be provided in, or in conjunction with, the annular fluid containment device, preferably above the packing element, to allow a flushing operation by introducing water or another fluid into the production string, and pressurizing the water or other fluid to cause bursting of the rupture disk, whereupon the water or other fluid is emitted through an aperture formed by the burst rupture disk, for example to flush debris accumulated above the packing element.
These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and accompanying drawings.
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Upper and lower seals are provided between the outside wall surface 142 of the inner sleeve 140 and the inside wall of the mandrel 110, proximate to the upper and lower ends of the mandrel 110 respectively. In the illustrated embodiment, each seal is formed by one or more O rings 152, seated in seating grooves 148 formed in the outside wall surface 142 of the inner sleeve 140.
An upper gas port 144 is formed through the mandrel wall at a point above the lower seals and below the packing element 120, allowing fluid communication between outside of the mandrel 110 and the fluid passage way 150 between the inner sleeve 140 and the mandrel 110. Similarly, a lower gas port 146 is formed through the mandrel wall at a point below the upper seals and above the packing element 120, allowing fluid communication between outside of the mandrel 110 and the fluid passage way 150 between the inner sleeve 140 and the mandrel 110. Hence, in practice, when the annular fluid containment device 100 is set within a well casing, a passage is provided to equalize pressures within the annulus below and above the packing element 120, such as to vent a gas produced in a well formation below the annular fluid containment device 100 to a point above the annular fluid containment device 100 in order to equalize a gas pressure across the annular fluid containment device 100.
The upper gas port 144 and lower gas port 146 can be formed simply as an open aperture 158 through the mandrel 110 wall. More preferably for certain applications, the upper gas port 144 and lower gas port 146 may be provided with a fitting 154 for connection to a venting tubing or hose 156 or the like to extend fluid entry or exit positions to points well above, or well below, the annular fluid containment device 100. For example, a length of tubing or hose may be fitted to the upper gas port 144 and extended to the well surface, to vent a well gas fully to the surface of the well. Alternatively, such a length of tubing or hose may be provided to locate an upward vent exit above the height of expected fluid acumination in the well's annulus, to avoid passage of such fluid downward below the annular fluid containment device 100.
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In the illustrated embodiment, steel rods or standoffs 514 are provided for centering the production tubing segment 512 within the mandrel 510. A top plate 516 encloses the top end of the mandrel, and includes a venting aperture or port 518. The bottom of the mandrel 510 may be similarly closed by a plate having a venting aperture, or may be simply left open. As in the embodiments of
An arrangement of a packer an annular fluid containment device 100 within a well is shown in
The packing element 120 of the annular fluid containment device 100 forms a seal to contain the fluid entering into the annular space above the annular fluid containment device 100. Hence, the fluid is prevented from reaching the production zone below the annular fluid containment device 100. At the same time, the venting provided by the annular fluid containment device 100 allows for equalization of gas pressure above and below the annular fluid containment device 100, preventing gas pressure from building below the annular fluid containment device 100 to an undesirable level. A hose or tubing can be connected to the upper gas port 144, and extended to the surface, or to a point above the height of expected fluid accumulation above the annular fluid containment device 100, to prevent the accumulated fluid above the annular fluid containment device 100 from flowing through the gas bypass of the annular fluid containment device 100 and into the production zone below the annular fluid containment device 100.
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It will be understood that the above-described embodiments of the invention are illustrative in nature, and that modifications thereof may occur to those skilled in the art. Accordingly, this invention is not to be regarded as limited to the embodiments disclosed herein, but is to be limited only as defined in the appended claims.
Claims
1. An annular fluid containment device adapted for placement into a well casing, comprising:
- a tubular main body having an outer surface, an inner surface, and upper and lower ends;
- at least one sealing assembly disposed about said main body and adapted to form a seal between the outer surface of said main body and an inner wall surface of said well casing;
- a tubular inner sleeve disposed within said main body, the inner sleeve having an outer surface, an inner surface, and upper and lower ends, wherein the outer surface of the inner sleeve is spaced apart from the inner surface of the main body to define an annular space therebetween;
- at least one upper seal disposed between the inner surface of the main body and the outer surface of the inner sleeve proximate to the upper end of the inner sleeve and above a location of said sealing assembly;
- at least one lower seal disposed between the inner surface of the main body and the outer surface of the inner sleeve proximate to the lower end of the inner sleeve and below the location of said sealing assembly;
- an upper fluid passage defined through said main body in communication with said annular space, the upper fluid passage being located above the position of said sealing assembly and below said upper seal; and
- a lower fluid passage defined through said main body in communication with said passage, the lower fluid passage being located below the position of said sealing assembly and above said lower seal.
2. The annular fluid containment device of claim 1, further comprising a fluid conduit connected to and extending from said upper fluid passage.
3. The annular fluid containment device of claim 1, wherein said at least one sealing assembly comprises a rubber seal.
4. The annular fluid containment device of claim 1, wherein said at least one sealing assembly comprises a plurality of rubber seals.
5. The annular fluid containment device of claim 1, further comprising an upper collar disposed at an upper end of said main body, the upper collar being configured for connection to a production tubing element.
6. The annular fluid containment device of claim 5, wherein a gas passage is formed in said upper collar in communication with said upper fluid passage.
7. The annular fluid containment device of claim 5, further comprising a lower collar disposed at an upper end of said main body, the lower collar being configured for connection to a production tubing element.
8. The annular fluid containment device of claim 1, wherein said at least one sealing assembly comprises at least one upper sealing assembly disposed proximate to the upper end of said main body, and at least one lower sealing element disposed proximate to the lower end of said main body.
9. The annular fluid containment device of claim 6, further comprising a fitting in communication with said gas passage and configured for connection to a tubing.
Type: Application
Filed: May 16, 2014
Publication Date: Nov 20, 2014
Inventor: Gerald BULLARD (Alliance, NE)
Application Number: 14/279,954
International Classification: E21B 33/00 (20060101);