A low-weight, low material automated line valve with sealing mechanism which can seal with the blind in either the open or closed position, and bias mechanism to improve the seal.

A valve seal assembly that provides for external pressure to be introduced to an energized seal of a valve, and compress the seal against a gate with enough force to block any paths where sand and chemicals would otherwise travel into valve body cavity or void. The external pressure introduced through pressure fitting makes the parts move like piston forcing the parts to compress together eliminating the machined tolerances or gaps required for the gate to be opened or closed. The compression can be provided by hydraulic pressure devices through injection ports. A separate valve seal assembly can be provided for each face of the gate and both assemblies can be activated when the fluids are flowing (open position) and an upstream valve seal assembly activated when the gate is in a closed position.

An expanding gate valve and method is provided for bidirectional sealing capability against pressure, whether the direction of pressure is upstream or downstream. The bidirectional annular seat seals against the gate assembly against pressure from the normal wellhead direction, typically upstream. For sealing against pressure in the opposite direction, the seat is formed with an annular recess extending radially outwardly from the central bore of the annular seat so that a flex portion of the seat formed between the recess and the front sealing face of the annular seat at the central bore flexes toward the gate assembly against this pressure. The front face of the bidirectional seat forms a raised annular sealing portion on the flex portion of the seat adjacent the central bore to provide sealing contact with the gate assembly in the expanded condition when the flex portion flexes toward the gate assembly.

A gate valve system includes a gate valve that has a housing with a first tubular body and a second tubular body separate from the first tubular body. The gate valve has a gate that moves to interrupt or allow fluid flow from the first tubular body to the second tubular body. The system includes a first seat disposed at a first annular reassess and defines an interior channel configured to receive pressurized fluid from a fluid injector. A second seat disposed at a second annular recess defines a second gap with the second annular recess. The second gap receives the pressurized fluid from the interior channel of the first seat to expand the second gap to move toward the surface of the gate to form an emergency seal with the gate as the pressurized fluid expands the second gap.

A valve for use in oil and gas production or similar applications includes a plug or other flow barrier disposed in a cavity of a hollow valve body with a metal-to-metal sealing surface that is not reliant on any rubberized or elastomeric material to effect a seal.

A valve for use in oil and gas production or similar applications includes a plug or other flow barrier disposed in a cavity of a hollow valve body with a metal-to-metal sealing surface that is not reliant on any rubberized or elastomeric material to effect a seal.

A gate valve system includes a gate valve that has a housing with a first tubular body and a second tubular body separate from the first tubular body. The gate valve has a gate that moves to interrupt or allow fluid flow from the first tubular body to the second tubular body. The system includes a first seat disposed at a first annular reassess and defines an interior channel configured to receive pressurized fluid from a fluid injector. A second seat disposed at a second annular recess defines a second gap with the second annular recess. The second gap receives the pressurized fluid from the interior channel of the first seat to expand the second gap to move toward the surface of the gate to form an emergency seal with the gate as the pressurized fluid expands the second gap.

An isolation valve purge system for an isolation valve, with internal components configured to isolate the flow of process fluid through the bottom slurry circuit line. In some embodiments the isolation valve is purged using a liquid purge medium created in the fractionation tower, such as a hydrocarbons, oils of different viscosity or a combination of hydrocarbons. A method for reducing cavitation in a pressurized line by using a hydrocarbon from the fractionation tower to purge an isolation valve process fluid flowing therethrough with a liquid purge medium.

Improved apparatuses, systems, and methods for sealing a frac valve using pressurized fluid to drive one or more seal assemblies into sealing contact with a valve gate without substantial relative movement of the seal assembly components. In some embodiments, the improved apparatuses, systems, and methods provide a sealant to the face of the valve gate to ensure a fluid tight seal, a plurality of biased springs to ensure the seal assemblies are positioned properly to create a fluid tight seal, a shield to prevent fluids, particulates, and/or other materials from interfering with the operation of or damaging the seal assemblies, and/or a recess for receiving fluids, particulates, and/or other materials that would otherwise interfere with a fluid-tight seal or cause damage to the seal assemblies or valve gate.

A closure device including a closure element for closing an opening surrounded by a valve seat of the closure device. The closure device has an open state, in which the closure element exposes the opening at least partly, for an object to be led through the opening, an intermediate state, in which the closure element is brought into alignment with the opening without contact with the valve seat, and a closed state, in which the closure element at least rests on the valve seat via a seal of the closure device. The seal has a hollow space, to which a pressure medium from a pressure source of the closure device can be applied, and the closure device has a suction apparatus for sucking the pressure medium out of the hollow space of the seal.