A shear seal includes a seal plate having a first seal surface and a sliding seal assembly having a second seal surface, and at least one of the first and second sealing surfaces comprise an insert comprising a material different than that of the seal plate or the sliding seal connected to the seal plate or sliding seal assembly by a compressed member disposed between the insert and the adjacent surface of seal plate or sliding seal assembly.

Example devices include a fluidic device, such as a fluidic valve, including a body formed from a rigid body material including a fluidic source, a fluidic drain, and a fluidic gate, each of which may have a fluid connection with a chamber, or a portion thereof. The device may further include a gate transmission element, located within the chamber, that is controllable between at least a first position and a second position using a gate pressure received through the fluidic drain. Adjustment of the position of the gate transmission element may allow control of fluid flow through the device. Other devices, methods, systems, and computer-readable media are also disclosed.

A vacuum valve including a valve seat having a valve opening defining an opening axis and a first seal surface circumferential around the valve opening and having a closure element having a second seal surface corresponding to the first seal surface. The first seal surface and/or the second seal surface has an at least two-component material composite having a metallic carrier component and a polymer-based seal material. The metallic carrier component defines an inner and outer carrier region and has a plurality of defined depressions extending in the inner carrier region by the seal surface. The seal material is applied to the carrier component such that a defined profile of the seal material is provided on the outer carrier region and a part of the seal material extends at least into a part of the depressions of the carrier component and fills them at least halfway.

Embodiments of the invention provide a housing assembly for a knife gate valve. The housing assembly includes a valve body defining a passageway and having a first body and a second body, and a one-piece liner arranged between the first body and the second body. The first body and the second body each include a flange recessed portion that defines a flange recess surface. Each of the flange recess surfaces includes a first flange surface portion, a second flange surface portion, and a raised flange bead. The one-piece liner includes a first liner flange portion that forms a first liner recess. The first liner recess receives the flange recessed portion of the first body to bring the raised flange bead of the first body into engagement with the first liner flanged portion.

A plumbing fitting that includes: a fitting body having a plurality of ends; and a cover element joined to the body with a weld in proximity to and spaced from an interface in contact with a potable or non-potable aqueous medium. The body and the cover element are fabricated from a lead-free or low lead, copper or copper-silicon alloy having a thermal conductivity of 45 W/(m*K). Further, the weld has a centerline that is 6.4 mm from the interface and/or a heat affected zone that has an average width 400 m and is spaced from the interface. The plumbing fittings include but are not limited to ball valves, gate valves, elbows, check valves and other fittings without stems.

A plant or refinery may include equipment such as condensers, regenerators, distillation columns, pumps, slide valves, or the like. Different operating methods may impact deterioration in equipment condition, thereby prolonging equipment life, extending production operating time, or providing other benefits. Mechanical or digital sensors may be used for monitoring equipment to determine whether problems are developing. Specifically, sensors may be used in conjunction with one or more system components to predict and detect slide valve sticking. A shielded, tube skin thermocouple assembly may provide a temperature profile for a slide valve. Tomography may be used to image a slide valve. An operating condition of the plant or refinery may be adjusted to prolong equipment life or avoid equipment failure.

Embodiments of the invention provide a housing assembly for a knife gate valve with a knife gate. The housing assembly includes a valve body defining a passageway and having a first body half and a second body half, and a one-piece liner arranged between the first body half and the second body half. A first part of the one-piece liner includes a first chest portion, a first liner bore, and a first sealing bead that is configured to engage the knife gate and extends circumferentially around the passageway. The first sealing bead defines a varying protrusion height as the first sealing bead extends around the passageway.

A valve component comprising a substrate with a sliding surface, the sliding surface being designed to be subjected to sliding against another surface during operation of the valve, wherein at least a portion of the sliding surface is coated with a coating comprising an under-layer comprising tungsten and an upper-layer deposited atop the under-layer, said upper-layer comprising diamond-like-carbon, wherein the under-layer comprises carbon and has a layer thickness of at least 11 micrometers, and the upper-layer has a lower coefficient of friction than the under-layer and has a layer thickness of at least 1.5 micrometers.

A valve and method for flow control of dry materials comprising large hard particles. Providing clearance at the valve seat of at least slightly greater than the nominal diameter of the hard particles prevents capture of the hard particles between closing parts of the valve, which can damage the valve due to the hardness of the particle material. Clearance space as defined unexpectedly does not allow the particles to pass through when the valve closure member is positioned across the valve seat in a closed position.

A magnetic valve comprises an axially magnetized valve body comprising a bore and an axially magnetized gate moveable relative to the bore. The gate is dimensioned to cover the bore in a closed state and expose the bore in an open state. The valve body and the gate are configured to self-align along their central axes.