An apparatus for descaling an inner surface of a bending steel pipe includes a support pallet supporting a plurality of bending steel pipes of which first ends and second ends are opened, the plurality of bending steel pipes being disposed in one direction on the support pallet, a stopper part selectively stopping the first ends and the second ends of the plurality of bending steel pipes, a shot ball supply part supplying shot balls to inner portions of the plurality of bending steel pipes through one of the first ends or the second ends of the plurality of bending steel pipes, and a high frequency vibration part on which the support pallet is seated and which performs high frequency vibrations to shot-peen the inner portions of the plurality of bending steel pipes supported by the support pallet.

An apparatus for descaling an inner surface of a bending steel pipe includes a support pallet supporting a plurality of bending steel pipes of which first ends and second ends are opened, the plurality of bending steel pipes being disposed in one direction on the support pallet, a stopper part selectively stopping the first ends and the second ends of the plurality of bending steel pipes, a shot ball supply part supplying shot balls to inner portions of the plurality of bending steel pipes through one of the first ends or the second ends of the plurality of bending steel pipes, and a high frequency vibration part on which the support pallet is seated and which performs high frequency vibrations to shot-peen the inner portions of the plurality of bending steel pipes supported by the support pallet.

A new, innovative pipeline cleanout tool useful in removing debris and accretions from pipelines prior to reinstating the pipeline. The pipeline cleanout tool includes rotatable cleaning head assembly that includes a cylindrical body having a first end surface and a second end surface. A plurality of grooves formed in the first end surface and a plurality of grooves formed in the second end surface accept the insertion of arcuate flexible metal elements that extend spirally outward from the surface of the cylindrical member. The arcuate flexible metal elements, when compressed form an arcuate flexible metal element ring that contacts the interior surface of the pipeline. The rotatable cleaning head assembly also includes a first end cap and a second end cap, both end caps physically coupled to the cylindrical body and a rotatable flexible shaft. The tool further includes spacer elements and compressible elements disposed about the rotatable flexible shaft.

A new, innovative pipeline cleanout tool useful in removing debris and accretions from pipelines prior to reinstating the pipeline. The pipeline cleanout tool includes rotatable cleaning head assembly that includes a cylindrical body having a first end surface and a second end surface. A plurality of grooves formed in the first end surface and a plurality of grooves formed in the second end surface accept the insertion of arcuate flexible metal elements that extend spirally outward from the surface of the cylindrical member. The arcuate flexible metal elements, when compressed form an arcuate flexible metal element ring that contacts the interior surface of the pipeline. The rotatable cleaning head assembly also includes a first end cap and a second end cap, both end caps physically coupled to the cylindrical body and a rotatable flexible shaft. The tool further includes spacer elements and compressible elements disposed about the rotatable flexible shaft.

The present invention relates to an apparatus for circulating balls. An embodiment of the present invention includes: a circulation path for circulating balls and fluid, the circulation path comprising a cooling water tube of a heat exchange unit; a pump arranged in the circulation path for pumping the balls and fluid; and a counter for counting the time and the number of the balls in relation to the circulation of the balls.

The present invention relates to an apparatus for circulating balls. An embodiment of the present invention includes: a circulation path for circulating balls and fluid, the circulation path comprising a cooling water tube of a heat exchange unit; a pump arranged in the circulation path for pumping the balls and fluid; and a counter for counting the time and the number of the balls in relation to the circulation of the balls.

A conduit cleaning device includes a body with a central portion, a forward portion comprising a neck, and a rear portion with a hose fitting adapted for connection to an associated hose. The body includes a main flow passage that extends through the hose fitting, through the central portion, and into the neck. A rotor is rotatably supported on the neck. The rotor includes at least one rotor nozzle orifice in fluid communication with the main flow passage. A centering device is secured to the central portion of the body. The centering device includes a core and a plurality of fins that project outwardly from the core. The core of the centering device includes a mounting bore that extends therethrough, wherein at least part of the hose fitting is located within the mounting bore of the core and an annular space is defined between the hose fitting and an inner surface of the mounting bore of the core.

A conduit cleaning device includes a body with a central portion, a forward portion comprising a neck, and a rear portion with a hose fitting adapted for connection to an associated hose. The body includes a main flow passage that extends through the hose fitting, through the central portion, and into the neck. A rotor is rotatably supported on the neck. The rotor includes at least one rotor nozzle orifice in fluid communication with the main flow passage. A centering device is secured to the central portion of the body. The centering device includes a core and a plurality of fins that project outwardly from the core. The core of the centering device includes a mounting bore that extends therethrough, wherein at least part of the hose fitting is located within the mounting bore of the core and an annular space is defined between the hose fitting and an inner surface of the mounting bore of the core.

A method of minimizing material mixing in a piping system during a transition between a first material and a second material includes providing a plurality of pipe pigs in a first pipe section with the plurality of pipe pigs being sufficient to substantially fill a cross-section of the first pipe section and to define a plug having a leading edge and a trailing edge such that the leading edge is in contact with a first material and the trailing edge is in contact with a second material. Each pipe pig has a nominal size that is smaller than an effective diameter of the first pipe section. The plug is moved through the piping system by moving the second material. Advantageously, mixing of the first material and the second material is inhibited by the plug.

A method of removing trapped hydrocarbons from pipework, the pipework comprising a through pipe (1) extending from an inlet to an outlet, and at least one up-pipe (2a, 2b) extending upwardly from the through pipe. The method comprises: flushing the through pipe with a water-based liquid (6) which has a density less than hydrocarbons; wherein the water-based liquid comprises a plurality of rigid containers, such as microspheres, the rigid containers each having a sealed void containing a gas. in this way, hydrocarbons in the up-pipes may be removed without hot-tapping them. The flushing may be performed by directing pipeline pigs (5a, 5b) in front of and behind the water-based liquid. The pigs may be a cross-linked gel, based pipeline pig with elastomeric properties. A kit of parts for such a method is also disclosed.