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The Proper Diaphragm Pressure Control Valve

1. How It Works

The possible uses of the pressure control valve are widely varied and well established. It can be used in two possible ways depending on the application:

Pressure Control Valve

Maintain constant back pressure for exact flow rates under free flow conditions, with positive pressure on the inlet side or with varying back pressure, or with the operation under vacuum etc.

Bypass Valve

Serves as a safety device for protection of the pump, motor, pipework, vessels and other accessories. Installed as a bypass valve, it prevents excessive pressure build up in the system caused by dirt, misuse or other problems.

The pressure control valve FDV30/1.30 are able to handle air, gas and liquids.

The pressure control valve can used with Hanshan products as well as other pump systems. The FDV30/1.30 series are recommended for use with the following pumps.

Metering pumps - all FM Products

Transfer pumps NF10, NF30, NF1.30

Vacuum pumps. Up to a max flowrate of: CALL Hanshan

Note! Pressure control valves are not absolutely tight shut-off valves. They should always be installed on the pressure side of the pump.

2. Construction

The FDV pressure control valve is based on the principle of the diaphragm valve. The essential components are the lower housing, the upper housing, the spindle and the diaphragm.

The required pressure is achieved by adjusting the tension in the spring. The spring tension exerts pressure on the diaphragm with is then transferred to the fluid system. By turning the spindle clockwise the opening pressure increases at a given flow rate and by turning it counter-clockwise the opening pressure decreases. A locking nut prevents adjustment from the set position.

In the normal position the diaphragm rests on both of the ports and the system is then closed. When the pressure produced by the pump exceeds the pre-set opening pressure the diaphragm is pushed open and the medium can flow. The pressure control valve is now in the working mode and is opened.

The parts in contact with the media are the diaphragm and the lower housing. They can be produced in a variety of materials which can be selected according to the liquid or gas to be transferred.

3. Technical Data

The correct control valve is selected according to the following criteria:

1. Pressure
2. Flow rate
3. Aggressive nature of the media
4. Size

Note that the pre-set opening pressure should not exceed the maximum pressure of the pump. Other important factors include connecting sizes, overall geometry, temperature etc. The following table assists in making the correct selection.

4. Options

The pressure control valve is also available with other options:

• turning knob instead of locking nut
• other materials / combination
• with hose connectors

5. Applications

Pressure control valves are used in diverse operations and can therefore undertake several functions:

1. As pressure control valve for precise dosing in systems with fluctuating pressure, for operating in a vacuum and for operating with back pressure on the suction side.
2. As bypass valve to prevent the build up of excessive pressure on the operating side of the system, for protection of the pump, pipework, vessels, glassware, etc.
3. Anti-injection function to avoid unintended injection of liquid when metering into pipework at high flow rates.

Examples of applications

1. Pressure control valve

The precision of diaphragm pumps can be influenced by other factors such as system pressures. The following illustrations demonstrates the use of the control valve in achieving precise metering.

a. Operation in a system with fluctuating back pressure

Varying back pressure can significantly influence the performance and thus the precision of the flow rate. The use of the pressure control valve promotes more stable system pressure. The pressure variation is reduced and so precise dosing is guaranteed.

b. Operation with vacuum on the outlet of the pump

When it is required to meter into a vacuum on the outlet side of the pump, use of the pressure control valve restricts the free flow of the media through the pump. Without a pressure control valve, the vacuum on the outlet side of the pump would cancel the effect of the pump and the media would flow unaided through the pump. This applies whether the pump is being used or not.

c. Operation with positive pressure on the suction side of the pump

If positive pressure exists on the suction side of the pump, accurate dosing is not possible. Even when the pump is not being used, it is still possible for the pressure head to force the media through the pump. The pressure control valve will withstand the higher pressure therefore guaranteeing optimum performance.

2. Bypass function

The bypass valve serves to restrict the build up of excessive pressure on the pump outlet side of the system. Therefore the pump, pipework and motor are adequately protected against malfunction or failures as a result of high pressure build up. In the case of excessive back pressure on the outlet side of the pump, the bypass valve opens and the media is recirculated. The media recirculates and the pump is protected until the restriction is removed.

A bypass valve should also be used if the pump has to operate against a closed system on the pressure side.

Pressurized measuring systems, pipework, receivers etc. can also be protection against excessive pressure build up by using the bypass valve. If excessive pressure build up occurs, the media will flow back through the valve and into a storage vessel.

3. Anti-injection function

When pumping into a tube that contains a continuously high speed of flow of media, ¡°venturi action¡± can occur. This means that when the pump is stationary, suction produced by the fast flow of liquid in the tube overcomes the resistance of the valves and pulls the dosing medium through the pump. This venturi action has a negative affect on the dosing accuracy.

With the built in diaphragm pressure control valve, the venturi action can be stopped. Furthermore the pressure control valve function assists the dosing accuracy even though the pipework pressure may vary.

4. Other functions

Further uses are:

Improved sealing against back flow, for example in analyzers

Over-pressure valves in liquid, air/gas systems

Charging pipework with constant pressure without the flow being drawn off through the bypass valve .

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