Abstract: The invention provides DNA compositions that relate to transgenic insect resistant maize plants. Also provided are assays for detecting the presence of the maize DAS-59122-7 event based on the DNA sequence of the recombinant construct inserted into the maize genome and the DNA sequences flanking the insertion site. Kits and conditions useful in conducting the assays are provided.

Abstract: A tray for a vaporization vessel that includes a tray having a side wall, a bottom plate, one or more apertures that extend through the bottom plate, and a duct that extends through and from the bottom plate. The tray configured to support a solid reagent to be vaporized. A method of assembling the tray that includes forming a first tray that has the side wall and the bottom plate. A vaporization vessel that includes one or more of the trays.

Abstract: An apparatus and methods of spacing a tool from walls of tubing are provided as embodiments of the present invention. The apparatus can include a centralizer that is inserted in the tubing, the centralizer having inwardly arched sides or inwardly arched bow springs so that an inner diameter of the centralizer increases from a longitudinal midpoint to a longitudinal end point of the centralizer. The centralizer has a smaller diameter than the tubing so that it can be positioned inside of the tubing downstream of a seating ring in a relaxed position so that when the tool passes through the centralizer, the inwardly arched sides or inverted bow springs expand towards an inner wall of the tubing to centralize and inhibit radial movement of the tool when deployed through the inwardly arched sides of the centralizer.

Abstract: An apparatus and methods of spacing a tool from walls of tubing are provided as embodiments of the present invention. The apparatus can include a centralizer that is inserted in the tubing, the centralizer having inwardly arched sides or inwardly arched bow springs so that an inner diameter of the centralizer increases from a longitudinal midpoint to a longitudinal end point of the centralizer. The centralizer has a smaller diameter than the tubing so that it can be positioned inside of the tubing downstream of a seating ring in a relaxed position so that when the tool passes through the centralizer, the inwardly arched sides or inverted bow springs expand towards an inner wall of the tubing to centralize and inhibit radial movement of the tool when deployed through the inwardly arched sides of the centralizer.

Abstract: Apparatus and methods of repairing an in-service pipeline, tank, and/or vessel are provided. Generally, a metal arc welding under oil process employing an automated metal arc welding setup with a continuous wire feed is utilized. The process may be used in connection with a smart pig to perform in-situ internal repairs of in-service pipelines, tanks, and/or vessels. For example, a pipeline pig or other device is contemplated that employs an internal power supply, a navigation system, and a metal arc welding under oil system that is able to travel vast distances within a pipeline to reach pipeline segments that are either buried underground, under highways, or underwater making access very difficult. Once at its desired location, the pipeline pig performs in-situ welding or other internal repairs to the in-service pipeline. The disclosed apparatus and methods provide great flexibility to the repair of pipelines, tanks, and/or vessels.

Abstract: A method of producing a well fluid includes securing a motor to a string of outer tubing and lowering the outer tubing and motor into the well. A rotary pump is secured to a string of inner tubing and lowered into the outer tubing. The pump stabs into cooperative engagement with the motor. Supplying power to the motor rotates the pump, causing well fluid to flow into the outer tubing to an intake of the pump, which pumps the well fluid through the inner tubing to an upper end of the well. Removing the well fluid allows gas to flow up an annulus surrounding the outer tubing to the upper end of the well.

Abstract: A through tubing conveyed electrical submersible pumping system for use in a wellbore. The system includes a tubing string with an attached deployed drive system having a pump motor and a pump engaging receptacle, a pumping assembly insertable into the tubing deployed system, and sealing elements on both the tubing string and pumping assembly. Engaging the sealing elements while inserting the pumping assembly forms a seal. The system further includes mating latch members on the pumping assembly and the tubing string, the latch members selectively activated by engaging one another. The latch may include locking fingers disposed on the pumping system and a shoulder protruding into the tubing string; wherein inserting the pumping system into the tubing deployed system locking fingers with the shoulder for securing the pumping system to the tubing string.

