SOLENOID VALVES

Jul 25, 2023

SOLENOID VALVES-ALL YOU NEED TO KNOW

A solenoid valve is an on/off electromechanically operated valve which consists of an electromagnetic actuator (solenoid) and a valve body. The solenoid-plunger assembly is the valve actuator responsible for opening and closing the valve. This actuator can be arranged in such a way that the plunger action can either open or close only. There is no intermediate, or in-between position, so there is no way for a solenoid to throttle flow. The valve body consists of the pressure containing parts in-contact with the process fluid.

The solenoid converts electrical energy into a mechanical pull/push action. This consists of a coil of wire tightly wrapped around an iron core, and a ferromagnetic plug or plunger. Components vary depending on the design. As an electrical current passes through the coil, a magnetic field is generated. The magnetic field lines can be imagined as a series of circles with the direction of its current axis. In the case of a flowing current along a looped coil, the circles combine forming the magnetic field

Different technologies of solenoid valves

There are 3 main different technologies; Direct acting, In-direct acting and Forced-lift piston type.

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Solenoid Valve Components

The coil is one of the main parts of the solenoid which consists of an insulated copper wire wound tightly around a core tube. As described earlier, a magnetic field is generated when current is applied.

The core, also referred to as the armature or plunger, is the moving part of a solenoid. This is a soft magnetic metal; soft, meaning a ferromagnetic metal that can easily be magnetized and demagnetized at low magnetic fields. When the coil is energized generating a magnetic field, the core is attracted which opens or closes the valve.

The core spring returns the core to its original position when the magnetic field is removed. The core spring design and configuration in the solenoid assembly varies depending on the valve operation. In some designs, such as the latching type solenoid valves, it does not use springs to create a return action.

This is installed at the closed end of the core tube which also improves the magnetic flux. The material is also a soft magnetic metal.

The diaphragm is a flexible material that isolates the solenoid assembly from the fluid. The diaphragm is designed to contain the pressure of the fluid.

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The stem is part of the valve where the core or plunger is attached. As the core is attracted by the coil, the stem moves along with it actuating the valve.

The disc blocks the flow of fluid when the valve is closed. In some solenoid valve designs, diaphragms, bellows or pinch devices are used instead of a disc to block fluid flow. Depending on the application, the disc is usually made of corrosion and erosion resistant materials such as PTFE or stainless steel.

The core tube is where the coil is wound. This also acts as a soft magnetic core which improves the magnetic flux generated by the coil.

The seat is the orifice that presses against the disc when closing the valve. Like the disc, the seat may not be present depending on the valve design. The seat is also made of corrosion and erosion resistant material. Once the seat or disc is damaged, the valve will become passing and unable to stop flow.

The seal, like the diaphragm, isolates the solenoid assembly and the external environment from the fluid. Depending on the application and the process fluid, there is a variety of seal materials available such as PTFE, FKM, NBR and EPDM.

The valve bonnet seats at the top of the valve body. The core tube and stem extend through the bonnet and into the valve.

The body is the main part of the valve which holds the diaphragm, disc, seat and the inlet and outlet ports.

For indirect or semi-direct acting solenoid valves, a bleed orifice is installed on the diaphragm. Some valve designs use an equalizing hole. The bleed orifice enables the valve to use the line pressure to open or close the valve.

For indirect acting solenoid valves, a pilot channel is included into the valve body. This is where fluid flows from the top of the diaphragm and into the downstream side of the valve.

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