Clean, soft, chlorine-free water is essential to our health, good for our home
and pets, and can actually save you money.
With the ever dimishing quality of today’s water supply, our mission is to provide your family with the most advanced water conditioning systems available.
Typical for a family of up to 4 people. Flow rates up to 10 GPM. 32,000 grain capacity
Typical for a family of up to 6 people. Flow rates up to 15 GPM. 48,000 grain capacity.
Typical for a family greater than 5 people. Flow rates up to 20 GPM. 64,000 grain capacity.
*Depends on water usage and water quality conditions. Not intended for microbiologically unsafe or unknown water quality. Disinfection may be required. This system is intended for treatment of municipal water, any other application requires a water quality analysis for best results.
System | Tank Size | Weight | Height | Width | Depth | Inlet/Outlet |
---|---|---|---|---|---|---|
HW100 | 10” X 54” | 74lbs | 61” | 27” | 18” | 1” |
HW150 | 12” X 52” | 93lbs | 59” | 28” | 18” | 1” |
HW200 | 13” X 54” | 121lbs | 61” | 29” | 18” | 1” |
With our inclusive, all-in-one system, the incoming water passes through the patented reticulated carbon cubes, removing or greatly reducing harmful chlorine and chloramines. The chlorine free water than passes through the softening bed, resulting in soft, hardness-free water.
A modified reticulated catalytic carbon that has the ability to absorb the entire chloramine molecule at once, without the need to break the ammonia/chlorine bond first, while also reducing soluble lead. This creates a higher capacity and greater flow rate than traditional catalytics.
This resin has more intersections or strands “crosslinking”
holding the beads together than standard 8% resin. This allows the resin bead to have greater strength and therefore a longer lifespan, sometimes double, than that of standard resin, especially when softening chlorinated water.
High hardness, high density filter media, effectively filters and provides a high quality media bed for this system.