Purolite FerrIX™A33E Arsenic Removal Resin Media (52 Lbs) 1 CF [Special Order : 8 week lead time]
Hybrid Arsenic Removal Resin Media
Nano iron oxide infused anion exchange resin engineered for selective removal of arsenite and arsenate from potable water, delivering arsenic reduction to below 2–8 ppb with minimal pressure drop
Purolite FerrIX™ A33E combines the selectivity of hybrid ion exchange with the adsorption power of nano-sized iron oxide particles embedded within a polystyrenic macroporous resin structure. The result is fast, effective arsenic removal across a wide pH range without the particle shedding common to traditional iron-based media.
Three-Phase Arsenic Reduction Process
Hybrid Ion Exchange
Water flows through uniform spherical beads of macroporous polystyrenic resin. The high porosity structure and engineered functional groups provide immediate contact with dissolved arsenic species, both arsenite (As III) and arsenate (As V).
Nano Iron Oxide Capture
Infused nano-sized iron oxide particles within the resin matrix adsorb arsenic molecules on contact. The iron oxide remains securely embedded in the bead structure, preventing particle migration or shedding into the treated water.
Selective Reduction
High selectivity for arsenic over competing anions ensures consistent performance and efficient media utilization. Typical effluent arsenic levels reach below 2–8 ppb, well under regulatory limits, with minimal interference from sulfates, chlorides, or other common ions.
FerrIX™ A33E Media Characteristics
| Matrix Type | Polystyrenic macroporous, iron oxide infused |
| Physical Form | Brown, uniform spherical beads |
| Effective pH Range | 4.5–8.5 |
| Target Contaminants | Arsenite (As III), Arsenate (As V) |
| Typical Effluent Level | 2–8 ppb arsenic |
| Backwashing | Not required during normal operation |
| Unit Size | 1 cubic foot (52 lbs) |
| Certification | NSF/ANSI/CAN 61 for drinking water |
| Lead Time | Special order, 8 weeks |
System Design and Application
FerrIX™ A33E integrates with standard ion exchange system designs including lead-lag and parallel configurations. Suitable for municipal water treatment plants, point-of-entry (POE) whole-home systems, and point-of-use (POU) applications. Can be operated as single-use media or configured for off-site regeneration depending on site requirements. Pre-oxidation is recommended when treating water with significant arsenite (As III) content to maximize removal capacity. Superior bead strength and low pressure drop allow for high flow rates without compromising hydraulic performance or causing bed compaction.
Hybrid Arsenic Removal Resin Media
Nano iron oxide infused anion exchange resin engineered for selective removal of arsenite and arsenate from potable water, delivering arsenic reduction to below 2–8 ppb with minimal pressure drop
Purolite FerrIX™ A33E combines the selectivity of hybrid ion exchange with the adsorption power of nano-sized iron oxide particles embedded within a polystyrenic macroporous resin structure. The result is fast, effective arsenic removal across a wide pH range without the particle shedding common to traditional iron-based media.
Three-Phase Arsenic Reduction Process
Hybrid Ion Exchange
Water flows through uniform spherical beads of macroporous polystyrenic resin. The high porosity structure and engineered functional groups provide immediate contact with dissolved arsenic species, both arsenite (As III) and arsenate (As V).
Nano Iron Oxide Capture
Infused nano-sized iron oxide particles within the resin matrix adsorb arsenic molecules on contact. The iron oxide remains securely embedded in the bead structure, preventing particle migration or shedding into the treated water.
Selective Reduction
High selectivity for arsenic over competing anions ensures consistent performance and efficient media utilization. Typical effluent arsenic levels reach below 2–8 ppb, well under regulatory limits, with minimal interference from sulfates, chlorides, or other common ions.
FerrIX™ A33E Media Characteristics
| Matrix Type | Polystyrenic macroporous, iron oxide infused |
| Physical Form | Brown, uniform spherical beads |
| Effective pH Range | 4.5–8.5 |
| Target Contaminants | Arsenite (As III), Arsenate (As V) |
| Typical Effluent Level | 2–8 ppb arsenic |
| Backwashing | Not required during normal operation |
| Unit Size | 1 cubic foot (52 lbs) |
| Certification | NSF/ANSI/CAN 61 for drinking water |
| Lead Time | Special order, 8 weeks |
System Design and Application
FerrIX™ A33E integrates with standard ion exchange system designs including lead-lag and parallel configurations. Suitable for municipal water treatment plants, point-of-entry (POE) whole-home systems, and point-of-use (POU) applications. Can be operated as single-use media or configured for off-site regeneration depending on site requirements. Pre-oxidation is recommended when treating water with significant arsenite (As III) content to maximize removal capacity. Superior bead strength and low pressure drop allow for high flow rates without compromising hydraulic performance or causing bed compaction.
Original: $3,132.00
-65%$3,132.00
$1,096.20Description
Hybrid Arsenic Removal Resin Media
Nano iron oxide infused anion exchange resin engineered for selective removal of arsenite and arsenate from potable water, delivering arsenic reduction to below 2–8 ppb with minimal pressure drop
Purolite FerrIX™ A33E combines the selectivity of hybrid ion exchange with the adsorption power of nano-sized iron oxide particles embedded within a polystyrenic macroporous resin structure. The result is fast, effective arsenic removal across a wide pH range without the particle shedding common to traditional iron-based media.
Three-Phase Arsenic Reduction Process
Hybrid Ion Exchange
Water flows through uniform spherical beads of macroporous polystyrenic resin. The high porosity structure and engineered functional groups provide immediate contact with dissolved arsenic species, both arsenite (As III) and arsenate (As V).
Nano Iron Oxide Capture
Infused nano-sized iron oxide particles within the resin matrix adsorb arsenic molecules on contact. The iron oxide remains securely embedded in the bead structure, preventing particle migration or shedding into the treated water.
Selective Reduction
High selectivity for arsenic over competing anions ensures consistent performance and efficient media utilization. Typical effluent arsenic levels reach below 2–8 ppb, well under regulatory limits, with minimal interference from sulfates, chlorides, or other common ions.
FerrIX™ A33E Media Characteristics
| Matrix Type | Polystyrenic macroporous, iron oxide infused |
| Physical Form | Brown, uniform spherical beads |
| Effective pH Range | 4.5–8.5 |
| Target Contaminants | Arsenite (As III), Arsenate (As V) |
| Typical Effluent Level | 2–8 ppb arsenic |
| Backwashing | Not required during normal operation |
| Unit Size | 1 cubic foot (52 lbs) |
| Certification | NSF/ANSI/CAN 61 for drinking water |
| Lead Time | Special order, 8 weeks |
System Design and Application
FerrIX™ A33E integrates with standard ion exchange system designs including lead-lag and parallel configurations. Suitable for municipal water treatment plants, point-of-entry (POE) whole-home systems, and point-of-use (POU) applications. Can be operated as single-use media or configured for off-site regeneration depending on site requirements. Pre-oxidation is recommended when treating water with significant arsenite (As III) content to maximize removal capacity. Superior bead strength and low pressure drop allow for high flow rates without compromising hydraulic performance or causing bed compaction.
