Certain aspects of the subject matter described here can be implemented as a method. A location of an entrance to a pipeline pig launcher configured to launch a pipeline pig into a pipeline is determined by an automated pipeline pig handling system positioned at a starting location. The pipeline pig is self-aligned with the entrance to the pipeline pig launcher by the automated pipeline pig handling system. The entrance to the pipeline pig launcher is open. The pipeline pig is inserted by the automated pipeline pig handling system into the entrance to the pipeline pig launcher. The entrance to the pipeline pig launcher is closed by the automated pipeline pig handling system after the pipeline pig is inserted into the entrance. The automated pipeline pig handling system is self-returned to the starting location after inserting the pipeline pig into the entrance to the pipeline pig launcher.

A Knuckle Jointed Lance (KJL), comprising a segmented lance including a plurality of elongate and hollow KJL segments in a concatenated string thereof. The first segment end of one KJL segment is rotatably connected to the second segment end of a neighboring KJL segment via a pinned connection. Neighboring pairs of KJL segments together provide an interlocking toothed connection such that each interlocking toothed connection restrains relative torsional displacement between the neighboring pair of KJL segments. In other embodiments, pinned connections also provide ears, each with cooperating ear ledges and ear ledge recesses to strengthen the pinned connection.

A cleaning system for cleaning a pneumatic conveyance system used to transport particulate material. The pneumatic conveyance system includes a material-introduction device for introducing particulate material into a convey line, and a motive air source for generating an air flow to propel the particulate material through the convey line. The cleaning system comprises a projectile comprising a cleaning surface for cleaning an interior of the convey line as the projectile travels through the convey line, a launcher for injecting the projectile into the convey line, with the launcher being coupled with the convey line at a position upstream from the material-introduction device, and a catcher vessel for receiving the projectile upon said projectile exiting the convey line.

A Knuckle Jointed Lance (KJL), comprising a segmented lance including a plurality of connected KJL segments in a concatenated string thereof. The first end of one KJL segment is rotatably connected to the second end of a neighboring KJL segment via a pinned connection. Responsive to user assignment of a predetermined length to each KJL segment in the concatenated string according to the KJL segment's corresponding pre-ordained position in the concatenated string, the lance is disposed to spool onto a reel in nested fashion, such that as the lance makes spooling revolutions onto the reel, (a) KJL segments stack in circumferential registered layers around the reel and (b) pinned connections trace substantially radial vectors from a center of the reel. Other embodiments provide additional features to facilitate nesting and to generally strengthen the KJL.

A Knuckle Jointed Lance (KJL), comprising a segmented lance including a plurality of connected KJL segments in a concatenated string thereof. The first end of one KJL segment is rotatably connected to the second end of a neighboring KJL segment via a pinned connection. Responsive to user assignment of a predetermined length to each KJL segment in the concatenated string according to the KJL segment's corresponding pre-ordained position in the concatenated string, the lance is disposed to spool onto a reel in nested fashion, such that as the lance makes spooling revolutions onto the reel, (a) KJL segments stack in circumferential registered layers around the reel and (b) pinned connections trace substantially radial vectors from a center of the reel. Other embodiments provide additional features to facilitate nesting and to generally strengthen the KJL.

Certain aspects of the subject matter described here can be implemented as a method. A location of an entrance to a pipeline pig launcher configured to launch a pipeline pig into a pipeline is determined by an automated pipeline pig handling system positioned at a starting location. The pipeline pig is self-aligned with the entrance to the pipeline pig launcher by the automated pipeline pig handling system. The entrance to the pipeline pig launcher is open. The pipeline pig is inserted by the automated pipeline pig handling system into the entrance to the pipeline pig launcher. The entrance to the pipeline pig launcher is closed by the automated pipeline pig handling system after the pipeline pig is inserted into the entrance. The automated pipeline pig handling system is self-returned to the starting location after inserting the pipeline pig into the entrance to the pipeline pig launcher.

A fluid-floated conveying device includes a multi-channel space conversion cabin. An upper channel port is provided with a floating ball outlet gate which is communicated with a water pipe filled with a liquid. A side channel port is provided with a floating ball inlet gate communicated with the external atmosphere. A lower channel port is connected to a water storage pressure cylinder or a water discharging pipe. A floating ball carries articles and enters the cleared space conversion cabin from the side channel. The floating ball inlet gate of the side channel is closed, the cabin is filled with water, the floating ball outlet gate of the upper channel is opened, the floating ball rises and enters from the upper channel port, the communicated water pipe filled with the liquid, the water buoyancy enables the floating ball to rise, and the carried articles are conveyed to a receiving platform.