A device for transport of an apparatus along a conduit or bore hole including a drill string. The device has a body having a coupled upper body portion and a lower body portion movable axially relative to each other. A fluid flow path in the body selectively enables fluid to flow through the body. A first valve system at a first end of the internal fluid flow path 58 is operable by a pressure differential between a region external of the body and the fluid flow path. A second valve system at a second end of the internal fluid flow path is operable by relative movement between the upper body portion and lower body portion. The body has one or more openings downstream of the first valve system through which fluid can flow or fluid pressure can be communicated to the apparatus.

A device for transport of an apparatus along a conduit or bore hole including a drill string. The device has a body having a coupled upper body portion and a lower body portion movable axially relative to each other. A fluid flow path in the body selectively enables fluid to flow through the body. A first valve system at a first end of the internal fluid flow path 58 is operable by a pressure differential between a region external of the body and the fluid flow path. A second valve system at a second end of the internal fluid flow path is operable by relative movement between the upper body portion and lower body portion. The body has one or more openings downstream of the first valve system through which fluid can flow or fluid pressure can be communicated to the apparatus.

A casing string is augmented with one or more variable flow resistance devices or “vibrating tools” to facilitate advancement of the casing and distribution of the cement in the annulus once the casing is properly positioned. Vibrating tools in the form of plugs can be pumped down and landed inside the casing string. The method includes vibrating the casing string while advancing the casing down the wellbore or while the cement is pumped into the annulus, or both. After the cementing operation is completed, the devices may be drilled out or retrieved with fishing tools to reopen the casing string for further operations. One or more wipers may be provided on the plugs, but the section housing the flow path may be free of wipers to allow the size and flow capacity of the flow path to be optimized.

A string includes a pipe that is connected to an expansion mechanism and a retrieval tool that is connected to the pipe above the expansion mechanism. The retrieval tool includes a carrier that can selectively latch on an expandable liner and one or more actuators. The retrieval tool can ensure latching of the carrier while the expandable liner is above the Blow-out Preventer. The retrieval tool can prevent accidental latching of the carrier on the expandable liner during the expansion of the liner. By manipulating the pipe, the retrieval tool can force the carrier's release from the expandable liner.

A string includes a pipe that is connected to an expansion mechanism and a retrieval tool that is connected to the pipe above the expansion mechanism. The retrieval tool includes a carrier that can selectively latch on an expandable liner and one or more actuators. The retrieval tool can ensure latching of the carrier while the expandable liner is above the Blow-out Preventer. The retrieval tool can prevent accidental latching of the carrier on the expandable liner during the expansion of the liner. By manipulating the pipe, the retrieval tool can force the carrier's release from the expandable liner.

A method of treating a subterranean well can include positioning a flow restrictor in a wellbore that penetrates an interval of an earth formation, displacing the flow restrictor along the wellbore away from a surface of the well, preventing longitudinal displacement of the flow restrictor in the wellbore, introducing flow into a first section of the interval from a section of the wellbore between the flow restrictor and the surface, blocking the flow from the wellbore section into the first interval section, permitting longitudinal displacement of the flow restrictor in the wellbore, and displacing the flow restrictor along the wellbore away from the surface of the well, thereby permitting unrestricted flow from the wellbore section into a second section of the interval. The second interval section is farther along the wellbore from the surface than the first interval section.

A method of treating a subterranean well can include positioning a flow restrictor in a wellbore that penetrates an interval of an earth formation, displacing the flow restrictor along the wellbore away from a surface of the well, preventing longitudinal displacement of the flow restrictor in the wellbore, introducing flow into a first section of the interval from a section of the wellbore between the flow restrictor and the surface, blocking the flow from the wellbore section into the first interval section, permitting longitudinal displacement of the flow restrictor in the wellbore, and displacing the flow restrictor along the wellbore away from the surface of the well, thereby permitting unrestricted flow from the wellbore section into a second section of the interval. The second interval section is farther along the wellbore from the surface than the first interval section.

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 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 remote set tool arrangement including a tool, a primary trigger operatively connected to the tool, and a contingency trigger operatively connected to the tool. A borehole system including a borehole in a subsurface formation, a string in the borehole, and the remote setting tool arrangement disposed within or as a part of the string.