The original CuZn Filtration Company is no longer operating. We have improved upon the original CuZn Water Filters by using premium filtration media to adsorb more impurities from your water. The new water filters last longer with overall cleaner water.
KDF-85 Spheres
What Does KDF-85 Adsorb?
Comprehensive Contaminant Removal
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Eliminates chlorine, pesticides, and organic compounds
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Removes rust, unpleasant tastes, and odors
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Effectively reduces soluble heavy metals
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Pb²⁺ – Lead ion (divalent lead, commonly from plumbing corrosion)
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Mechanism: Reduced to Pb⁰ (elemental lead) and trapped in the media.
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Relevance: Critical for drinking water safety (prevents neurotoxicity).
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Cd²⁺ – Cadmium ion (toxic heavy metal, often industrial discharge)
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Mechanism: Forms Cd(OH)₂ (cadmium hydroxide) and adsorbs onto the media.
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Relevance: Removes carcinogenic industrial pollutants.
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Cr⁶⁺ – Hexavalent chromium ion (carcinogenic, from industrial waste)
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Mechanism: Reduced to Cr³⁺ (less toxic trivalent chromium), then filtered.
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Relevance: Addresses cancer risks from industrial wastewater.
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As³⁺ – Arsenite ion (trivalent arsenic, more toxic than As⁵⁺)
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Mechanism: Oxidized to As⁵⁺ (arsenate), then co-precipitates with iron or other metals.
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Relevance: More effective when combined with iron-enhanced filtration.
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Hg²⁺ – Mercuric ion (divalent mercury, highly toxic)
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Mechanism: Reduced to Hg⁰ (elemental mercury) and immobilized.
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Relevance: Prevents bioaccumulation in aquatic life.
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Mn²⁺ – Manganese ion (causes staining and metallic taste)
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Mechanism: Oxidized to MnO₂ (manganese dioxide) and filtered out.
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Relevance: Eliminates staining and "black water" issues.
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Ni²⁺ – Nickel ion (allergenic, from industrial runoff)
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Mechanism: Forms Ni(OH)₂ (nickel hydroxide) and adsorbs.
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Relevance: Reduces allergenic and carcinogenic risks.
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Al³⁺ – Aluminum ion (linked to turbidity and pipe corrosion)
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Mechanism: Precipitates as Al(OH)₃ (aluminum hydroxide).
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Relevance: Reduces turbidity and pipe scaling.
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Fe³⁺ – Ferric ion (trivalent iron, causes rust-colored water)
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Mechanism: Reduced to Fe²⁺, then re-oxidized to Fe(OH)₃ (ferric hydroxide) for filtration.
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Relevance: Prevents "red water" and pipe clogging.
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Targets hydrogen sulfide and calcium deposits
Microbial Control
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Inhibits algae and fungal growth
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Helps control bacterial proliferation
System Optimization
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Ideal as a pre-filter for reverse osmosis, deionization, and ion exchange systems
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Extends the lifespan of subsequent filtration stages by reducing contaminant load
KDF-85 (a copper-zinc alloy) is specifically designed to remove or reduce harmful oxidized metals and soluble cations through redox (electron transfer) reactions.
KDF: Kinetic Degradation Fluxion
Kinetic Degradation Fluxion (KDF) refers to its core mechanism:
- "Kinetic" = Motion/action (referring to the electrochemical process)
- "Degradation" = Breaking down contaminants
- "Fluxion" = Flow (operates in dynamic water systems)
KDF’s redox (oxidation-reduction) properties enable it to chemically transform contaminants, making it a powerful complement to mechanical filtration methods. When paired with activated carbon, it creates a multi-barrier defense for superior water purity across residential, commercial, and industrial applications.
✔ Effective Chlorine Removal – Eliminates up to 99% of free chlorine.
✔ Heavy Metal Reduction – Targets lead (Pb), mercury (Hg), chromium (Cr), nickel (Ni), and more via electron transfer.
✔ Scale & Bacteria Inhibition – Prevents limescale and inhibits bacterial/algal growth.
✔ Long Lifespan – Reusable after backwashing, reducing maintenance costs.
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