Abstract: Wellbore tubing having an annular seating member and an annular anti-rotation member can be used for one or more types of surface driven submersible pumps. In one embodiment, a stator and a rotor of a surface driven progressing cavity pump can be inserted into the tubing after the tubing is deployed. In one embodiment, a surface driven reciprocating pump can be inserted into the tubing, later withdrawn from the tubing, and then a progressing cavity pump can be inserted into the same tubing.

Abstract: A method of producing a well fluid includes securing a motor to a string of outer tubing and lowering the outer tubing and motor into the well. A rotary pump is secured to a string of inner tubing and lowered into the outer tubing. The pump stabs into cooperative engagement with the motor. Supplying power to the motor rotates the pump, causing well fluid to flow into the outer tubing to an intake of the pump, which pumps the well fluid through the inner tubing to an upper end of the well. Removing the well fluid allows gas to flow up an annulus surrounding the outer tubing to the upper end of the well.

Abstract: A through tubing conveyed electrical submersible pumping system for use in a wellbore. The system includes a tubing string with an attached deployed drive system having a pump motor and a pump engaging receptacle, a pumping assembly insertable into the tubing deployed system, and sealing elements on both the tubing string and pumping assembly. Engaging the sealing elements while inserting the pumping assembly forms a seal. The system further includes mating latch members on the pumping assembly and the tubing string, the latch members selectively activated by engaging one another. The latch may include locking fingers disposed on the pumping system and a shoulder protruding into the tubing string; wherein inserting the pumping system into the tubing deployed system locking fingers with the shoulder for securing the pumping system to the tubing string.

Abstract: A progressing cavity pump (PCP) system that may be deployed in an existing well configuration without the need for a workover rig. A stator and tubing stop are first set in a conduit, such as production tubing, at a desired depth. In subsequent wireline runs, a pack-off and upper tubing stop are installed above the stator, which results in the stator assembly being set by tubing stops on top and bottom and results in the conduit above the PCP being isolated from the wellbore below. Installation of the system is completed by installing the rotor and by installing top-side drive equipment in the usual way. The PCP system allows the deployment of lift systems within existing well configurations without any element being deployed on tubing and provides the ability to retrofit a well with an insertable pump within existing tubing.

Abstract: A measuring apparatus and method for use in measuring diffusible hydrogen concentrations in materials, structures, and other objects. In an embodiment of the invention for use in welding applications, the measuring apparatus (10) includes a sensor assembly (20) that, with an included sealing member (40), defines a sample area (17) on a weld bead (16) from which hydrogen evolves into a sample volume (18) defined by the sealing member (40), a sensor housing (34) and a sensor (22) of the sensor assembly (20). The hydrogen reacts with a sensing layer (28) and a reflector layer (30) positioned on the end of an optical fiber (24), all of which are included in the sensor assembly (20) and are sealably positioned within the sensor (22).

Abstract: A gas dissipation chamber, installed between the tubing crossover and the production tubing string, for a through tubing conveyed ESP pumping system prevents gas discharged from the gas separator from entering the pump intake and subsequently gas locking the pumping system. The gas dissipation chamber secures to a lower end of production tubing. An electrical motor assembly is suspended on the lower end of the chamber. The gas separator and the pump are lowered through the tubing and land in the chamber in operative engagement with the motor assembly. Well fluid flows into the chamber to the separator, and gas separated by the separator vents out of the chamber into the casing. Liquid separated from the well fluid by the separator is pumped by the pump into the production tubing.

Abstract: A hydraulic washer or spacer is used to reduce friction between a planet gear and the planet carrier. The washer has a top side and a bottom side, an inner diameter and an outer diameter. A mating profile extends from the inner diameter to the outer diameter along the bottom side adjacent the planet gear. The top side has a pumping land, pressure pocket, and bearing surface arranged from the inner diameter to the outer diameter respectively. The pumping land extends from the inner diameter outward radially to the pressure pocket. The pressure pocket is recessed relative to the pumping land and extends from the pumping land outward radially to a containment edge. The containment edge is raised relative to the pressure pocket and pumping land. Extending from the containment edge to the outer diameter is a bearing surface that is also raised relative to the pressure pocket and pumping land. As the washer rotates, the surrounding fluid is subject to centrifugal forces.

