ACTUATOR BUTTERFLY VALVE

  1. Nominal Size:
    • Actuated butterfly valves are available in various nominal sizes to accommodate different flow rates and pipe diameters. Sizes can range from smaller valves for laboratory applications to larger valves for bulk pharmaceutical manufacturing.
  2. Connection Type:
    • The connection types for actuated butterfly valves in the pharmaceutical industry often include sanitary or aseptic connections to meet hygiene standards. These may include clamp, weld, or aseptic flange connections.

Description

  1. Hygienic Design:
    • Actuated butterfly valves are designed with smooth and hygienic surfaces, making them suitable for pharmaceutical applications where cleanliness and sterility are crucial.
  2. Sterilization Capability:
    • Some actuated butterfly valves can be designed for in-place sterilization (SIP). This is essential in pharmaceutical manufacturing to maintain aseptic conditions and prevent contamination.
  3. Material Compatibility:
    • Actuated butterfly valves are available in materials that are compatible with pharmaceutical products and cleaning agents. Common materials include stainless steel and corrosion-resistant alloys.
  4. Precise Flow Control:
    • Actuated butterfly valves provide precise control over flow rates. The ability to modulate the valve position allows for accurate dosage control and precise mixing in pharmaceutical processes.
  5. Bubble-Tight Shut-Off:
    • Actuated butterfly valves offer reliable bubble-tight shut-off, ensuring that there is no leakage of fluids. This is critical in pharmaceutical applications where maintaining a sterile environment is paramount.
  6. Adaptability to Automation:
    • Actuated butterfly valves can be easily automated using electric or pneumatic actuators. This enables seamless integration into process control systems, allowing for remote operation and monitoring.
  7. Ease of Maintenance:
    • Actuated butterfly valves are designed for easy maintenance. The simple design with fewer moving parts contributes to reduced maintenance requirements, which is advantageous in pharmaceutical facilities where minimizing downtime is crucial.
  8. Low Particle Generation:
    • The design of actuated butterfly valves minimizes particle generation, making them suitable for applications where maintaining a particle-free environment is essential.
  9. Regulatory Compliance:
    • Actuated butterfly valves can be designed to comply with regulatory standards such as cGMP (Current Good Manufacturing Practice) and FDA (Food and Drug Administration) requirements. Compliance is crucial in the pharmaceutical industry to ensure product quality and safety.
  10. Bi-Directional Flow Capability:
    • Actuated butterfly valves are designed to handle bi-directional flow, providing flexibility in controlling the direction of fluid flow in pharmaceutical processes.
  11. High Purity Standards:
    • Actuated butterfly valves are well-suited for applications requiring high purity standards, such as the production of injectable drugs and sterile formulations.
  12. Integral Part of Aseptic Processes:
    • Actuated butterfly valves play an integral role in aseptic processing systems, contributing to maintaining sterile conditions throughout pharmaceutical manufacturing.
  13. Valve Position Indication:
    • Actuated butterfly valves can be equipped with position indicators, allowing operators to easily monitor the valve’s status in the pharmaceutical production line.
  14. Adaptability to Changing Process Conditions:
    • Actuated butterfly valves provide adaptability to changing process conditions, allowing operators to control flow as needed to accommodate variations in production requirements.
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