The present invention relates to a well tool device with a frangible glass body.
Frangible well plugs are commonly used in tools for oil and/or gas wells. These plugs provide a pressure barrier in the tool, for example during periodic or permanent isolation of zones in the well, during well integrity testing, etc.
These frangible well plugs have a frangible barrier element in the form of a frangible disc or other frangible bodies made from glass, hardened glass, ceramics etc. The barrier element is provided in a seat in a metal housing. The barrier element may be removed by means of various techniques, where the purpose is to disintegrate the element into small pieces.
An example of a glass plug is known from NO 321 976 (TCO AS). The plug comprises a number of layered or stratified ring discs of a given thickness, which are placed in abutment on top of one another. Between the different layers of the plug an intermediate film of plastic, felt or paper is inserted; the various glass layers may also be joined by means of lamination by an adhesive such as a glue. During use the plug will be mounted in a plug-receiving chamber in a tubing, where the underside of the plug rests in a seat at the bottom of the chamber. An explosive charge is furthermore incorporated in the top of the plug by one or more recesses being drilled out from the top of the plug, in which recesses the explosive charge(s) are placed.
Another example is known from NO 20130427(Vosstech AS). Here, the plug has one glass disc, which may be disintegrated by a radial pin or loading device being pushed into the glass disc.
With the above prior art well plugs, different types of seals are used between the metal and the glass. Often, one type of seal (typically o-ring) is used circumferentially around the glass disc to avoid fluid flow in the area between the glass disc and the metal housing. A second type of seal is used in the upper part and lower part of the seat to avoid contact between the glass disc and the metal housing, as is it known for the skilled person that such contact will cause an undesired breaking of the glass disc when the differential fluid pressure is increasing above a certain level.
There are several disadvantages with the above well tools. Some of the disintegration methods are complex and hence expensive, others, such as the use of explosives, are not desirable due to safety regulations topside.
Accordingly, the main object of the invention is to provide a well tool device with a frangible glass body which may be disintegrated in an easy and reliable way.
The present invention is defined in the appended claims 1 and 10. Aspects of the invention is defined in the dependent claims.
Embodiments of the invention will now be described in detail with reference to the enclosed drawings, where:
First,
A frangible glass body, in prior art often shaped as a disc 20, is provided in the seat 40, and comprises upper and lower chamfered supporting surfaces 20a, 20b and an side surface 20c, corresponding to the surfaces of the seat 40. In the present embodiment, the frangible disc 20 is made of a hardened glass material.
Seals, generally referred to with reference number 30, are provided between the frangible disc 20 and the seat 40. A first type of seal, typically a side sealing element such as an o-ring, is provided around the frangible disc 20 between the side surfaces 20c, 40c and is shown with reference number 30c. This side sealing element 30c prevent fluid flow in the area between the housing and the body 20.
A second type of seal is provided between the upper chamfered surfaces 20a, 40a and is hereinafter referred to as upper sealing element 30a. Another seal of the second type of seal is provided between the lower chamfered surfaces 20b, 40b and is hereinafter referred to as lower sealing element 30b. As mentioned in the introduction, the second type of seal is a contact-preventing seal to prevent contact between the glass material of the frangible disc 20 and the metal material of the seat 40.
The housing 10 typically comprises first and second housing portion s 10a, 10b connected to each other via a threaded connection indicated by the dashed line 14 in
It should be noted that the term “upper” is used herein to describe the side of the well tool device 1 being closest to the topside of the well, while the term “lower” is used to describe the side of the well tool device 1 being closest to the bottom of the well, when the well tool device 1 is lowered into a oil/gas well.
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In the present invention, the frangible glass body 20 comprises a barrier portion 21 and a neck portion 22. It should be noted that the body 20 is provided as one glass body 20, i.e. the portions 21 and 22 are not separate glass parts connected to each other or fixed to each other.
The barrier portion 21 of the body 20 is supported by the seat 40. Hence, the barrier portion 21 is comprising the upper and lower chamfered supporting surfaces 20a, 20b. The barrier portion 21 also comprises the side surface 20c. Accordingly, the sealing device 30 comprising the upper and lower sealing elements 30a, 30b and the side sealing element 30c are provided in contact with the barrier portion 21.
