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Flanged end auto control valve

Flanged End Auto Control Valve
A flanged end auto control valve is an automatic regulating valve designed with flanged connections for secure and leak-proof installation in pipelines. It is commonly used in industrial fluid control systems, ensuring precise regulation of pressure, temperature, and flow using pneumatic, electric, or hydraulic actuators.

Key Features
  • Flanged end connections for secure bolted installation
  • Automatic operation using pneumatic, electric, or hydraulic actuators
  • Available in various materials like stainless steel, carbon steel, and alloy steel
  • Handles high-pressure and high-temperature applications
  • Leak-proof design for enhanced safety and efficiency
Types of Flanged End Auto Control Valves
  • Pneumatic Flanged Control Valve – Uses compressed air for automation
  • Electric Flanged Control Valve – Operates with an electric actuator for precise control
  • Hydraulic Flanged Control Valve – Utilizes hydraulic pressure for high-pressure systems
  • Globe Control Valve – Ideal for throttling and accurate flow regulation
  • Ball Control Valve – Ensures quick shutoff with minimal pressure drop
  • Butterfly Control Valve – Used for high-flow applications in large pipelines
Applications
  • Oil & Gas Industry – Regulates fuel, oil, and gas flow in pipelines
  • Chemical Processing – Controls corrosive and high-pressure fluids
  • Water Treatment Plants – Manages water distribution and treatment systems
  • HVAC Systems – Ensures controlled air and liquid flow
  • Power Plants – Controls steam and cooling systems efficiently
Advantages of Flanged End Auto Control Valves
  • Strong and secure connection with bolted flanges
  • Provides precise flow control for industrial applications
  • Handles high-pressure and high-temperature conditions
  • Leak-proof and corrosion-resistant for durability
  • Easy maintenance and long service life
Maintenance & Safety Tips
  • Check for flange gasket wear to prevent leaks
  • Ensure proper actuator function for smooth automation
  • Monitor pressure and temperature limits to avoid system damage
  • Use appropriate flange bolts and tightening techniques
  • Follow industry safety regulations for safe operation

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