A multi-phase, inductive coupling first portion is carried by a tubular. The coupling first portion is configured to inductively transmit current with a corresponding multi-phase, inductive coupling second portion. A downhole-type electric stator is carried by the tubular and is configured to receive and electromagnetically interact with an electric rotor-impeller. The coupling first portion is electrically connected to windings of the stator.

A completion system for use in a well includes a first completion section and a second section. The first completion section has a sand control assembly to prevent passage of particulates, a first inductive coupler portion, and a sensor positioned proximate to the sand control assembly that is electrically coupled to the first inductive coupler portion. The second section is deployable after installation of the first completion section. It includes a second inductive coupler portion to communicate with the first inductive coupler portion, to enable communication between the first completion section's sensor and another component coupled to the second section.

A drill string comprising connectable drill pipes. The drill pipes comprise loadable annular shoulders within their pin end and box end tool joints, each having an annular groove therein. The walls of the annular groove may comprise a region harder than the surrounding annular shoulder. An annular channel may be disposed within the annular groove, and a wire coil may be arranged within the annular channel. The annular channel may be comprised of a magnetically conductive electrically insulating (MCEI) soft magnetic material suitable for reducing the signal loss across inductively coupled channels of adjacent connected drill pipes. The MCEI material may comprise manganese and iron sub-micron particles. The annular channel may comprise orifices. An insert may be positioned between the annular channel and the walls of the groove. The insert may be harder than the walls of the groove.

A well system may include a tubing string positioned downhole in a wellbore defining an annulus between the tubing string and a wellbore. An annular safety valve may be positioned at the surface of the wellbore for controlling a passage of gas through the annular safety valve into the annulus. The annular safety valve may include an inductive coupler that is coupled to a power source at the surface via a power line for powering the annular safety valve.

An inductive coupler includes a first transceiver electrically coupled to a first coil through a first tuning circuit. The inductive coupler may also include a second transceiver electrically coupled to a second coil through a second tuning circuit, where the second coil is positioned substantially concentric with the first coil.

An apparatus for fitting to a wellbore is provided. The apparatus includes a battery-powered downhole tool for deployment within the wellbore. The downhole tool includes a battery for providing electrical power to one or more components of the downhole tool. The apparatus further includes a lubricator for fitting to a wellhead of the wellbore via a valve system providing communication between the lubricator and the wellbore, and for housing the downhole tool when in a stowed position. The lubricator includes a transmitter for receiving electrical power from a remote power source, and for transferring received electrical power to a receiver. The downhole tool includes a receiver for providing electrical power to the battery, and for receiving electrical power from the transmitter. A method of transferring power from a transmitter of a lubricator to a receiver of a downhole tool is also provided.

A duo transceiver system for sending power and data downhole, that may comprise an elongate cylinder adapted for installation into a tool string component such as a drill pipe, BHA tool, or sensor. The tool string component may comprise an axial bore comprising a split spring ring expanded into and protruding from a groove within its bore wall. The elongate cylinder may be mounted on the split spring ring. The cylinder may comprise an outside wall, an inside wall, a top wall, and a bottom wall. The top wall may comprise an annular groove open to the top wall. The annular groove may house an annular duo transceiver. The annular duo transceiver may comprise an annular MCEI inductive transceiver surrounding an annular electrical contact transceiver. The annular MCEI inductive transceiver may surround the electrical contact transceiver with an inner MCEI top surface and an outer MCEI top surface.

An intelligent drilling riser telemetry system includes a mud pulse telemetry transmitter deployed in a drill string. At least one annular pressure sensor is deployed on a drilling riser and is configured to sense mud pulse telemetry signals in an annular region thereof. A surface processor is in electronic communication with the annular pressure sensor via an electrical transmission line that extends along a length of the drilling riser from the annular pressure sensor to the drilling rig. The processor is configured to decode a transmitted mud pulse telemetry signal.

A unitary multilateral junction for deployment in a wellbore, wherein the multilateral junction permits electrical power and communications signals to be established in both a lateral wellbore and a main wellbore utilizing. The unitary junction assembly generally includes a conduit with a first upper aperture, a first lower aperture and a second lower aperture where the first lower aperture is defined at the distal end of a primary passageway extending from a conduit junction and a second lower aperture defined at the distal end of a lateral passageway extending from the conduit junction. A lower wireless energy transfer mechanism is positioned along at least one of the passageways between the distal end of the passageway and the junction. The lower wireless energy transfer mechanism is in wired communication an upper energy transfer mechanism permitting electrical communication to be established across the intersection of wellbore branches utilizing the unitary junction.

A technique facilitates use of an inductive coupler assembly with casing, e.g. well casing. An inductive coupler is formed as a female inductive coupler with an inductive coil. The inductive coupler is constructed for sliding movement along an exterior of the casing so that it may ultimately be positioned and secured at a suitable location along the casing. The inductive coupler is designed for connection with an electrical device, e.g. a sensor. The inductive coupler facilitates the transfer of sensor data and/or power signals across the casing. Signal transfer across the casing is further enabled by a male inductive coupler positioned within the casing at a location which allows it to cooperate with the exterior, female inductive coupler.