Abstract: The completion assembly includes a conveyance device to bypass regions within a wellbore that may disrupt the desired distribution of gravel in a gravel pack. A packer is attached to an upper tubular, and generally run into wellbore until properly positioned and set near the lower end of upper section. Packer has an extension/crossover to which other lower completion equipment such as a conveyance device and a screen can attach. Conveyance device 22 may include an inner tubular within an outer tubular forming an annular flow path between the inner and outer tubulars. Conveyance device may include one or more discreet flow tubes placed around a lower tubular.

Abstract: The present invention provides for a conveyance device to bypass regions within a wellbore that may disrupt the desired distribution of gravel in a gravel pack.

Abstract: The present invention provides for a conveyance device to bypass regions within a wellbore that may disrupt the desired distribution of gravel in a gravel pack.

Abstract: Multiple pathways are provided by which fluid can enter one or more alternate pathway conduits. Entrance tubes can be arranged such that their spacing prevents all of them from being simultaneously obstructed, covered, or otherwise blocked.

Abstract: Methods and apparatus provide for the characterization of injected fluid flow within a wellbore. Particular embodiments include injecting a slurry comprising a particulate material and a carrier fluid into an isolated wellbore annulus and acquiring composite density readings at one or more discrete locations along the annulus while depositing the particulate material. Interpreting the acquired composite density readings provides an evaluation of the placement of the deposited particulate material within the isolated wellbore annulus. A further step may include determining when the slurry reaches each of the discrete locations as indicated by increases in the composite density reading at each of the discrete locations and furthermore, acquiring a maximum composite density reading at each of the discrete locations along the tubular member as an indication of the quantity of deposited particulate material at each of the discrete locations.

Abstract: The present invention provides for multiple pathways by which fluid can enter one or more alternate pathway conduits. Entrance tubes can be arranged such that their spacing prevents all of them from being simultaneously obstructed, covered, or otherwise blocked.

Abstract: This invention includes an apparatus and method for completing a subterranean zone penetrated by a wellbore. One embodiment of the invention is an apparatus for connecting a first sand screen assembly and a second sand screen assembly. The apparatus comprises a tubular housing having an eccentric longitudinal bore therethrough, providing a first fluid communication path through the apparatus, the longitudinal bore defining a housing wall. A longitudinal passageway is disposed within the housing wall, providing a second fluid communication path through the apparatus. The first fluid communication path is capable of communicating fluid flow from a sand screen in the first sand screen assembly to a sand screen in the second sand screen assembly. The second fluid communication path is capable of communicating fluid flow from an alternate path element in the first sand screen assembly an alternate path element in the second sand screen assembly.

Abstract: The present invention provides for multiple pathways by which fluid can enter one or more alternate pathway conduits. Entrance tubes can be arranged such that their spacing prevents all of them from being simultaneously obstructed, covered, or otherwise blocked.

Abstract: This invention provides improved apparatus and methods for completing a subterranean zone penetrated by a wellbore utilizing a gravel pack operation. One embodiment of the invention is an apparatus for completing a subterranean zone penetrated by a wellbore comprising a tubular member having a wall and a longitudinal bore. A plurality of apertures extend through the tubular member wall, the apertures define at least one radial arc and create at least one perforated radial aperture zone and at least one non-perforated radial blank zone. A screen member is attached to the exterior of the tubular member that covers the apertures. The placement of the apparatus within the wellbore creates an annular flow region that has a reduced tendency for premature dehydration of slurry during a gravel pack completion operation.

Abstract: Apparatus and methods for use in completing a subterranean zone penetrated by a wellbore include a tubular member having a first segment and a second segment, each segment containing a longitudinal bore. The tubular member forms an annulus between itself and the wellbore wall. At least one screen member at least partially encloses and is coupled to a second segment of the tubular member. The screen member and the enclosed second segment of the tubular member both have openings that allow fluid communication between the longitudinal bore of the tubular member and the wellbore. The apparatus includes an alternate flowpath member having a wall, upper and lower ends, and at least one aperture in its wall. The apertures are small enough to substantially prevent passage of particulate material. The alternate flowpath member extends longitudinally along a portion of the wellbore and creates a communication path for fluid flow.

Abstract: This invention provides improved apparatus and methods for completing a subterranean zone penetrated by a wellbore. One embodiment of the invention is an apparatus for connecting a first sand screen assembly and a second sand screen assembly. The apparatus comprises a tubular housing having an eccentric longitudinal bore therethrough, providing a first fluid communication path through the apparatus, the longitudinal bore defining a housing wall. A longitudinal passageway is disposed within the housing wall, providing a second fluid communication path through the apparatus. The first fluid communication path is capable of communicating fluid flow from a sand screen in the first sand screen assembly to a sand screen in the second sand screen assembly. The second fluid communication path is capable of communicating fluid flow from an alternate path element in the first sand screen assembly an alternate path element in the second sand screen assembly.

Abstract: This invention provides improved apparatus and methods for completing a subterranean zone penetrated by a wellbore utilizing a gravel pack operation. One embodiment of the invention is an apparatus for completing a subterranean zone penetrated by a wellbore comprising a tubular member having a wall and a longitudinal bore. A plurality of apertures extend through the tubular member wall, the apertures define at least one radial arc and create at least one perforated radial aperture zone and at least one non-perforated radial blank zone. A screen member is attached to the exterior of the tubular member that covers the apertures. The placement of the apparatus within the wellbore creates an annular flow region that has a reduced tendency for premature dehydration of slurry during a gravel pack completion operation.

Abstract: The present invention provides improved apparatus and methods for use in completing a subterranean zone penetrated by a wellbore. One aspect of the invention is an apparatus comprising a tubular member having a first segment and a second segment, each segment containing a longitudinal bore. The tubular member forms an annulus between itself and the wellbore wall. At least one screen member at least partially encloses and is coupled to a second segment of the tubular member. The screen member and the enclosed second segment of the tubular member both have openings that allow fluid communication between the longitudinal bore of the tubular member and the wellbore. The apparatus includes an alternate flowpath member having a wall, upper and lower ends, and at least one aperture in its wall. The apertures are small enough to substantially prevent passage of particulate material. The alternate flowpath member extends longitudinally along a portion of the wellbore and creates a communication path for fluid flow.

Abstract: A well screen having an internal, blank alternate flowpath for delivering fracturing fluid/gravel slurry to different levels within a well annulus. The well screen includes an outer pipe which is positioned over a base pipe thereby forming an annulus therebetween. The circumference of each pipe has a perforated sector and a blank sector, both of which extend along their respective lengths. When assembled, the respective perforated sectors are aligned to form a perforated, production sector and the respective blank sectors are aligned to form the blank, alternate flowpath. The base pipe is wrapped with wire to prevent solids from flowing through the openings therein. Slurry is pumped into the annulus where it flows circumferently from the blank, alternate flowpath to exit into the well annulus through the openings in the perforated sector of the annulus.