RI-HF75 Puretec Radfire UV System, 75 m3/hr, 4" Connection
The Puretec RI-HF75 ultraviolet purification systems incorporate industry-leading, state-of-the-art functionality with premium build quality and reliable performance for peace of mind in critical applications. When you need high-flow disinfection backed by a world-class brand, the Puretec Radfire RI-HF Series of UV systems is the safest choice.
Puretec Radfires state-of-the-art controller is an electronic power source that provides a constant UV dose by protecting against voltage fluctuations and comes standard with a range of different port configurations for future upgrades and/or optional accessories.
A clear yet comprehensive user interface allows for easy visual identification of remaining lamp life and any error or fault codes.
Rugged 316 stainless steel reactors include an integral UV Intensity Sensor port and include a calibrated sensor as standard to make all the RI-HF models fully monitored systems. The robust housing that locks the sensor in place eliminates sensor movement and allows for sensor change-outs without the need to drain the reactor chamber. Reliable, industry-proven, high-quality low pressure (LP) coated UV lamps are used offering a consistent output over their entire service life.
All UV systems require pre-filtration to at least 10 micron.
Control bacteria & virus issues in water including E.coli, Cryptosporidium and Giardia.
The new lamp technology combines the high electrical efficiencies of low-pressure lamps with up to 5 times the UV output.
Lamp life is 12,000 hours or approximately 16 months.
State-of-the-art electronic ballast allows the system to provide a constant UV dose by protecting against voltage fluctuations and running cooler than conventional systems.
The 316 SS UV reactor has been designed using computational fluid dynamics (CFD) to ensure the flow pattern is consistent and that any microbes receive sufficient exposure to UV light.
The fully calibrated UV sensor is encapsulated in a robust stainless steel housing that locks the sensor in place to eliminate sensor movement.
