Gas flow control valves comprising a valve housing including a cylindrical interior passage, and a housing opening extending from the interior passage through the housing. The gas flow control valve further comprises a cylindrical rotary valve element including a sidewall, and a rotary valve element opening extending through the sidewall. The valve element is rotatably received within the interior passage of the valve housing, such that the housing opening may be selectively aligned with the rotary valve element opening, and an area of overlap of the housing opening and the valve element opening may be varied by rotating the valve element within the interior passage of the valve housing.

A bypass feature and an emergency shutdown valve that includes such a bypass feature, which is selectively operable to permit a flow of material to pass through the emergency shutdown valve when a shutoff element thereof is closed so as to otherwise prohibit flow through the valve, as well as an associated method of testing an emergency shutdown valve.

A bypass feature and an emergency shutdown valve that includes such a bypass feature, which is selectively operable to permit a flow of material to pass through the emergency shutdown valve when a shutoff element thereof is closed so as to otherwise prohibit flow through the valve, as well as an associated method of testing an emergency shutdown valve.

The fluid transfer connector includes: a plug including a plug body, the plug body including a fluid channel; a socket including a socket body, the socket body including a fluid channel that communicates with the fluid channel of the plug body when the plug is connected to the socket; and a driving mechanism configured to adjust a distance between the plug body and the socket body. The plug body and the socket body can be stopped by the driving mechanism at an initial position where the plug body and the socket body are spaced from and face each other, a connecting position where the fluid channel of the plug body communicates with the fluid channel of the socket body, and an intermediate position between the initial position and the connecting position.

A valve seat is provided herein. The valve seat may include a ceramic valve seat insert positioned within a metal valve seat housing and comprising an indentation corresponding to a retention lip of the metal valve seat housing and a compliant sleeve positioned coaxially around at least a portion of an outer surface of the ceramic valve seat insert.

A fluid valve system including a housing defining a plurality of flow paths and a flow control assembly disposed in the housing. The flow control assembly includes a stationary member having a plurality of openings formed therein, and a rotatable member provided with a flow member. When the rotatable member is in a first position, the flow control assembly permits a flow of a first fluid through a first flow path and a flow of a second fluid through a second flow path, and when the rotatable member in a second position, the flow control assembly permits a flow of the first fluid through a third flow path and a flow of the second fluid through a fourth flow path.

A fluid valve system including a housing defining a plurality of flow paths and a flow control assembly disposed in the housing. The flow control assembly includes a stationary member having a plurality of openings formed therein, and a rotatable member provided with a flow member. When the rotatable member is in a first position, the flow control assembly permits a flow of a first fluid through a first flow path and a flow of a second fluid through a second flow path, and when the rotatable member in a second position, the flow control assembly permits a flow of the first fluid through a third flow path and a flow of the second fluid through a fourth flow path.

An adjustable flow restrictor includes a nut, an adjustment screw, and a sleeve. The adjustment screw installs into the nut whereby the adjustment screw and the nut define a pathway therebetween. Adjustment of the adjustment screw relative to the nut varies the pathway with respect to a length thereof. The sleeve fits over the adjustment screw and mates with the nut in order to define a chamber with an outlet. The pathway receives therein a liquid conveyed to the nut and communicates the liquid to the chamber for exit therefrom via the outlet. Adjusting the length of the pathway sets the volumetric flow rate of the liquid traversing the pathway such that the liquid exiting the outlet flows therefrom at a desired volumetric flow rate.

An adjustable flow restrictor includes a nut, an adjustment screw, and a sleeve. The adjustment screw installs into the nut whereby the adjustment screw and the nut define a pathway therebetween. Adjustment of the adjustment screw relative to the nut varies the pathway with respect to a length thereof. The sleeve fits over the adjustment screw and mates with the nut in order to define a chamber with an outlet. The pathway receives therein a liquid conveyed to the nut and communicates the liquid to the chamber for exit therefrom via the outlet. Adjusting the length of the pathway sets the volumetric flow rate of the liquid traversing the pathway such that the liquid exiting the outlet flows therefrom at a desired volumetric flow rate.

A gas cock for a gas burner and pilot flame includes a cock body with a plug receiving seat and a gas passage opening for passage of gas from/to the plug receiving seat. The cock has a conical plug, including a side wall extending around a central conical plug axis and housed in the plug receiving seat. The conical plug includes a plug opening for passage of gas from/to the plug receiving seat by the inner cavity of the conical plug based on a presettable angle of rotation between the cock body and the conical plug. The conical plug outer wall surface includes a groove connected to the plug opening. The groove includes a modulating portion extending between first and second angular positions in a circumferential direction of rotation of the conical plug with a depth that increases or decreases in the radial direction perpendicular to the side wall.