Valves

What are valves?

Valves are flow components that are used to control the flow of a medium such as air, water, oil or gas. They can open, close, throttle or divert the flow and are therefore essential control elements in almost all technical systems. The functional principle of a valve is based on the fact that a movable closing element (e.g. ball, cone, disc or diaphragm) influences the flow cross-section within a pipe. Depending on the type of actuation, control is manual, mechanical, electrical, pneumatic or hydraulic.

Valves can be categorised according to various criteria:

• Shut-off valves: close or open the flow completely
• Control valves: control the flow rate continuously
• Non-return valves: prevent backflow and secure systems against pressure reversal
• Safety valves: protect systems from overpressure
• Proportional valves: enable precise, infinitely variable control with variable pressures

Depending on the design, different closing elements are used, such as balls (ball valve), diaphragms (diaphragm valve) or plugs (plug valve). Valves can be found in almost all areas of industry.

Functions & applications of valves

Valves fulfil several tasks in technical systems: They regulate and control the flow of media. Their targeted actuation adapts the flow within a system to process conditions. In safety-relevant areas, they prevent damage caused by excessive pressure or unwanted backflow.

Central functions of valves:

• Shutting off pipes (e.g. during maintenance or shutdown)
• Regulation of pressure, volume flow or temperature
• Controlling complex processes in automated systems
• Protect against overpressure or backflow
• Disconnecting and switching between different media streams

Typical applications:

• Hydraulic and pneumatic systems: controlling the flow of oil or air in machines, presses or robots
• Chemical industry: precise dosing of liquids and gases
• Food and medical technology: sterile control of hygienic process media
• Energy supply: Regulation of steam, water or fuels
• Building technology: Control in heating, ventilation and sanitary systems
• Vehicle technology: control of fuel, air or coolant flows

Thanks to the wide range of designs - such as ball valves, gate valves, butterfly valves, diaphragm valves or solenoid valves - almost any flow task can be solved. In modern systems, valves are often integrated into automated control circuits, where they are monitored and controlled via sensors, PLCs or Industry 4.0 systems.

Valve components & materials

A valve basically consists of a valve housing, a closing element, a Sealing unit and an actuating mechanism:

• Housing: carries the internal pressure and forms the flow channel
• Closing element: ball, cone, disc or diaphragm to regulate the flow rate
• Sealing system: usually made of rubber, plastic or PTFE to prevent leaks
• Actuating unit: handwheel, lever, solenoid coil or pneumatic actuator
• Connection pieces: Flange, thread or clamp connection depending on the pipe system

The choice of material and design depends on the medium, temperature, pressure and chemical load:
Metals:

• Stainless steelcorrosion-resistant, universally applicable in chemistry, food, medicine
• brasseconomical, good workability, frequently used in water and heating installations
• Aluminiumlight and robust, preferred in pneumatic systems
• Cast iron: high compressive strength, classic in plant construction

Sealing and membrane materials:

• NBRoil-resistant, standard material for hydraulic valves
• EPDMWeather and vapour resistant, ideal for water and air applications
• FKM (Viton®): chemically resistant, for aggressive media and high temperatures
• Silicone (VMQ): temperature-resistant and elastic, e.g. in medical technology or food processing

Elastomers are often used in valves with rubber seals or diaphragms. vulcanised or form-fit embedded to ensure a long-lasting seal. Modern production technologies also enable precise surfaces and tight tolerances, minimising leakages and maximising service life and operational reliability.