The neck portion 22 is protruding in the direction of the through bore 12. As shown in
Preferably, the neck portion 22 is protruding upwardly, towards the top side of the well. In
Preferably, the barrier portion 21 and the neck portion 22 have a coinciding center axis I. Moreover, it is preferred that the frangible glass body 20 is cylindrical symmetric around its longitudinal center axis I, i.e. the body 20 will have the same cross sectional shape when viewed from the side independent of the position of the rotation of the body 20 around the longitudinal axis I.
As float glass of sufficient quality today only is available at a thickness up to 25 mm, the present invention is not possible to produce by means of float glass. Hence, in a preferred embodiment, industrial glass is used. Industrial glass is available in rectangular blocks or cylinders. Several types of industrial glass are possible to use, for example crown glass, which is a type of optical glass typically used in lenses and other optical components. One type of such crown glass is borosilicate glass, often shortened as BK7.
In order to obtain the shape described herein, the industrial glass is heated and then shaped to the desired shape. Alternatively, the industrial glass may be grinded and polished to obtain the desired shape. It may be difficult to obtain accurate angles without grinding, therefore, the embodiment shown in
Here, the diameter D23 of the transitional cylindrical portion 23 is smaller than the diameter D21 of the barrier portion 21 and larger than the diameter D24 of the lower neck portion 24. As shown in
It should be noted that smaller inaccuracies and variations in the diameter of the transitional portion 23 and the neck portion 22 are fully acceptable. However, the chamfered surfaces 20a, 20b and the side surface 20c will require a grinding and/or polishing process as required today in order to obtain a sufficient support and seal with respect to the seat 40. However, the invention is not limited to such a grinding and/or polishing process of the glass body, as it is believed that future sealing devices 30 may not require the same accuracy of the glass body as today.
It has been found that the hardening process will provide the best results when the thickness of the glass body is not variating too much. Hence, it is preferred that the height H21 of the barrier portion 21 is substantially equal to the diameter D24 of the lower neck portion 24. Moreover, the tapering end portion 25 should not be too thin, i.e. the diameter D25 should not be much smaller than the diameter D24.
In order to achieve an approximately homogenous thickness of the glass body, a recess 26 is provided centrally in the barrier portion 21 on the opposite side of the neck portion 22. As shown in
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Preferably, the disintegration tool 100 comprises a tapering end portion 102 having a diameter D102 being smaller than the diameter D101 of the elongated body 101.
As described above, either the diameter D102 of a part of the tapering end portion 102 or the diameter D101 of the elongated body 101 is smaller than either the available space A25 or A24 between the outer surface of the neck portion 22 and the inner surface 11 of the housing 10 in order to be inserted into the annular compartment.
Moreover, either the diameter D102 of a part of the tapering end portion 102 or the diameter D101 of the elongated body 101 is larger than available space A25 or A24 between the outer surface of the neck portion 22 and the inner surface 11 of the housing 10, as this will force the neck portion 22 sideways and initiate the disintegration of the frangible glass body 22 by breaking the neck portion 22. Such a hardened glass body 20 will shatter into small glass fragments when a part of the glass body 20 is broken in this way.
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Here, the housing 10 is provided inside a plug mandrel 16 having a top 15 to which a setting and/or retrieval tool can be connected. A ratchet and lock ring mechanism between the housing 10 and the plug mandrel 16 is indicated by numbers 16a, 16b.
The well tool device 1 described herein may be a part of a plugging device, such as a bridge plug. The housing 10 will then typically be a part of the mandrel of the plugging device. The well tool device 1 may also be a part of a completion string, where the purpose of the frangible glass body is used to pressure test the completion string, and when the frangible disc is removed in order to start the production from the well. The housing 10 will here typically be a part of the completion string. The well tool device 1 may also be a part of other well tools where a temporary barrier is needed.
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Accordingly, the well tool device 1 is here used as a debris catcher.
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Number | Date | Country | Kind |
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20160002 | Jan 2016 | NO | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/050024 | 1/2/2017 | WO | 00 |