Valve Selection Guide
Valve Selection Guide
Angle-Seat Valves:
Utilize an ultra-compact actuator to move a piston back and forth within the valve body. On/off control and continuous control designs are available for gases, steam, and liquids. The construction of the body allows extremely high flow rates, particularly in comparison to conventional globe valves.
Ball Valves:
Designed primarily for on/off service. These valves contain a ball with a hole through it. A handle or electric actuator rotates the ball 90°, turning the flow on or off. Use plastic ball valves for liquid applications only.
Butterfly Valves:
Designed primarily for on/off service. These valves have low pressure drops and are self-sealing so they don't require an additional flange gasket for installation. For pipe sizes ranging from 1.5" to 12" dia.
Check Valves:
Self-actuated valves designed to prevent fluid from flowing backward into your system. Flow forces a ball or disk in one direction to open the valve; when flow stops, the ball or disk seats to close the valve.
Diaphragm Valves:
Use a flexible diaphragm to shut off flowÑcenter of the diaphragm is pushed down into a seat. Use these valves for fluids that are dirty or have a high particulate content.
Elliptic Valves:
Similar to ball valves except elliptic valves use an elliptic O-ring to seal the cylinder during rotation. The seal design makes these valves ideal for vacuum applications.
Manifold Valves:
Have one common port to two or more additional ports. For mixing, use the common port as the outlet; for distributing, use the common port as the inlet.
Metering Valves:
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Multi-turn valves designed to regulate the flow of fluid. These valves generally have low flow rates and high pressure differentials.
Needle Valves:
Feature the most accurate flow control among the valves we offer. They are an excellent choice for precise metering of liquids or gases.
Pinch Valves:
Use solenoid to squeeze shut a piece of tubing. Fluid contacts only the tubingÑideal for your high-purity fluid applications.
Plug Valves:
Used primarily for on/off service. Controls flow using a plug with a hole through it. Plugs can be made of rigid materials such as PTFE¨, making them ideal for high-purity applications.
Pressure Valves:
Designed to control or limit pressureÑnot flowÑin a system. These self-actuating valves will either open a relief port or bypass the fluid when a preset limit is reached.
Proportioning Valves:
Designed to produce variable flow rates. Valves open and close in proportion to the signal from your controller.
Sample Valves:
Special three-way valve designed to tap off a portion of the main flow for sampling purposes.
Sanitary Valves:
Feature Tri-Clamp® connections and 316 stainless steel body construction for sanitary and high purity applications.
Solenoid Valves (Direct Lift):
Use a plunger that is actuated to open or close the fluid path. These valves usually have low flow rates and high differential pressure drops. They generally have quicker response time than pilot-operated valves.
Solenoid Valves (Pilot-Operated):
Utilize pressure created by air or liquids for actuation purposes. These valves are either piston or diaphragm types and require differential pressure to keep valve closed. Because they don't have a plunger, they are usually available in larger orifice sizes than direct lift valves.
Stopcocks:
Similar to ball valves except stopcocks are much smaller in size. Primarily used in the laboratory for on/off control of flow or as a crude regulation of flow rate.
Valve Terms Contact us to discuss your requirements of valve testing machinery. Our experienced sales team can help you identify the options that best suit your needs.
Has three ports. Depending on the particular valve, all three ports may be open, two ports may be open, or all ports may be closed.
Has three ports. Depending on the particular valve, all three ports may be open, two ports may be open, or all ports may be closed.
Has three ports. Depending on the particular valve, all three ports may be open, two ports may be open, or all ports may be closed.
Has three ports. Depending on the particular valve, all three ports may be open, two ports may be open, or all ports may be closed.
The difference between the inlet and the outlet pressure through a valve. The outlet pressure is lower than the inlet pressure due to the restriction caused by the valve.
The difference between the inlet and the outlet pressure through a valve. The outlet pressure is lower than the inlet pressure due to the restriction caused by the valve.
The difference between the inlet and the outlet pressure through a valve. The outlet pressure is lower than the inlet pressure due to the restriction caused by the valve.
The difference between the inlet and the outlet pressure through a valve. The outlet pressure is lower than the inlet pressure due to the restriction caused by the valve.
A diagram showing how flow can be directed using a particular valve. (See the
A diagram showing how flow can be directed using a particular valve. (See the Flow Patterns box below for further explanation.)
A diagram showing how flow can be directed using a particular valve. (See the Flow Patterns box below for further explanation.)
A diagram showing how flow can be directed using a particular valve. (See the Flow Patterns box below for further explanation.)
100% duty cycle is defined as continuous operation without any damage occurring. For intermittent duty cycle (<100%), alternate energized and de-energized state at regular intervals to allow the valve to completely down to room temperature.
100% duty cycle is defined as continuous operation without any damage occurring. For intermittent duty cycle (<100%), alternate energized and de-energized state at regular intervals to allow the valve to completely down to room temperature.
