Aspects of the disclosure relate to flexible wellhead connection systems, apparatus, methods, and associated components thereof. The aspects include a rotatable joint. In one example, the rotatable joint includes a swivel. In one example, the flexible wellhead connection systems, apparatus, and methods are used to connect wellheads to one or more of fluid sources and/or instrumentation skids.

Aspects of the disclosure relate to flexible wellhead connection systems, apparatus, methods, and associated components thereof. The aspects include a rotatable joint. In one example, the rotatable joint includes a swivel. In one example, the flexible wellhead connection systems, apparatus, and methods are used to connect wellheads to one or more of fluid sources and/or instrumentation skids.

A v-clamp is used to join tubular bodies having end flanges in order to form a joint therebetween. Such tubular bodies are employed in heavy-duty and moderate and light-duty applications including, but not limited to, industrial, oil and gas, sewage, agriculture, and automotive applications. The v-clamp can include a band, a closure mechanism, and a set of bearings. The v-clamp may furnish a more evenly and uniformly distributed clamping force around a circumference of the v-clamp and to the tubular body end flanges than previously demonstrated.

A swivel joint including a flange assembly and an inner joint that is configured to rotate with respect to the flange assembly. The flange assembly may include a first flange and a second flange that is secured to the first flange. The inner joint may have a main body and a radial extension extending outward from the main body with the radial extension positioned between the first flange and the second flange. A first thrust bearing may be positioned between the radial extension and the first flange, and a second thrust bearing may be positioned between the radial extension and the second flange. A first seal and a second seal may each be positioned between the flange assembly and the inner joint. A leak indicator may be positioned between the first seal and the second seal. The first and second thrust bearings may be caged bearings.

Systems, methods and apparatus are provided for liquid product delivery. In some embodiments a conduit assembly disposed partly beneath a deck or platform is fluidly coupled to a reel assembly via a rotary fluid coupler.

A fluid swivel (100) comprising a first part (100a) and a second part (100b) configured to mutually rotate about a common center axis (A). The swivel (100) has a central bore (101) configured to accommodate a fluid to be transported through the fluid swivel (100). A central member (12) is arranged in the central bore (101), and the center axis (A) extend through the central member. A hydraulic line (43, 53) extends from the first part (100a) to the second part (100b) through the central member (12).

In some embodiments, a fluid diverter device may include a diverter body having a body surface coupled to a first end and to an opposing a second end. A diverter conduit may be centrally positioned within the diverter body, and the conduit may extend between the first end and second end. A coupler plug may be disposed on the second end, and an accessory socket may be disposed on the first end. The coupler plug may have c coupler conduit in fluid communication with the diverter conduit. The device may further comprise a bend which may be formed in the diverter body, and the bend may be configured to angle the first end towards the second end. In further embodiments, the bend may comprise a bend angle, and the bend angle may be between 35 degrees and 49 degrees and more preferably between 40 and 44 degrees.

A rotatable joint includes a body configured for connecting to an external system and provided with an internal hole arranged for being traversed by pressurised fluid, a tubular element on an end of which a hose can be inserted that is sealingly coupled with the joint and provided with a further through hole that defines, together with the internal hole, a longitudinal channel that extends parallel to a longitudinal axis within which the pressurised fluid flows. The joint further includes an annular closing element fixed to the tubular body by a threaded connection and a rotatable coupling arrangement that acts at least in a longitudinal direction to enable mutual rotation between the tubular element and the tubular body.

Aspects of the disclosure relate to flexible wellhead connection systems, apparatus, methods, and associated components thereof. The aspects include a rotatable joint. In one example, the rotatable joint includes a swivel. In one example, the flexible wellhead connection systems, apparatus, and methods are used to connect wellheads to one or more of fluid sources and/or instrumentation skids.

Aspects of the disclosure relate to fluid injection systems, apparatus, methods, and associated components thereof that include flexible hoses for wellhead sites. In one implementation, a fluid injection system for wellhead sites includes a platform, a pump manifold mounted to the platform, and a pair of rails mounted to the platform. The fluid injection system includes a trolley disposed between the pair of rails and above the pump manifold. The trolley is movable along the pair of rails. The fluid injection system includes an articulation arm device mounted to the trolley. The articulation arm device includes one or more pivot joints coupled between two or more arms, and a connection device coupled to an end arm of the two or more arms.