A pressure control system configured to automatically monitor and control pressure in fluid lines used in hydraulic fracturing or well stimulation activities is disclosed. The system generally includes at least two valve assemblies each having a valve and a valve actuation system, at least one pressure sensor, and an electro-mechanical control package. These components are configured such that the electro-mechanical controls automate the open and closed positions of the valve(s) via operation of the actuator(s) based on user inputs and information from the pressure sensor. This architecture allows the system to monitor and interpret pressures within the conduit and operate the valve position based on user defined signals and set-points. The valves may be positioned to redundantly monitor the same fluid conduit, or separate fluid conduits, and the system may be configured to enable independent valve positions based on independent user defined set-points or user inputted control signals.

A silencing choke for a solenoid valve can include a base and a stem configured to be coupled to an armature and can be configured for at least partially reducing or eliminating noise caused by armature bounce. A choke can be configured for limiting maximum flow through an orifice during at least a portion of a valve transition, which can include creating a state of orifice limited flow during the occurrence of armature bounce. A choke can be configured for at least partially reducing cross flow among ports and for limiting a maximum flow rate through at least one flow path of a valve.

A control valve includes a cage is disposed within a valve body adjacent to a valve seat. The cage includes a first sleeve and a second sleeve. The first sleeve includes a first circumferential wall having a first inner surface, a first outer surface, and a first longitudinal axis. The first sleeve also includes a first plurality of openings disposed in the first circumferential wall. The second sleeve includes a second circumferential wall having a second inner surface and a second outer surface and a second longitudinal axis. The second sleeve also includes a second plurality of openings disposed in the second circumferential wall. The first outer surface of the first circumferential wall is tapered at a first angle relative to the first longitudinal axis, and the second inner surface of the second circumferential wall is tapered at a second angle relative to the first longitudinal axis.

A control valve includes a cage is disposed within a valve body adjacent to a valve seat. The cage includes a first sleeve and a second sleeve. The first sleeve includes a first circumferential wall having a first inner surface, a first outer surface, and a first longitudinal axis. The first sleeve also includes a first plurality of openings disposed in the first circumferential wall. The second sleeve includes a second circumferential wall having a second inner surface and a second outer surface and a second longitudinal axis. The second sleeve also includes a second plurality of openings disposed in the second circumferential wall. The first outer surface of the first circumferential wall is tapered at a first angle relative to the first longitudinal axis, and the second inner surface of the second circumferential wall is tapered at a second angle relative to the first longitudinal axis.

A baffle for a main valve assembly of a fire hydrant includes an annular body, which further includes a cone-shaped portion, a first ring portion, and a second ring portion. The cone-shaped portion includes a first end with a first outer diameter and a second end with a second outer diameter, the second outer diameter being greater than the first outer diameter, and the cone-shaped portion defining a hollow. The first ring portion is connected to the cone-shaped portion at the first end of the cone-shaped portion, the first ring portion defining a center hole continuous with the hollow. The second ring portion is connected to the cone-shaped portion at the second end of the cone-shaped portion.

A baffle for a main valve assembly of a fire hydrant includes an annular body, which further includes a cone-shaped portion, a first ring portion, and a second ring portion. The cone-shaped portion includes a first end with a first outer diameter and a second end with a second outer diameter, the second outer diameter being greater than the first outer diameter, and the cone-shaped portion defining a hollow. The first ring portion is connected to the cone-shaped portion at the first end of the cone-shaped portion, the first ring portion defining a center hole continuous with the hollow. The second ring portion is connected to the cone-shaped portion at the second end of the cone-shaped portion.

A control valve includes a cage is disposed within a valve body adjacent to a valve seat. The cage includes a first sleeve and a second sleeve. The first sleeve includes a first circumferential wall having a first inner surface, a first outer surface, and a first longitudinal axis. The first sleeve also includes a first plurality of openings disposed in the first circumferential wall. The second sleeve includes a second circumferential wall having a second inner surface and a second outer surface and a second longitudinal axis. The second sleeve also includes a second plurality of openings disposed in the second circumferential wall. The first outer surface of the first circumferential wall is tapered at a first angle relative to the first longitudinal axis, and the second inner surface of the second circumferential wall is tapered at a second angle relative to the first longitudinal axis.

A baffle for a main valve assembly of a fire hydrant includes an annular body, which further includes a cone-shaped portion, a first ring portion, and a second ring portion. The cone-shaped portion includes a first end with a first outer diameter and a second end with a second outer diameter, the second outer diameter being greater than the first outer diameter, and the cone-shaped portion defining a hollow. The first ring portion is connected to the cone-shaped portion at the first end of the cone-shaped portion, the first ring portion defining a center hole continuous with the hollow. The second ring portion is connected to the cone-shaped portion at the second end of the cone-shaped portion.

A baffle for a main valve assembly of a fire hydrant includes an annular body, which further includes a cone-shaped portion, a first ring portion, and a second ring portion. The cone-shaped portion includes a first end with a first outer diameter and a second end with a second outer diameter, the second outer diameter being greater than the first outer diameter, and the cone-shaped portion defining a hollow. The first ring portion is connected to the cone-shaped portion at the first end of the cone-shaped portion, the first ring portion defining a center hole continuous with the hollow. The second ring portion is connected to the cone-shaped portion at the second end of the cone-shaped portion.

A valve assembly including a valve body defining an inlet, an outlet, a fluid flow path, and a chamber. A control element is disposed in the chamber and in the fluid flow path, and is rotatable by a valve stem about a pivot axis between an open position and a closed position. A flow conditioner coupled to the valve body and including a first end, a second end, and a plurality of channels extending between the first end and the second end. The plurality of channels are in flow communication with the fluid flow path of the valve body when the control element is in the open position. A plurality of walls separate the plurality of channels and include a first thickness and a second thickness different than the first thickness.