Patent application number | Description | Published |
20100051262 | Sand Control Screen Assembly and Method for Use of Same - A sand control screen assembly ( | 03-04-2010 |
20110011577 | SAND CONTROL SCREEN ASSEMBLY AND METHOD FOR USE OF SAME - A sand control screen assembly ( | 01-20-2011 |
20110011586 | SAND CONTROL SCREEN ASSEMBLY AND METHOD FOR USE OF SAME - A sand control screen assembly ( | 01-20-2011 |
20110297376 | Sand Control Screen Assembly Having Control Line Capture Capability - A sand control screen assembly having control line capture capability is operable for use in a subterranean wellbore. The sand control screen assembly includes a base pipe having a screen jacket positioned therearound for preventing the flow of particulate material of a predetermined size therethrough and allowing the flow of production fluids therethrough. The sand control screen assembly also includes a control line capture assembly. The control line capture assembly includes an axially extending flange that couples to the screen jacket and is operable to protect the control line during installation and operation of the sand control screen in the wellbore. The control line capture assembly also includes an axially extending spring channel that couples to the flange. The channel is operable to receive and retain the control line during installation and operation of the sand control screen in the wellbore. | 12-08-2011 |
20120073801 | Sand Control Screen Assembly Having a Mechanically Attached Screen Jacket - A sand control screen assembly ( | 03-29-2012 |
20130048301 | Downhole Fluid Flow Control System and Method having Dynamic Response to Local Well Conditions - A downhole fluid flow control system having dynamic response to local well conditions. The system includes a tubing string operably positionable in a wellbore. Annular barriers are positioned between the tubing string and the wellbore to isolate first and second zones. A fluid flow control device is positioned within each zone. A flow tube that is operably associated with the fluid flow control device of the first zone is operable to establish communication between the second zone and the fluid flow control device in the first zone such that a differential pressure between the first zone and the second zone is operable to actuate the fluid flow control device of the first zone from a first operating configuration to a second operating configuration. | 02-28-2013 |
20130092394 | Well Screen with Extending Filter - A well screen assembly for a wellbore includes a base pipe and a filter assembly carried on the base pipe. The filter assembly has an internal passage in fluid communication with an opening through the base pipe. A swell material is carried in the base pipe between the filter assembly and the base pipe. The swell material is adapted to expand under specified conditions and displace the filter assembly radially toward a wall of the wellbore. A flow control device is provided in fluid communication between the internal passage of the filter assembly and the opening in the base pipe and is adapted to restrict communication of fluid with the opening in the base pipe. The well screen assembly can include a hydraulic, electric or optical communication line running axially through a length of the well screen assembly. | 04-18-2013 |
20130186634 | Downhole Fluid Flow Control System Having a Fluidic Module with a Bridge Network and Method for Use of Same - A downhole fluid flow control system includes a fluidic module ( | 07-25-2013 |
20130213667 | Well Flow Control with Multi-Stage Restriction - A well screen assembly includes a tubular base pipe. The base pipe has a sidewall aperture that communicates fluid between an interior central bore of the base pipe and an exterior of the base pipe. A filtration screen is around the base pipe. The filtration screen defines a lateral fluid passage along a axial length of the well screen assembly. A flow control device is coupled to the base pipe and the filtration screen. The flow control devices includes a ring sealing the lateral fluid passage from the central bore. An elongate restrictor passage is in the ring, oriented longitudinally. The elongate restrictor passage is configured to communicate fluid between the lateral fluid passage and the central bore. The restrictor passage includes an internal, square edged orifice defined by a fixed, annular protrusion. The annular protrusion extends inwardly from an interior surface of the restrictor passage. | 08-22-2013 |
20130220632 | Adjustable Flow Control Device - A flow control device comprises a fluid pathway configured to provide fluid communication between an exterior of a wellbore tubular and an interior of the wellbore tubular, a flow restriction disposed in a fluid pathway, a flow blockage disposed in the fluid pathway, and a retaining member configured to maintain the flow blockage within the fluid pathway and allow access to the flow blockage within the fluid pathway. The flow blockage substantially prevents a fluid flow through the fluid pathway. | 08-29-2013 |
20130264072 | Adjustable Flow Control Device - A flow control device comprises a fluid pathway configured to provide fluid communication between an exterior of a wellbore tubular and an interior of the wellbore tubular, a flow restriction disposed in the fluid pathway, wherein the flow restriction is disposed in a radial alignment with respect to the wellbore tubular, and a flow blockage disposed in the fluid pathway, wherein the flow blockage substantially prevents a fluid flow through the fluid pathway. | 10-10-2013 |
20130276901 | Apparatus, Systems and Methods for a Flow Control Device - A flow control device for control of fluid flow through a tubular member comprises a control chamber having a piston disposed therein, where the piston is moveable from an open piston position to a closed piston position by the application of a first fluid pressure, and a valve chamber having a valve therein, where the valve is moveable from a closed valve position to an open valve position by the application of a second fluid pressure. A seal preventing fluid flow through the control chamber into the tubular member is formed in the closed piston position, and a flow path through the valve chamber and into the tubular member is formed in the open valve position. | 10-24-2013 |
