Multi-layer, fiber-based media provide true depth-loading for high efficiency removal at low micron ratings. The larger diameter pleated design offers extremely high surface area, allowing for outstanding loading at high flow rates per single cartridge. This reduces the number of required cartridges, thus reducing the total associated costs.
HFB-Series High Flow Pleated Filter Cartridges seal into most standard bag filter vessels. These cartridges deliver high efficiencies, flow rates, and loading capacities at extremely low initial pressure drops. Due to the inside-to-outside flow design, all contaminants are captured on the inside of the element, avoiding potential contamination of filtered product during change-out. Utilizing polypropylene or microglass medias along with polypropylene hardware, the HFB series offers broad chemical compatibility. With up to 48.5 ft2 of media, the HFB series offers an exceptional value.
Length: 12 inches (#1-size)
24 inches (#2-size)
Outside Diameter: 7.06 inches (flange) / 6 inches (cartridge)
EHF3-Series High Flow Pleated Filter Cartridges are designed to address the need for critical filtration in high flow applications. Large diameter, high surface area filters dramatically reduce maintenance and production downtime. EHF3 cartridges are a direct replacement for the 3M/CunoTM High Flow series cartridges. The EHF3 Series cartridges are available in both polypropylene and microglass media in a wide variety of micron ratings. This filter utilizes polypropylene hardware to provide a robust design. Both the polypropylene and microglass media provide broad chemical compatibility. Filtration efficiencies exceed 99%.
Length: 40, 60 inches
Outside Diameter: 6.5 inches
Inside Diameter: 3.0 inches
HF-Series High Flow Polypropylene and Micro-glass Filter Cartridges address your need for absolute rated filter cartridges in high flowrate applications. HF-Series cartridges are designed for use as a direct replacement to the Pall® Ultipleat® High Flow and 3M 740™ series elements. Filtration efficiencies exceed 99%.