Abstract: A gas dissipation chamber, installed between the tubing crossover and the production tubing string, for a through tubing conveyed ESP pumping system prevents gas discharged from the gas separator from entering the pump intake and subsequently gas locking the pumping system. The gas dissipation chamber secures to a lower end of production tubing. An electrical motor assembly is suspended on the lower end of the chamber. The gas separator and the pump are lowered through the tubing and land in the chamber in operative engagement with the motor assembly. Well fluid flows into the chamber to the separator, and gas separated by the separator vents out of the chamber into the casing. Liquid separated from the well fluid by the separator is pumped by the pump into the production tubing.

Abstract: A hydraulic washer or spacer is used to reduce friction between a planet gear and the planet carrier. The washer has a top side and a bottom side, an inner diameter and an outer diameter. A mating profile extends from the inner diameter to the outer diameter along the bottom side adjacent the planet gear. The top side has a pumping land, pressure pocket, and bearing surface arranged from the inner diameter to the outer diameter respectively. The pumping land extends from the inner diameter outward radially to the pressure pocket. The pressure pocket is recessed relative to the pumping land and extends from the pumping land outward radially to a containment edge. The containment edge is raised relative to the pressure pocket and pumping land. Extending from the containment edge to the outer diameter is a bearing surface that is also raised relative to the pressure pocket and pumping land. As the washer rotates, the surrounding fluid is subject to centrifugal forces.

Abstract: A submersible pump assembly suspended on a string of tubing in a well has a valve that drains the tubing above the pump when the pump shuts down. The valve includes a valve housing installed with the tubing string above the submersible pump assembly. The valve housing has an interior in communication with fluid in the string of tubing above the valve housing, and a shunt port communicating the interior of the valve housing with an annulus surrounding the string of tubing. A valve cage is slidably received within the valve housing for movement between upper and lower positions. The valve cage blocks communication through the shunt port while in the upper position, and while in the lower position, opens the shunt port. A valve seat is located in the valve cage, and a valve member moves between a lower position, sealingly engaging the valve seat, and an upper position, allowing flow through the valve seat from the pump to the tubing string.

Abstract: A valve having a linear actuator operating a tube compression rod. The rod is held in a common axial orientation with a section of flexible tubing that runs through the valve and is rigidly held therein between the compression rod and a tube platen. The flexible tube section is fluidly connected on one end thereof to a pump that delivers a viscous material thereto from a source thereof. The opposite end of the flexible tube section is fluidly connected to a dispense point. In operation, the linear actuator is operable between an extended position wherein the compression rod moves to partially occlude or compress the flexible tube section against the tube platen, and a retracted position wherein the flexible tube section is not compressed. Dispensing of the viscous substance is commenced by actuation of a switch operating the pump. During operation of the pump, the chamber valve is in its extended position wherein the flexible tube section is partially occluded.

Abstract: A progressive cavity pump housing is secured to the lower end of a string of tubing. A motor is secured to the progressive cavity housing. An electrical power cable is strapped to the motor alongside the tubing. The pump has a pump rotor located within a stator. The pump rotor has a driven shaft extending downward from its lower end which mates with a drive shaft extending upward from the motor. When the pump reaches the motor, the driven shaft will stab into the drive shaft. The upper end of the pump rotor extends above the stator and is configured to engage an overshot retrieval tool. To retrieve the rotor, the operator lowers an overshot retrieval tool through the production tubing and latches it to the upper end of the pump rotor. The operator pulls the rotor out of the pump, thereby disengaging the rotor from the drive shaft of the motor, and leaving the remainder of the pump and the motor in place.