Product information "Akron Brass - Mercury™ Nozzle 500 GPM"
Akron Brass Mercury™ Nozzle – 500 GPM
Versatile, High-Performance Master Stream Nozzle for Demanding Firefighting Applications
The Akron Brass Mercury™ Nozzle – 500 GPM is engineered to deliver exceptional performance in high-demand firefighting scenarios. Available in both fixed and adjustable gallonage models, this nozzle offers flexibility and reliability for various operational needs.
Key Features:
Flow Rate: Capable of delivering up to 500 GPM (1900 LPM) at 100 PSI (7 bar), ensuring robust water flow for effective fire suppression.
Material Construction: Crafted from durable Pyrolite®, providing corrosion resistance and longevity in harsh firefighting environments.
Inlet Size: Equipped with a 2.5" (65 mm) NH thread inlet, compatible with standard firefighting hose connections.
Manual Pattern Control: Allows for precise adjustment between straight stream and wide fog patterns, enhancing adaptability on the fireground.
Spinning Teeth: Ensures a dense, fully adjustable fog pattern for optimal coverage and heat absorption.
Compact and Lightweight: Designed for ease of handling and maneuverability, reducing firefighter fatigue during extended operations.
Model Options:
Style 4445 – Fixed Gallonage Nozzle:
Delivers a consistent 500 GPM flow at 100 PSI.
Weighs approximately 5 lbs (2.3 kg) with a length of 7" (178 mm).
Ideal for applications requiring a steady, unvarying water stream.
Style 4446 – Adjustable Gallonage Nozzle:
Selectable flow settings of 250, 375, and 500 GPM at 100, 87, and 80 PSI respectively.
Features a flush setting for debris removal without shutting down operations.
Weighs approximately 6.2 lbs (2.8 kg) with a length of 8.1" (205.7 mm).
Certified to NFPA 1964 and EN-15767-2 standards.
Applications:
Suitable for a wide range of firefighting scenarios, including structural, wildland, and industrial fires. The Mercury™ Nozzle's versatility and robust construction make it a valuable tool for fire departments seeking reliable performance in diverse conditions.