The present invention relates to an underground pipe coupling for an emergency repair during pipe breakage and comprises a ball and socket coupling joint having a ball joint (5) which is free to rotate inside a socket joint (3) fastened by means of a ball joint backing ring (4) along with an O ring (7) positioned in between them. A pair of grip cam mounting plates (1), with grip cams (6)/double grip cams (6a) are provided, one of which connects at one end of the broken pipe and ball joint (5), and the other one connects the other end of the broken pipe and the socket joint (3) in a watertight manner by means of a resilient sealing ring (2) placed in between each one of them. The grip cams rotate on eccentric axes in the counterclockwise direction and prevent the decoupling of the pipe joint.

The present invention relates to an underground pipe coupling for an emergency repair during pipe breakage and comprises a ball and socket coupling joint having a ball joint (5) which is free to rotate inside a socket joint (3) fastened by means of a ball joint backing ring (4) along with an O ring (7) positioned in between them. A pair of grip cam mounting plates (1), with grip cams (6)/double grip cams (6a) are provided, one of which connects at one end of the broken pipe and ball joint (5), and the other one connects the other end of the broken pipe and the socket joint (3) in a watertight manner by means of a resilient sealing ring (2) placed in between each one of them. The grip cams rotate on eccentric axes in the counterclockwise direction and prevent the decoupling of the pipe joint.

A pipe includes at least one first section connected to a second section by a hinged element allowing a predetermined angular movement of the first section relative to the second section under a predetermined minimum force. The hinged element includes two end pieces connected respectively to the first section and to the second section and hinged with each other to allow the angular movement, and a tube having ends connected to the end pieces so as to be elastically deformable under the predetermined force according to the predetermined angular movement. The sections and the end pieces themselves are rigid under the predetermined minimum force. A treatment facility include such pipes.

The disclosure teaches an adjustable/extendable piping system/module for associating fluid access products (such as fire hydrants) to a buried fluid source. The piping system defines an adjustable configuration that allows for the overall length of the piping system to be modified to compensate for different bury depths. The disclosure further teaches a flex module configured for associating a fluid product with a piping system connected to a fluid source. The flex module is configured to flex a predefined amount to prevent damage to the system from low energy impacts.

A frac tree coupled to a wellhead is connected to either flowback equipment or zipper modules using a single straight-line connection of pipes, valves, and/or frac iron that define a straight-line pathway for fluid, gas, or flowback materials. The disclosed single straight-line connections referenced herein may be used in pressure pumping operations to deliver hydraulic fracturing fluid (“frack fluid”) to a frac tree for delivery to a wellhead or for carrying flowback from the wellhead to a flowback-collecting equipment. To dramatically reduce the wear-and-tear on the frac tree, blocks at or near the top of the frac trees are strategically lined with a high-strength wear-resistant material internally at points where frack fluid or flowback changes direction to flow toward or away from the single straight-line connections.

An offshore power generation system comprising: a floating portable platform having one or more OTEC heat exchange units, one or more turbine generators, a water intake and discharge system, a mooring system; and a fixed manifold having one or more cold water intake connections in communication with a cold water pipe, and one or more cold water discharge connections in communication with the water intake system of the floating platform via an intermediate cold water conduit, wherein each cold water discharge connection is detachable from the intermediate cold water pipe.

An offshore power generation system comprising: a floating portable platform having one or more OTEC heat exchange units, one or more turbine generators, a water intake and discharge system, a mooring system; and a fixed manifold having one or more cold water intake connections in communication with a cold water pipe, and one or more cold water discharge connections in communication with the water intake system of the floating platform via an intermediate cold water conduit, wherein each cold water discharge connection is detachable from the intermediate cold water pipe.

Aspects of the present disclosure relate to spool assembly implementations and related methods for fluidly connecting wellheads. In one implementation, a spool assembly for fluidly connecting wellheads includes a first end flange, a second end flange, and one or more pivotable connections positioned between the first end flange and the second end flange. Each respective pivotable connection of the one or more pivotable connections includes a connection tubular having an outer spherical surface, and a bearing tubular having a spherical end disposed about the outer spherical surface of the connection tubular. Each respective pivotable connection of the one or more pivotable connections includes a socket flange tubular disposed about the spherical end of the bearing tubular, and a shoulder flange tubular disposed about an outer shoulder of the connection tubular. The shoulder flange tubular is coupled to the socket flange tubular.

A device for gas-tight connection includes: a first connection point with a terminal surface; a second connection point with a stationary, predetermined reference surface of a pipe flange connection, which is arranged relative to the terminal surface by an offset angle which is compensated for by an angular offset compensation; and a flanged disc unit. The first connection point includes a central ball-and-socket joint arrangement as an angular misalignment compensation. The central ball-and-socket joint arrangement has a tube section with a convex distal end region configured to interact in an articulated manner with a concave annular region, corresponding thereto, of the flanged disc unit. A side surface region of the flanged disc unit includes at least one adjusting screw for adapting to the offset angle so as to adjust a local distance to a counter-disc fixedly fastened coaxially to a pipe section adjacent to the convex distal end region.

A device for gas-tight connection includes: a first connection point with a terminal surface; a second connection point with a stationary, predetermined reference surface of a pipe flange connection, which is arranged relative to the terminal surface by an offset angle which is compensated for by an angular offset compensation; and a flanged disc unit. The first connection point includes a central ball-and-socket joint arrangement as an angular misalignment compensation. The central ball-and-socket joint arrangement has a tube section with a convex distal end region configured to interact in an articulated manner with a concave annular region, corresponding thereto, of the flanged disc unit. A side surface region of the flanged disc unit includes at least one adjusting screw for adapting to the offset angle so as to adjust a local distance to a counter-disc fixedly fastened coaxially to a pipe section adjacent to the convex distal end region.