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2.5" x2 0" NanoCeram PAC-AG Sub-Micron Filter Capacities
Protect your customers from virus and bacteria using this disruptive technology. Argonide’s NanoCeram PAC-AG represents a paradigm shift in carbon filtration in that fine activated carbon powder (-625 mesh) can now be utilized in filter media as it is held within the structure by electro-adhesive forces, without using adhesives or starches that would blind or possibly deactivate the carbon. Compared to media containing granular activated carbon (GAC), powder activated carbon (PAC) offers much greater kinetic efficacy for contaminants including chlorine, chloramine, iodine, and soluble organics that may be toxic or cause unpalatable taste and odor.
Our filter cartridges are further enhanced with the Agion (AG) silver-impregnated zeolite technology. Combined with our high efficiency particulate filtration and highly active PAC, Argonide’s filtration products represents a breakthrough in activated carbon filtration for drinking water. Agion’s treatment provides long-term mitigation of biofouling – a potential source of premature plugging as well as odor and taste concerns often caused by bacteria, mold, and fungus.
Retention Capabilities for PAC2.5-10AG:
Chlorine Reduction: 2 ppm to less than 1 ppm for 10,000 gallons @ 1.0 GPM flowrate
Reduces Virus, Bacteria, Cysts
560.6 grams (19.8 0z) dirt holding capacity (DHC).
Features:
8 GPM, Pleated construction yields high flow rates.
Absolute 0.2 Micron, Tested and certified to meet NSF/ANSI Standard 53 for material Safety only. Independently tested for Virus and Bacteria Reduction
All components are manufactured with materials that meet FDA requirements 21CFR177.1520 for direct food contact applications.
Benefits:
Enhanced Operation – removing fine particulates in addition to coarser particulates and contaminants from water yields highly efficient final barrier defense for drinking water.
DHC that is significantly greater than conventional filters.
Replacement Frequency:
Estimated replacement frequency is approximately 2.5 times that of conventional carbon filters which are prone to fouling/plugging before actual capacity is achieved.