A radio-frequency identification (RFID) fluid connection, including a tube, including a radially outward facing surface, and a RFID assembly connected to the radially outward facing surface, including a RFID tag including an antenna, and at least one contact electrically connected to the RFID tag.

A radio-frequency identification (RFID) fluid connection, including a tube, including a radially outward facing surface, and a RFID assembly connected to the radially outward facing surface, including a RFID tag including an antenna, and at least one contact electrically connected to the RFID tag.

Aspects of the present disclosure relate to crane systems and pump manifold systems, and related methods, for pumping operations (such as frac operations). In one or more embodiments, a pump manifold system includes a plurality of connection blocks, a plurality of conduits coupled between the plurality of connection blocks, and a crane system. The crane system includes a base, and a first crane coupled to the base and configured to extend relative to a first side of the at least one conduit. The first crane is pivotable relative to the at least one conduit.

Aspects of the present disclosure relate to crane systems and pump manifold systems, and related methods, for pumping operations (such as frac operations). In one or more embodiments, a pump manifold system includes a plurality of connection blocks, a plurality of conduits coupled between the plurality of connection blocks, and a crane system. The crane system includes a base, and a first crane coupled to the base and configured to extend relative to a first side of the at least one conduit. The first crane is pivotable relative to the at least one conduit.

A joint seal system and method may be configured to mitigate and/or eliminate leakage of pressure, flue gases, condensate, helium vent gas and/or any other fluid, gas, and/or vapor between abutting flanges of duct sections at a flange interface. A weld-free MRI machine quench vent discharge system using pre-fabricated chimney duct components may be configured by selecting a quench vent outlet and discharge location, mapping a route, and determining directional changes. Elbows and bellows sections are selected based on these changes, and the distance between the MRI machine and discharge location is calculated to determine support positions. The system is assembled using prefabricated chimney ducts, each comprising an inner shell with spinner bolt flanges and a leak-free joint with a PTFE gasket. The design includes an outer shell with an insulation gap for thermal protection.

A joint seal system and method may be configured to mitigate and/or eliminate leakage of pressure, flue gases, condensate, helium vent gas and/or any other fluid, gas, and/or vapor between abutting flanges of duct sections at a flange interface. A weld-free MRI machine quench vent discharge system using pre-fabricated chimney duct components may be configured by selecting a quench vent outlet and discharge location, mapping a route, and determining directional changes. Elbows and bellows sections are selected based on these changes, and the distance between the MRI machine and discharge location is calculated to determine support positions. The system is assembled using prefabricated chimney ducts, each comprising an inner shell with spinner bolt flanges and a leak-free joint with a PTFE gasket. The design includes an outer shell with an insulation gap for thermal protection.

This application relates to a hygienic clamp with a non-contact sensor. The clamp may also include a first clamp arm, a second clamp arm, and a hinge to movably join the first clamp arm and the second clamp arm. The non-contact sensor can sense whether the clamp is closed by detecting the proximity of one arm of the clamp to its other arm, without requiring the two arms to contact one another. Since the non-contact sensor is not mechanical, no mechanical wear is produced. It is constructed to prevent build-up that can occur with other types of sensors in industries that use clamps in their applications.

This application relates to a hygienic clamp with a non-contact sensor. The clamp may also include a first clamp arm, a second clamp arm, and a hinge to movably join the first clamp arm and the second clamp arm. The non-contact sensor can sense whether the clamp is closed by detecting the proximity of one arm of the clamp to its other arm, without requiring the two arms to contact one another. Since the non-contact sensor is not mechanical, no mechanical wear is produced. It is constructed to prevent build-up that can occur with other types of sensors in industries that use clamps in their applications.

A clamp for sanitary pumps includes a tensioning assembly mounted on a ring. The tensioning assembly includes an adjustment assembly that interfaces with first and second brackets disposed at first and second ends of the ring. The adjustment assembly includes a nut that interfaces with a rod at a threaded interface. A head is disposed at an end of the rod opposite the nut and interfaces with the second bracket. The nut and rod are coaxial and an orientation of a common adjustment axis can be changed by pivoting the adjustment assembly relative to the first bracket, to maintain concentricity between the nut and rod.

A clamp for sanitary pumps includes a tensioning assembly mounted on a ring. The tensioning assembly includes an adjustment assembly that interfaces with first and second brackets disposed at first and second ends of the ring. The adjustment assembly includes a nut that interfaces with a rod at a threaded interface. A head is disposed at an end of the rod opposite the nut and interfaces with the second bracket. The nut and rod are coaxial and an orientation of a common adjustment axis can be changed by pivoting the adjustment assembly relative to the first bracket, to maintain concentricity between the nut and rod.