RELATED APPLICATION

[0001] This application claims priority from U.S. Provisional Patent Application Serial No. 62/056,052, filed on September 26, 2014.

FIELD

[0002] The present disclosure relates to a valve apparatus for use downhole within a wellbore for facilitating production of hydrocarbons from a reservoir.

BACKGROUND

[0003] Wellbore completions include ports that are configured for receiving hydrocarbons from a reservoir in order to effect production of the reservoir. In reservoirs where hydraulic treatment, such as by hydraulic fracturing, is used in order to render the reservoir producible, production may only be enabled if the fracture within the reservoir extends to the port. If the fracture does not extend to the port, it is difficult to effect production of those hydrocarbons within the fracture.

SUMMARY

[0004] In one aspect, there is provided there is provided a valve apparatus for disposition within a wellbore that is disposed within a subterranean formation, wherein the valve apparatus includes a housing including: (a) an outermost surface, (b) a fluid passage defined within the housing, (c) a port extending through the housing for effecting fluid communication between the reservoir and the fluid passage, (d) a first groove disposed on the outermost surface and defining a first fluid channel, for conducting reservoir fluid to the port, and extending from an outermost surface portion of the outermost surface to the port, wherein the minimum distance between the outermost surface portion and the port is at least two (2) inches, and a closure member displaceable relative to the port for effecting opening and closing of the port.

[0005] In another aspect, a valve apparatus for disposition within a wellbore that is disposed within a subterranean formation, the apparatus comprising: a housing including (a) an outermost surface, (b) a fluid passage defined within the housing, (c) a port extending through the housing for effecting fluid communication between the reservoir and the fluid passage, and (d) a first fluid channel defined by a groove disposed on the outermost surface, the first fluid channel extending from an outermost surface portion of the outermost surface to the port, and a closure member, displaceable relative to the port, for effecting opening and closing of the port, wherein the housing includes a cross-section taken at the port, and a perimeter of the housing is defined along the outermost surface of the housing disposed along the cross-section, and the outermost surface portion, from which the first fluid channel extends, is disposed along the perimeter and is spaced apart from the port by a perimetral distance that is at least about 25% of the distance about the entire perimeter.

BRIEF DESCRIPTION OF DRAWINGS

[0006] The preferred embodiments will now be described with the following accompanying drawings, in which:

[0007] Figure 1 is a front elevation view of the valve apparatus;

[0008] Figure 2 is a cross-sectional view of the housing of the valve apparatus of Figure 1, taken at the port, and illustrating a perimeter of the housing defined along the outermost surface of the housing disposed along the cross-section, and further illustrating the disposition of the outermost surface portion along the perimeter and in spaced apart relationship relative to the port by a perimetral distance that is at least about 25% of the distance about the entire perimeter;

[0009] Figure 3 is a sectional elevation view of the valve apparatus in Figure 1, illustrating the port in a closed condition; and

[0010] Figure 4 is a sectional elevation view of the valve apparatus in Figure 1, illustrating the port in an open condition.

DETAILED DESCRIPTION

[0011] Referring to Figures 1 to 4, there is provided a valve apparatus 10 for use within a wellbore that is disposed within a subterranean formation and intersecting a hydrocarbon reservoir.

[0012] The valve apparatus 10 may be incorporated within a wellbore string. In some embodiments, for example, the wellbore string includes a casing string that is cemented to the subterranean formation. In this respect, in some embodiments, for example, the valve apparatus 10 may be a sub, a collar, a tubular, a casing joint, or a casing section.

[0013] Referring to Figure 1, the valve apparatus 10 includes a housing 12. The housing 12 includes an outermost surface 14, a fluid passage 16, a port 18, and a groove 20.

[0014] The fluid passage 16 is defined with the housing 12 and is configured to conduct fluid being supplied to the port 18 from the surface (such as treatment fluid), as well reservoir fluid being produced from the reservoir.

