Datasheet summary
Amberjet UP6150
PDF datasheet mirror for Amberjet UP6150 (Rohm & Haas). Verify with OEM before design.
Summary
Product identification
AMBERJET™ UP6150 is a polishing mixed-bed ion exchange resin designed for high-purity water systems, particularly after reverse osmosis. It is suitable for ultrapure water (UPW) applications and general-purpose mixed-bed uses.
Basic Resin Properties
The component resins are uniform particle size Amberjet resins with a stoichiometric equivalent of cation and anion exchange capacity.
Cation (H⁺ form)
- Total exchange capacity: ≥ 1.80 eq/L
- Moisture holding capacity: 44.0 - 54.0 %
- Particle size Uniformity coefficient: ≤ 1.20
- Harmonic mean size: 0.58 to 0.68 mm
- % of sites (H form): ≥ 99 %
Anion (OH⁻ form)
- Total exchange capacity: ≥ 1.00 eq/L
- Moisture holding capacity: 54.0 - 66.0 %
- Particle size Uniformity coefficient: ≤ 1.25
- Harmonic mean size: 0.58 to 0.68 mm
- % of sites (OH form): ≥ 95.0 %
- % of sites (Cl form): ≤ 0.5 %
- % of sites (CO₃ form): ≤ 5.0 %
- % of sites (SO₄ form): ≤ 0.1 %
Suggested Operating Conditions
- Feed water temperature: 15 to 25°C (60 to 77°F)
- Minimum bed depth: 900 mm (3 feet)
- Service flow rate (working mixed bed): 20 to 30 BV*/h
- Service flow rate (polishing mixed bed): 30 to 40 BV/h
Recommended influent water quality for polishing mixed bed application
- Inlet Resistivity: > 16 MΩ·cm
- Inlet Silica: < 5 ppb
- Inlet Total Organic Carbon: < 20 ppb
* 1 BV (Bed Volume) = 1 m³ solution per m³ resin (1BV/h = 0.125 gpm/ft³)
Quality Assurance
AMBERJET UP6150 resin is tested for resistivity, total organic carbon, and kinetic performance to meet stringent UPW requirements.
Disclaimer: This extraction may miss figures, footnotes, or revisions. Contractual data must match the OEM PDF revision used on the project.
Official datasheet (PDF)
Curated from selected public technical reference material for discovery and preliminary comparison. This summary is not a substitute for a current certified manufacturer datasheet. Verify revisions and design limits before use.