Media separated solenoid valves
In a medium separated solenoid valve, the fluid is not in contact with the internal mechanical parts, such as the plunger and spring. These valves are particularly suitable for contaminated or corrosive fluids. Before discussing the design and application of these valves, we first explain the basic design principles of a solenoid valve.
A solenoid valve is electromagnetically operated. The actuator is a solenoid, which is an electric coil with a movable ferromagnetic core in its center. This core is often referred to as plunger. An electric current through the coil creates a magnetic field which exerts a force on the plunger. As a result, the plunger is pulled toward the center of the coil. If current is flowing, the core remains pulled towards the center. As soon as the flow of current stops, the magnetic field disappears, and the core is (usually) pushed down by a spring to its initial position. The moving of the plunger by an electric current creates an electromechanical system which is the basic operating component of all solenoid valves.
Media separated valves are designed to handle critical media such as aggressive, particle-loaded or high purity liquids or gases. Therefore, it is essential to separate the hydraulic and electrical parts of the valve from the flow path. These types of valves are designed in a way that media is only in contact with valve body, seal and isolation diaphragm. The actuator is located outside the fluid space which protects it from corrosion or accumulation of foreign matter. Consequently, media is protected from contamination and excessive temperature fluctuations. The isolation diaphragm and valve body are made of resistant materials and the valve can be flushed easily due to the reduced dead spaces.
Media separated solenoid valves exist in many different configurations. In general, the main actuation mechanism falls into two categories: direct operated and indirect operated. The most important criteria to keep in mind while choosing the right valve type is that direct operated valves work from zero bar pressure difference at inlet and outlet, while indirect operated solenoid valves require a minimum pressure difference of around 0.5 bar between the ports. Indirect operated solenoid valves are designed to control larger flow rates using a relatively small solenoid. In the following sections, the operating principle of commonly used media separated solenoid valves is discussed.
Direct Operated Toggle Solenoid Valve
This toggle valve operates according to the law of lever. A lever pivots at a fixed hinge and can be used to exert a large force over a small distance at one end by exerting only a small force over a greater distance at the other. In a solenoid direct acting toggle valve, the plunger is connected perpendicular to the lever at the upper end (Figure 1) and the sealing cylinder is located on the lower end of the lever. The input force created by the horizontal motion of the plunger is translated through the lever to the sealing cylinder onto the valve seats. This characteristic can therefore directly switch large diameters in a valve.
2/2-way Direct-acting Solenoid Toggle Valve
Figure 1: 2/2-way Direct-acting Solenoid Toggle Valve
Since the lever passes through an isolating diaphragm the actuator is separated from the fluid body. Media separation makes this valve especially suitable for use in critical acidic and alkaline solutions or in media that contain particles. Due to the large diameters, this valve is often used as an emptying and mixing valve. This valve can operate as a 2/2-way or 3/2-way.
Direct Operated Pivoted Armature Solenoid Valve
In this type of valve, the plunger is the armature that is pivoted at one point, passes through a flexible isolating diaphragm and enters the valve body on the other side of the diaphragm. When the solenoid is energized, the pivoted armature (the plunger) is pulled in the solenoid and pivots against the force of a return spring. Similar to the toggle valve, the sealing cylinder therefore is pushed against the valve seat (in normally open valves) to stop the flow. Without current, the pivoted armature pivots back by the force of the return spring causing the sealing cylinder to move away from valve seat letting medium to flow.
A 3/2 way direct-acting pivoted armature solenoid valve is shown in figure 2. In the de-energised state the sealing cylinder is forced against valve seat 1 by spring force. In the energised state the solenoid pivots the core armature against the force of the spring and the sealing cylinder is forced against valve seat 2.
2/3 Direct-acting Pivoted Armature Solenoid Valve
Figure 2: 2/3 Direct-acting Pivoted Armature Solenoid Valve
The use of a separating diaphragm, which separates the media chamber from the electro-magnetic system, makes it possible to use these valves for the control of corrosive, contaminated and aggressive fluids as well as for vacuum.
Indirect Operated (Servo Operated) Solenoid Valves
Opening large orifices using the direct acting method would require enormous and expensive coils. Servo assisted valves use the differential pressure of the medium over the valve ports to open and close. The working principles of a servo assisted solenoid valve is discussed further here.
In a servo assisted valve with pivoted armature pilot control, the pilot valve is a direct acting pivoted armature valve, while the seal of the main valve is a larger flexible diaphragm or a piston.
The main area of application for this valve is the reliable switching of mildly contaminated and aggressive gases and fluids for larger diameters. With this valve type there is very little danger of clogging, since the actuator and media chamber are separated by a diaphragm.
Other Valve Types
Among other media separated valves, pinch valves, ball valves and butterfly valves are also commonly used for flow control of contaminated or aggressive fluids:
Pinch (solenoid) valves are placed around process tubing and force the tubing together (pinch) to create a seal that shuts off the flow. Pinch valves are commonly used in medical instruments, clinical or chemical analyzers, and a wide range of laboratory equipment. Pinch valves are full bore (full port) valves minimizing loss of pressure when fully open.
Ball Valves use a hollow perforated pivoting ball to control fluid. When the ball’s hole is in line with the flow, the valve is fully open, and when it is pivoted 90 degrees the valve is fully closed. Ball valves are durable, easy to operate and can operate in high pressures and temperatures.
Butterfly Valves use a disk that rotates by a quarter-turn to shift between open and closed states. Butterfly valves usually have lowers costs, and weigh less in comparison to ball valves. However, since the disc is always present within the flow, even when fully open, they always induce a pressure drop in the system.
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