Why a Brass Check Valve is Important

A control system is a process which consists of control valves, actuators, controllers, and sensors. The goal of the control system is to provide maximum regulation to the plant operator or plant personnel. A brass check valve provides an essential means of controlling the variables inherent in regulating a control system.
 
A brass check valve is a check valve in which the closing member, the movable part to block the flow, is a spherical flap or disc. In some check valves, the flap is spring-loaded to help keep it shut. For those designs without a spring, reverse flow is required to move the flap toward the seat and create a seal. The interior surface of the main seats of brass check valves are more or less conically-tapered to guide the flap into the seat and form a positive seal when stopping reverse flow.
 
A brass check valve is a device that is used to regulate control loops in a process. One plant may have multiple control loops, which all require control valves to monitor and control the process variable of the particular loop. Pressure, level, temperature, flow, etc., must all be maintained within specific set parameters in order to ensure a quality end product. A check valve is used to ensure that the process media in the system flows in the right direction, and it automatically shuts when the pressure falls below the cracking point. The cracking point is the minimum amount of upstream flow pressure required to open the check valve. A brass check valve also ensures that downstream flow is virtually impossible, since it is designed to only allow flow in one direction.
 
The most common control valves are sliding-stem globe valves and angle valves. Other general valve design types include ball, fixed cone, butterfly, gate, check, needle, plug, and spherical. Each type of valve is designed for a particular application, and these valves are rarely interchangeable. Also, each type of valve can be custom assembled to meet the particular process for which the valve is intended to be used.
 
A brass check valve can fill the need in almost any part of a company’s process control loop. Other sizes, styles, and constructions of control valves include cage-style valve bodies, disk-stack style valve bodies, angle seat piston valves, single-port valve bodies, balanced-plug cage-style valve bodies, high capacity, cage-guided valve bodies, port-guided single-port valve bodies, double-ported valve bodies, three-way valve bodies, diaphragm valves, rotary valves with butterfly valve bodies, v-notch ball control valve bodies, eccentric-disk control valve bodies, eccentric-plug control valve bodies, sliding cylinder valves with directional control, spool, piston valves, air operated valves, relay valves, or pinch valves.
 
The regulation of flow must be maintained at a sufficiently linear pace to stay within the specified operating parameters of a process control system. A check valve is integral to regulating the control loop, and it directly influences profitability with its performance. Improperly selected valves will prove to be detrimental to the performance of the control loop and safety system.

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