• Filtration Grade: F2 = Oil removal (0.01 Micron Particle, 0.01 Oil (mg/m³) at 20 °C)
• Filter Media: Polypropylene and borosilicate
• Topring HE filter media is constructed into a filter element using a unique deep bed pleating technique in place of the more conventional wrapped construction.This provides 450 % more filtration surface area when compared to a traditional wrapped filter element and around 200% more surface area compared to a traditional pleated element. Deep bed pleating also reduces the air flow velocity within the media, which further improves filtration performance.
• Additionally, the high efficiency F3 and F4 grade elements have a unique graded density media construction which provides even greater filtration performance without adding to pressure loss or energy consumption.
• Deep bed pleating reduces the air flow velocity within the filtration media, improving both filtration performance of the filter element and reducing pressure losses
• Oleophobic nanofiber filter media actively repels oil and water to reduce pressure drops and keep running costs to a minimum
• High efficiency drainage layer provides improved chemical compatibility and high temperature capability while ensuring coalesced liquids are removed quickly and efficiently
• Filter housing and element integrate to provide capillary action which greatly improves liquid drainage. Interaction between housing and element ensures maximum coalescing performance
• Dust removal filters tested in accordance with the test methods of the ISO 8573 Series
• Filters performance tested to the stringent requirements of ISO 12500-1
Element and drain should be replaced every 12 months for:
• Optimal performance
• Continuous air quality
• Low operation costs
• Continued protection of downstream equipment
• Peace of mind
• It is important to remember that the effectiveness of any filter is directly related to the performance of the filter element at minimal pressure differential
• Filter elements must be checked often and re ordered when necessary to assure a steady stream of contaminant-free compressed air
• Generally, in a compressed air system, when the pressure drop across the filter reaches 8 to 10 psi, the element should be changed
• It is critical to drain the filter housing daily to release condensate that gathers in the bottom of the filter bowl. Automatic drain valves simplify this process and protect the system from water flooding
• Filtration Grade: F2 = Oil removal (0.01 Micron Particle, 0.01 Oil (mg/m³) at 20 °C)
• Filter Media: Polypropylene and borosilicate
• Topring HE filter media is constructed into a filter element using a unique deep bed pleating technique in place of the more conventional wrapped construction.This provides 450 % more filtration surface area when compared to a traditional wrapped filter element and around 200% more surface area compared to a traditional pleated element. Deep bed pleating also reduces the air flow velocity within the media, which further improves filtration performance.
• Additionally, the high efficiency F3 and F4 grade elements have a unique graded density media construction which provides even greater filtration performance without adding to pressure loss or energy consumption.
• Deep bed pleating reduces the air flow velocity within the filtration media, improving both filtration performance of the filter element and reducing pressure losses
• Oleophobic nanofiber filter media actively repels oil and water to reduce pressure drops and keep running costs to a minimum
• High efficiency drainage layer provides improved chemical compatibility and high temperature capability while ensuring coalesced liquids are removed quickly and efficiently
• Filter housing and element integrate to provide capillary action which greatly improves liquid drainage. Interaction between housing and element ensures maximum coalescing performance
• Dust removal filters tested in accordance with the test methods of the ISO 8573 Series
• Filters performance tested to the stringent requirements of ISO 12500-1
Element and drain should be replaced every 12 months for:
• Optimal performance
• Continuous air quality
• Low operation costs
• Continued protection of downstream equipment
• Peace of mind
• It is important to remember that the effectiveness of any filter is directly related to the performance of the filter element at minimal pressure differential
• Filter elements must be checked often and re ordered when necessary to assure a steady stream of contaminant-free compressed air
• Generally, in a compressed air system, when the pressure drop across the filter reaches 8 to 10 psi, the element should be changed
• It is critical to drain the filter housing daily to release condensate that gathers in the bottom of the filter bowl. Automatic drain valves simplify this process and protect the system from water flooding