[0015] The port 18 extends through the housing 12 for effecting fluid communication between the reservoir and the fluid passage 16.

[0016] The groove 20 is disposed on the outermost surface 14 and define a first fluid channel 22 extending from an outermost surface portion 24 of the outermost surface 14 to the port 18 provided in the valve apparatus 10. Such fluid channel 22 may facilitate fluid communication between fractures that are naturally present, or have been artificially created by hydraulically fracturing a reservoir, and the port 18, so that hydrocarbons within the fracture can be conducted to the port 18. Without such fluid channel 22, it may be more difficult to produce hydrocarbons disposed within fractures that do not perfectly intersect the port 18.

[0017] The valve apparatus further includes a closure member 26 that is displaceable relative to the housing 12 for effecting opening and closing of the port 18.

[0018] In one aspect, the minimum distance between the outermost surface portion 24 and the port 18 is at least two (2) inches. [0019] In another aspect, and referring to Figure 2, the housing 12 includes a cross-section taken at the port, and a perimeter 15 of the housing 12 is defined along the outermost surface 14 of the housing 12 disposed along the cross-section, and the outermost surface portion 24 (from which the first groove 20 extends) is disposed along the perimeter 15 and is spaced apart from the port 18 by a perimetral distance that is at least about 25% of the distance about the entire perimeter 15. In some embodiments, for example, the perimetral distance is at least about 50% of the distance about the entire perimeter. In some embodiments, for example, the perimetral distance is at least about 75% of the distance about the entire perimeter. In some embodiments, for example, the perimetral distance is the distance about the entire, or substantially the entire, perimeter.

[0020] In some embodiments, for example, the first groove is machined into the outermost surface 14.

[0021] In some embodiments, for example, the first groove 20 is disposed circumferentially about the outermost surface 14.

[0022] In some embodiments, for example, the first groove is helical or substantially helical.

[0023] In some embodiments, for example, the first groove 20 is characterized by a minimum depth of at least 0.125 inches, such as, for example, at least 0.3 inches.

[0024] In some embodiments, for example, the first groove 20 is characterized by a minimum cross-sectional area per inch of at least 0.15 square inches per inch.

[0025] In some embodiments, for example, the first groove 20 is characterized by a minimum depth of at least 0.3 inches, a minimum width of at least 0.125 inches, and at least four (4) threads per inch.

[0026] In some embodiments, for example, the axis of the first fluid channel 22 diverges from the axis of the housing fluid passage 16.

[0027] In some embodiments, for example, the closure member 26 is disposed within and coupled to the housing 12. [0028] In some embodiments, for example, the closure member 26 includes a sleeve.

[0029] In some embodiments, for example, the housing 12 further includes a second groove 21 defining a second fluid channel 23, wherein the second groove 21 intersects the first groove 20. In some of these embodiments, for example, the second fluid channel 23 has an axis, and the length of the axis is at least two (2) inches.

[0030] In some embodiments, for example, the first and second grooves 20, 21 are disposed on a region of the outermost surface 14 that is recessed into the housing 10. This recessed region is provided so as to mitigate the risk of cement retarder, which may be applied to this region, from being removed while the valve apparatus 10 is being deployed downhole.

[0031] In some embodiments, for example, a wellbore string is provided including a casing string including any one of the embodiments of the valve apparatus 10 described above. In some embodiments, for example, the wellbore string is disposed within a wellbore. In some embodiments, for example, the casing string is cemented to the subterranean formation.

In the above description, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the present disclosure. However, it will be apparent to one skilled in the art that these specific details are not required in order to practice the present disclosure. Although certain dimensions and materials are described for implementing the disclosed example embodiments, other suitable dimensions and/or materials may be used within the scope of this disclosure. All such modifications and variations, including all suitable current and future changes in technology, are believed to be within the sphere and scope of the present disclosure. All references mentioned are hereby incorporated by reference in their entirety.