KX Technologies - 36-250-10-MATRIKX - 10" x 2.5" MatriKX ChloraGuard - 1 Micron - Chloramine Reduction Filter
ChloraGuard Chloramine Reduction Filter
10" x 2.5" carbon block filter engineered specifically for chloramine removal in residential and light commercial applications
The KX Technologies 36-250-10-MATRIKX ChloraGuard filter uses a specialized catalytic carbon block formulation designed to break the chloramine bond that standard carbon filters struggle with. While most municipal water treatment facilities have switched from chlorine to chloramine for disinfection, this filter addresses that specific challenge with proven reduction performance across both chlorine and chloramine compounds.
Filter Details
| Model Number | 36-250-10-MATRIKX |
| Dimensions | 10" x 2.5" |
| Filtration Rating | 1 micron nominal |
| Filter Type | Catalytic carbon block |
| Primary Function | Chloramine and chlorine reduction |
| Secondary Reduction | VOCs, taste, odor, sediment |
| Certifications | NSF, WQA Material Safety, CA Prop 65 compliant |
| Dirt Holding Capacity | High capacity |
What This Filter Removes
The MatriKX ChloraGuard filter reduces chloramine and chlorine through catalytic carbon action, which accelerates the breakdown of chloramine molecules into components that can be adsorbed. It simultaneously provides 1 micron nominal filtration for sediment, rust, and sand particles. The extruded carbon block construction offers consistent contact time and flow path, ensuring reliable reduction of volatile organic compounds (VOCs), taste, and odor issues common in chloramine-treated municipal water.
System Applications
This 10" x 2.5" cartridge fits standard 10-inch filter housings and is suitable for both point-of-use reverse osmosis pre-filtration and whole-house applications where chloramine reduction is required. Compatible with most undersink systems, countertop housings, and inline filter assemblies designed for 2.5" diameter cartridges. Commonly used as a pre-filter stage ahead of RO membranes to protect membrane integrity from chloramine exposure.
