Moisture Separators & Drain Valves
Compressor condensate typically contains as much as 5% oil, making it too harmful to the environment to be discharged without purification. Condensate drain valves reliably discharge compressed air condensate from the pressurized system.Oil/water separators process condensate to a residual oil content as low as 5 ppm, allowing the processed water to be discharged into most municipal waste water treatment systems.
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Ultramat UFM-T Condensate Drain Valves
The Ultramat UFM-T zero air loss condensate drain valve has a compact design allowing for installation in restricted space applications. The UFM-T is designed to open only when necessary and close before any loss of compressed air occurs. The unique internal reservoir and flow channels reduce the possibility of blockage and minimize fouling of the drain valve seat. The Ultramat zero air loss condensate drain valve can pay for itself in less than six months, contributing to lower costs through conserving energy. -
DS Oil/Water Separators
DS oil/water separators utilizes gravity to separate oil/water mixtures and purify the condensate to a residual oil content of 20 ppm or lower. Designed to effectively and efficiently separate oil from compressed air condensate this unit is available in 7 models ranging from 70 to 4,500 cfm. The DS Series are easy to install, operate and maintain. They require no power, unless fitted with an optional heater, and operate without intervention between maintenance intervals. -
Mist Eliminator
Mist Eliminators effectively remove oil, solids and water from your compressed air system. In addition, this technology can serve as an efficient prefilter and contaminant separator for refrigerated and desiccant compressed air dryers. By reducing the liquid loading potential and preventing liquid slugs from reaching the dryer, it will extend the life of your refrigerated dryer’s heat exchanger or the life of desiccant in regenerative dryers. -
Demisting Water Separator
Wire mesh mist eliminators have an excellent track record as a low cost, highly versatile and efficient method of removing liquid entrainment from gas streams. They are produced as a bed of knitted mesh which presents a tortuous path and large surface area to the droplets entrained in the gas stream. Separation is achieved by impingement on, and capture by, the filaments of the mesh where the droplets coalesce and drain.