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1492370
solenoid valve VZWF-B-L-M22C-N1-275-E-3AP4-6 force pilot operated, NPT1" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installat
Festo
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1492373
solenoid valve VZWF-L-M22C-N2-500-E-3AP4-6 force pilot operated, NPT2" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installatio
Festo
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1492322
solenoid valve VZWF-B-L-M22C-G1-275-E-3AP4-6 force pilot operated, G1" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installatio
Festo
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1492222
solenoid valve VZWF-B-L-M22C-G14-135-E-2AP4-10 force pilot operated, G1/4" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line install
Festo
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1492353
solenoid valve VZWF-B-L-M22C-N34-275-3AP4-6 force pilot operated, NPT3/4" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installa
Festo
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1491953
solenoid valve VZWD-L-M22C-M-N18-30-V-2AP4-15 Directly actuated, NPT1/8" connection. Design structure: Directly actuated poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Any, Mounting type: Line installation
Festo
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1491920
solenoid valve VZWD-L-M22C-M-G14-20-V-2AP4-40 Directly actuated, G1/4" connection. Design structure: Directly actuated poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Any, Mounting type: Line installation
Festo
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1492002
solenoid valve VZWD-L-M22C-M-G14-50-V-3AP4-5 Directly actuated, G1/4" connection. Design structure: Directly actuated poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Any, Mounting type: Line installation
Festo
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1491952
solenoid valve VZWD-L-M22C-M-N18-25-V-2AP4-22 Directly actuated, NPT1/8" connection. Design structure: Directly actuated poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Any, Mounting type: Line installation
Festo
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1492206
solenoid valve VZWF-B-L-M22C-G14-135-2AP4-10 force pilot operated, G1/4" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installat
Festo
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1492303
solenoid valve VZWF-B-L-M22C-G38-135-3AP4-10 force pilot operated, G3/8" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installat
Festo
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1492305
solenoid valve VZWF-B-L-M22C-G34-275-3AP4-6 force pilot operated, G3/4" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installati
Festo
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1492388
solenoid valve VZWF-L-M22C-N112-400-V-3AP4-10 force pilot operated, NPT11/2" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line insta
Festo
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1492306
solenoid valve VZWF-B-L-M22C-G1-275-3AP4-6 force pilot operated, G1" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line installation
Festo
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1492372
solenoid valve VZWF-L-M22C-N112-400-E-3AP4-10 force pilot operated, NPT11/2" connection. Design structure: (* Diaphragm valve, * forced), Type of actuation: electrical, Sealing principle: soft, Assembly position: Magnet standing, Mounting type: Line insta
Festo
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1489999
solenoid valve VZWP-L-M22C-N1-250-V-3AP4-40 Servo-controlled, with piston, NPT1" connection. Design structure: Pilot-actuated piston poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Coil preferably on top, Mounting
Festo
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1489963
solenoid valve VZWP-L-M22C-G34-250-3AP4-40 Servo-controlled, with piston, G3/4" connection. Design structure: Pilot-actuated piston poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Coil preferably on top, Mounting t
Festo
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1491986
solenoid valve VZWD-L-M22C-M-G14-20-V-3AP4-15 Directly actuated, G1/4" connection. Design structure: Directly actuated poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Any, Mounting type: Line installation
Festo
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1489996
solenoid valve VZWP-L-M22C-N38-130-V-3AP4-40 Servo-controlled, with piston, NPT3/8" connection. Design structure: Pilot-actuated piston poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Coil preferably on top, Mounti
Festo
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1489997
solenoid valve VZWP-L-M22C-N12-130-V-3AP4-40 Servo-controlled, with piston, NPT1/2" connection. Design structure: Pilot-actuated piston poppet valve, Type of actuation: electrical, Sealing principle: soft, Assembly position: Coil preferably on top, Mounti
Festo
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Process & Media Valves
General Guide & Overview
Valves are essential devices in various industries, responsible for controlling, regulating, and directing flow within systems and processes. From managing the start and stop of flow to adjusting flow rates and pressure, valves play a crucial role in maintaining efficient operations. Whether it's in the oil and gas, chemical, pharmaceutical, or manufacturing industries, process valves are integral to achieving optimal performance and safety.
