TM Filtration’s GFM Technology® effectively solves carryover concerns by employing a reverse flow design through a multi-stage filtration process designed to take advantage of our innovative GFM filter element. In the first stage gas enters the vessel and is directed into a tangential circular flow pattern by radial impingement plates. The centrifugal force separates and removes large particles and slugs of liquid. In the second stage, gas flows upward through either a mechanical mesh or vane scrubber to remove medium-sized particles. The third and final stage of filtration occurs in the GFM filter element.Our patented GFM filter element features multiple layers of media, each performing a critical role in the filtration and coalescing process. The pleated outer shell consists of polyester and micro borosilicate glass layers which provide the surface area required to remove fine particulate and also coalesce aerosols into larger droplets. This large surface area relates to longer filter life, reduced maintenance cost, smaller vessel diameters, and optimum velocity through the element. The final filtration layer is TM Filtration’s unique inner core. Engineered using a pressure-responsive sintered polypropylene membrane, the inner core acts as an RO liquid barrier while allowing gas to pass through freely.