100% duty cycle is defined as continuous operation without any damage occurring. For intermittent duty cycle (<100%), alternate energized and de-energized state at regular intervals to allow the valve to completely down to room temperature.
Selecting your Valve
Consider your fluid type (liquid or gas) and its characteristics to determine compatible valve materials.
Consider your fluid type (liquid or gas) and its characteristics to determine compatible valve materials.
Consider your fluid type (liquid or gas) and its characteristics to determine compatible valve materials.
Consider your fluid type (liquid or gas) and its characteristics to determine compatible valve materials.
Our manual valve selection includes ball, check, diaphragm, elliptic, metering, needle, pinch, plug, pressure relief, and stopcock valves. Our actuated valve selection includes electrically actuated ball, elliptic, pinch, proportioning, and general-purpose solenoid valves.
Our manual valve selection includes ball, check, diaphragm, elliptic, metering, needle, pinch, plug, pressure relief, and stopcock valves. Our actuated valve selection includes electrically actuated ball, elliptic, pinch, proportioning, and general-purpose solenoid valves.
Our manual valve selection includes ball, check, diaphragm, elliptic, metering, needle, pinch, plug, pressure relief, and stopcock valves. Our actuated valve selection includes electrically actuated ball, elliptic, pinch, proportioning, and general-purpose solenoid valves.
PTFE withstands many harsh or corrosive chemicals. For safety reasons, always use metal valves for pressurized gases.
Determine the temperature, pressure, and flow rate under which your valve will be operating.
Determine the temperature, pressure, and flow rate under which your valve will be operating.
Determine the temperature, pressure, and flow rate under which your valve will be operating.
Determine the temperature, pressure, and flow rate under which your valve will be operating.
In general, metal valves withstand higher temperatures and pressures than plastic valves.
Continuous (100%) duty solenoid valves are best for frequent on/off cycling. Choose normally closed or normally open depending on the state the valve will be in most often.
Continuous (100%) duty solenoid valves are best for frequent on/off cycling. Choose normally closed or normally open depending on the state the valve will be in most often.
Continuous (100%) duty solenoid valves are best for frequent on/off cycling. Choose normally closed or normally open depending on the state the valve will be in most often.
For solenoid valves, consider response time and length of time valve will be energized.
For solenoid valves, consider response time and length of time valve will be energized.
For solenoid valves, consider response time and length of time valve will be energized.
For solenoid valves, consider response time and length of time valve will be energized.
Ball valves resist plugging and are easiest to service.
Valve Types
Valve Selection Guide From The Experts At Allied Valve
A valve is a device that controls flow, a definition that barely begins to describe the current valve landscape. Valves today can direct and regulate flow, rate, volume, and pressure of liquids, gases, and other materials. They come in many shapes and sizes and are fundamental to nearly every venture into manufacturing and production. The Valve Manufacturers Association of America puts it best when it claims, The valve is one of the most basic and indispensable components of our modern technology society.
Below is an illustrated guide to common types of valves used in industrial settings today.
Relief valve, or safety valve
Self-actuated valve
Function
- Protects from overpressure
Usage notes
- Opens and closes to limit the amount of pressure
- Prevents damage to a system
Pilot valve
Function
- Controls the flow to a separate valve
Usage notes
- Reduces the force necessary to control a high-pressure or high-flow feed
- Excellent for emergency and safety controls
Gate valve
Multi-turn or linear motion valve
Function
- On/off control
- Non-throttling
Usage notes
- Excellent for heavy and solid liquids
- Isolates pipe systems
Globe valve
Multi-turn or linear motion valve
Function
- On/off control
- Throttling
Usage notes
- Excellent for regulating flow of thick or corrosive fluids
- Ports may be straight or at an angle
Check valve, or non-return valve
Self-actuated valve
Function
- Allows flow in only one direction
Usage notes
- Prevents backflow
- Types include ball check valves, piston check valves, swing check valves, and tilting disc check valves
Ball valve
Quarter-turn or rotary valve
Function
- On/off control
- Some throttling
Usage notes
- Excellent for quick shut-off
- Versatile, supporting high temperatures and pressures
Control valve
Function
- Accurate control of flow, temperature, pressure, and liquid level
Usage notes
- Varies flow rate based on external sensors
- Many types of valves can be used as control valves
Plug valve
Quarter-turn or rotary valve
Function
- On/off control
- Some throttling
Usage notes
- May have some pressure drop
Butterfly valve
Quarter-turn or rotary valve
Function
- On/off control
- Throttling
Usage notes
- Limited control capacity
- Some pressure drop, regardless of valve position
Low pressure/vacuum vent
Function
- Protects against an internal vacuum
Usage notes
- Excellent for protecting equipment, such as liquid storage tanks, from structural damage
Flame arrester
Function
- Stops a flame to prevent it from developing into a fire
Usage notes
- Protection for lines and pipe systems
- Frequently used in fuel storage tanks and gas pipelines
Picture of plug valve by Heather Smith (The Alloy Valve Stockists photo gallery) [CC-BY-3.0], via Wikimedia Commons
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