When it comes to process control valves, there are numerous options available, each tailored to specific applications and requirements. From automatic process control valves to pneumatically actuated valves, finding the right solution is essential.
One popular type of process valve is the pneumatic media valve, which utilizes air pressure to control flow. These valves are widely used in industries where precise control is necessary, thanks to their responsiveness and accuracy.
Different Types of Valves and Their Applications
Valves play a crucial role in controlling the flow of fluids within a system or process. There are various types of valves available, each designed for specific applications and offering unique advantages.
Rotary Valves
Rotary valves, such as ball valves, butterfly valves, and plug valves, are constructed with rotating or swinging closure components. These valves provide effective flow control and are commonly used for on/off operations. They are ideal for applications where quick shut-off or regulation is required.
Linear Valves
Linear valves, including globe valves, gate valves, and needle valves, operate using linear movement to control flow. Globe valves offer precise throttling and are suitable for high-pressure applications. Gate valves provide a full bore opening and are commonly used for isolation purposes. Needle valves allow for fine flow control and are often used in instrumentation systems.
Self-Actuated Valves
Self-actuated valves, such as relief valves, safety valves, check valves, and steam traps, do not require direct operator input. These valves respond to pressure changes and automatically control the flow to maintain system safety and efficiency.
Each type of valve has its own advantages and applications. For example, ball valves are widely used for their reliability and ease of operation, making them suitable for various industries. Butterfly valves are commonly employed in applications involving larger pipes, thanks to their cost-effectiveness and compact design. Globe valves offer precise throttling control, making them ideal for processes requiring accurate flow regulation.
Other types of valves commonly used in industrial applications include solenoid valves, coaxial valves, and angle seat valves. These valves provide specific functionalities and find applications in various industries.
Process Valves
Process control valves are essential components in the regulation of flowing fluids within production processes, ensuring optimal efficiency and quality. These valves come in different types and are tailored to specific process requirements. Ball valves are widely favored for their robustness and reliable closure, offering excellent durability in various industrial applications. Butterfly valves provide a cost-effective solution with their ability to facilitate quick shut-off, making them suitable for processes that require fast response times.
In high-pressure scenarios where precise throttling is necessary, globe valves excel with their ability to accurately control the flow, offering exceptional performance and reliability. To meet the diverse needs of businesses, several reputable manufacturers produce an extensive range of process valves.
FAQ
What is the purpose of valves in a system or process?
Valves are devices used to control, regulate, or direct flow within a system or process. They have various functions such as starting or stopping flow, regulating flow and pressure, controlling the direction of flow, and throttling flow rates.
What are the different types of valves based on their opening methods?
Valves can be categorized based on their opening methods, including multi-turn valves, quarter-turn valves, and automatic valves.
What are some common types of valves?
Common types of valves include ball valves, butterfly valves, check valves, gate valves, knife gate valves, globe valves, needle valves, pinch valves, plug valves, and pressure relief valves.
How important is it to choose the right valve size and end connections?
Choosing the right valve size and end connections is crucial for optimal performance and flow control.
What factors should be considered when selecting valve materials?
Valve materials should be selected based on the media and operating conditions, and compliance with standards is important for safety and regulatory requirements.
How are valves classified based on their construction and mechanisms?
Valves can be classified into different types based on their construction and mechanisms, including rotary valves, linear valves, and self-actuated valves.
What are some examples of self-actuated valves?
Examples of self-actuated valves include relief valves, safety valves, check valves, and steam traps.
What are the advantages and applications of different types of valves?
Each type of valve has its advantages and applications, such as ball valves being widely used for on/off control, butterfly valves being suitable for larger pipes, and globe valves offering precise throttling.
What are some other types of valves commonly used in industrial applications?
Solenoid valves, coaxial valves, and angle seat valves are other types commonly used in various industrial applications.
How do process control valves contribute to production processes?
Process control valves play a vital role in regulating flowing fluids in production processes to ensure efficiency and quality.
How can businesses optimize their production processes with the right process valve?
By choosing the right process valve and working with reputable manufacturers, businesses can optimize their production processes.