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Datasheet summary

Amberjet 1200 Na

Engineering summary from PDF text extraction for Amberjet 1200 Na. Verify every value with the OEM datasheet.

Summary

Product identification

AMBERJET™ 1200 Na is an industrial-grade strong acid cation exchanger. It is a uniform particle size, high-quality resin designed for water softening and demineralization applications.

Performance

Operating capacity and ionic leakage are influenced by factors including water analysis, temperature, and regenerant levels. Specific calculation data are available in engineering datasheets EDS 0355 A, 0356 A, 0359 A, 0360 A, 0366 A, and 0367 A.

Typical Properties

  • Physical form: Amber spherical beads
  • Matrix: Styrene divinylbenzene copolymer
  • Functional group: Sulfonate
  • Ionic form as shipped: Na⁺
  • Total exchange capacity: ≥ 2.00 eq/L (Na⁺ form)
  • Moisture holding capacity: 43 to 47% (Na⁺ form)
  • Shipping weight: 850 g/L
  • Specific gravity: 1.26 to 1.30 (Na⁺ form)
  • Particle size:
    • Uniformity coefficient: ≤ 1.2
    • Harmonic mean size: 620 ± 50 µm
    • Fines content (< 0.300 mm): 0.1% max
  • Maximum reversible swelling:
    • Na⁺ ⇌ H⁺: 10%

Suggested Operating Conditions

  • Maximum operating temperature: 135°C
  • Minimum bed depth: 800 mm
  • Service flow rate: 5 to 50 BV*/h
  • Maximum service velocity: 60 m/h

Regeneration

  • Regenerant:
    • NaCl: Level 50 to 240 g/L, Concentration 10%
    • HCl: Level 40 to 150 g/L, Concentration 4 to 10%
    • H₂SO₄: Level 40 to 200 g/L, Concentration 1 to 8%
  • Minimum contact time: 20 minutes
  • Slow rinse: 2 BV at regeneration flow rate
  • Fast rinse: 1 to 3 BV at service flow rate

* 1 BV (Bed Volume) = 1 m³ solution per m³ resin

Limits of Use

AMBERJET 1200 Na resin is suitable for industrial applications. For specific uses such as pharmaceutical, food processing, or potable water, consult Rohm and Haas for resin selection and operating conditions.

Hydraulic Characteristics

Bed expansion is shown as a function of backwash flow rate and water temperature (Figure 1). Pressure drop data are presented as a function of service flow rate and water temperature (Figure 2), valid for a clean bed at the start of a service run.


Disclaimer: This extraction may miss figures, footnotes, or revisions. Contractual data must match the OEM PDF revision used on the project.

Official datasheet (PDF)

Lenntech datasheet mirror

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.