20130277059 | Apparatus, Systems and Methods for Bypassing a Flow Control Device - A bypass assembly for use in a downhole tool comprises a chamber, a first fluid port in fluid communication with the chamber, a second fluid port in fluid communication with the chamber, a flow restrictor disposed in a first flow path between the first fluid port and the second fluid port, a piston moveable in a first direction by the application of a first fluid pressure, a biasing member, and a restraining member disposed adjacent to the piston. The biasing member biases the piston to move in a second direction opposite the first direction, and the restraining member is actuated by movement of the piston in the first direction in response to a predetermined fluid pressure. Movement of the piston in the second direction to a predetermined position configures the bypass assembly to divert fluid flow around the flow restrictor along a second flow path. | 10-24-2013 |
20140000871 | Porous Medium Screen | 01-02-2014 |
20140008066 | Shunt Tube Assembly Entry Device - A shunt tube entry device comprises one or more inlet ports, a shroud disposed at least partially about a wellbore tubular, and a shunt tube in fluid communication with the chamber. The shroud defines a chamber between the shroud and the wellbore tubular, and the chamber is in fluid communication with the one or more entry ports. | 01-09-2014 |
20140020898 | Sacrificial Plug for Use With a Well Screen Assembly - A well screen assembly for use downhole comprises a fluid pathway configured to provide fluid communication between an exterior of a wellbore tubular and an interior of the wellbore tubular, a flow restrictor disposed in the fluid pathway, and a plug disposed in series with the flow restrictor in the fluid pathway. The plug substantially prevents a fluid flow through the fluid pathway. The plug is configured to be at least partially dissolvable when contacted by a fluid, and the fluid comprises a chemical configured to dissolve the plug. | 01-23-2014 |
20140027104 | Actuation Assembly for Downhole Devices in a Wellbore - Certain aspects and features of the present invention are directed to an actuation assembly that can be disposed in a wellbore through a fluid-producing formation. The actuation assembly can include a body, a potential force in the body, and a device in the body. The device can cause the potential force to be released from the body in response to receiving a signal identifying a target device disposed in the wellbore. | 01-30-2014 |
20140034570 | Porous Medium Screen - Certain aspects and embodiments of the present invention are directed to a porous medium screen that can be disposed in a wellbore through a fluid-producing formation. The porous medium screen can include a porous medium and a retaining structure. The porous medium can be a material having one or more pores. The one or more pores can be adapted to allow a fluid to flow through the porous medium and to prevent one or more particles from flowing through the porous medium. The retaining structure can be adapted to retain the porous medium in a position circumferentially surrounding a section of a tubing string and to prevent expansion of the porous medium. The retaining structure can include a shroud and one or more stoppers. The shroud can be adapted to circumferentially surround the porous medium. Each stopper can be adapted to circumferentially surround the section of a tubing string at an edge of the porous medium. | 02-06-2014 |
20140076580 | Alternative Path Gravel Pack System and Method - A well screen system comprises a wellbore tubular and a coiled shunt tube disposed along the wellbore tubular. The coiled shunt tube is configured to be unwound from a reel. A method of gravel packing comprises passing a slurry through a coiled shunt tube, passing the slurry from the coiled shunt tube to an annulus between an outside of a sand screen assembly and a wellbore wall, disposing the slurry about the sand screen assembly, and forming a gravel pack in response to disposing the slurry about the sand screen assembly. The coiled shunt tube is disposed along the sand screen assembly. | 03-20-2014 |
20140174750 | Liquid Valve for Flow Control Devices - Certain aspects of the present invention are directed to a liquid valve assembly that can be disposed in a wellbore through a fluid-producing formation. The liquid valve assembly can include a housing and a liquid valve. The housing can define an inner chamber and an opening adapted to allow fluid to flow between the inner chamber and a passageway. The liquid valve can be disposed in the inner chamber. The liquid valve can include a yield stress fluid. The yield stress fluid can prevent fluid from flowing between the inner chamber and the passageway. | 06-26-2014 |
20140182856 | Downhole Fluid Flow Control System and Method having Dynamic Response to Local Well Conditions - A downhole fluid flow control system having dynamic response to local well conditions. The system includes a tubing string operably positionable in a wellbore. Annular barriers are positioned between the tubing string and the wellbore to isolate first and second zones. A fluid flow control device is positioned within each zone. A flow tube that is operably associated with the fluid flow control device of the first zone is operable to establish communication between the second zone and the fluid flow control device in the first zone such that a differential pressure between the first zone and the second zone is operable to actuate the fluid flow control device of the first zone from a first operating configuration to a second operating configuration. | 07-03-2014 |
20140251627 | Mechanically Adjustable Flow Control Assembly - A flow control assembly can be mechanically adjusted, rotationally or translationally, inside a tubing downhole between multiple positions by an intervening tool from the surface to change resistivity to flow through the flow control assembly. The positions among which the flow control assembly can be adjusted can include a closed position, a fully open position, and positions at which fluid experiences various resistances prior to flowing to an inner area of the tubing. | 09-11-2014 |