An apparatus (10; 110; 310) for conveying a tool (12; 112; 312) into and/or from a well installation (W) comprises a conveying arrangement (16; 116; 316) configured for coupling to a housing (14; 114; 314) for receiving the tool to be conveyed (12; 112; 312). The conveying arrangement (16; 116; 316) includes an actuator arrangement (28; 128; 328) configurable between a retracted configuration and an extended configuration. The apparatus (10; 110; 310) is configured for location on a wellhead (WH) of the well installation (W), movement of the actuator arrangement (28; 128; 328) between the retracted configuration and the extended configuration moving the tool to be conveyed (12; 112; 312) into and/or from the housing (14; 114; 314) and thus into and/or from the well installation (W).

A reciprocating pump includes a frame for a power end, a skid support structure integrally formed at a base of the power end frame to provide proper support and rigidity for the pump power end, where the integral skid support structure has a plurality of struts forming a series of chambers.

A head for a well tubular. The well tubular head includes features that may be applied to a casing head or a tubing head. The well tubular head includes a bowl tubular reversibly connected with a casing connector. The bowl tubular is adapted for connecting with an uphole component of an equipment stack or other system. The bowl tubular includes a hanger profile for receiving a casing hanger or tubing hanger. The casing connector is adapted for connecting with the casing. The bowl tubular and the casing connector may be replaced independently of each other. Removable connection points for flow lines may be included on the well tubular head to facilitate changing flow lines or flow line connection points. The bowl tubular may include a drive system for rotating tubing.

A head for a well tubular. The well tubular head includes features that may be applied to a casing head or a tubing head. The well tubular head includes a bowl tubular reversibly connected with a casing connector. The bowl tubular is adapted for connecting with an uphole component of an equipment stack or other system. The bowl tubular includes a hanger profile for receiving a casing hanger or tubing hanger. The casing connector is adapted for connecting with the casing. The bowl tubular and the casing connector may be replaced independently of each other. Removable connection points for flow lines may be included on the well tubular head to facilitate changing flow lines or flow line connection points. The bowl tubular may include a drive system for rotating tubing.

A dual-open entry injector head positioning system installed on support structures, such as conventional lifting frames, utilized over wells on offshore vessels. The injector head positioning system is lighter and more compact than conventional equipment positioning systems, while permitting simultaneous deployment of multiple intervention systems (such as, for example, continuous tubing and wireline) from said lifting frame.

A dual-open entry injector head positioning system installed on support structures, such as conventional lifting frames, utilized over wells on offshore vessels. The injector head positioning system is lighter and more compact than conventional equipment positioning systems, while permitting simultaneous deployment of multiple intervention systems (such as, for example, continuous tubing and wireline) from said lifting frame.

A self-erecting launcher assembly includes a mobile unit, and a magazine positioned in a receptacle of the mobile unit. The magazine includes a plurality of drones. A rail unit is secured to the mobile unit and moves between a closed position and an elevated position. A platform may be secured to the rail unit and is movable in an upward direction and a downward direction along a length of the rail unit. The platform is movable when the rail unit is in its elevated position. The magazine or the plurality of drones may be positioned on the platform, such that the platform moves the magazine or the plurality of drones from the mobile unit to at least one wellhead. A manipulator arm is secured to the platform and selects a drone of the plurality of drones and delivers the selected drone into a lubricator positioned at the wellhead.

A fluid conduit assembly for a fluid supply system includes a low-pressure monobore conduit assembly having a low-pressure monobore conduit and low-pressure outlets. The low-pressure outlets are configured to direct low-pressure fluid from the low-pressure monobore conduit to pumps. At least one first low-pressure outlet is positioned on a first side of the low-pressure monobore conduit, and at least one second low-pressure outlet is positioned on a second side of the low-pressure monobore conduit. The fluid conduit assembly includes a high-pressure monobore conduit assembly having a high-pressure monobore conduit and high-pressure inlets. The high-pressure inlets are configured to direct high-pressure fluid from the pumps to the high-pressure monobore conduit. At least one first high-pressure inlet is positioned on a first side of the high-pressure monobore conduit, and at least one second high-pressure inlet is positioned on a second side of the high-pressure monobore conduit.

A fluid conduit assembly for a fluid supply system includes a low-pressure monobore conduit assembly having a low-pressure monobore conduit and low-pressure outlets. The low-pressure outlets are configured to direct low-pressure fluid from the low-pressure monobore conduit to pumps. At least one first low-pressure outlet is positioned on a first side of the low-pressure monobore conduit, and at least one second low-pressure outlet is positioned on a second side of the low-pressure monobore conduit. The fluid conduit assembly includes a high-pressure monobore conduit assembly having a high-pressure monobore conduit and high-pressure inlets. The high-pressure inlets are configured to direct high-pressure fluid from the pumps to the high-pressure monobore conduit. At least one first high-pressure inlet is positioned on a first side of the high-pressure monobore conduit, and at least one second high-pressure inlet is positioned on a second side of the high-pressure monobore conduit.

A system for transporting corrosive or erosive fluids having a conduit or flow equipment with a flow bore, comprising; a flexible pipe, an adapter, an end connector, a clamp connector, insert(s), and a metal spacer. Insert(s) comprise an erosion resistant coating disposed around the internal structure that is a spring or helical structure. The insert(s) is/are disposed inside the flow bore and provide erosion and/or corrosion resistance.