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Datasheet summary

1000H

PDF datasheet mirror for 1000H (Rohm & Haas). Verify with OEM before design.

Summary

Product identification

  • Product name: AMBERJET™ 1000 H
  • Product type: Industrial Grade Strong Acid Cation Exchanger
  • Description: Uniform particle size, high quality, strong acid cation exchanger designed for general demineralisation systems. Optimized for industrial demineralisation equipment. Can be directly substituted for conventional gel cation exchange resin.
  • Matrix: Styrene divinylbenzene copolymer
  • Functional group: Sulfonic acid
  • Ionic form as shipped: H⁺

Properties

  • Physical form: Amber spherical beads
  • Total exchange capacity [1]: ≥ 1.80 eq/L (H⁺ form), ≥ 2.00 eq/L (Na⁺ form)
  • Moisture holding capacity [1]: 50 to 58 % (H⁺ form)
  • Shipping weight: 800 g/L
  • Specific gravity: 1.18 to 1.22 (H⁺ form)
  • Particle size:
    • Uniformity coefficient [1]: ≤ 1.3
    • Harmonic mean size [1]: 0.620 – 0.800 mm
    • < 0.425 mm [1]: ≤ 2 %
  • Maximum reversible swelling: Na⁺ → H⁺ < 10 %

[1] Contractual value. Test methods are available on request.

Suggested Operating Conditions

  • Maximum operating temperature: 135 °C
  • Minimum bed depth: 800 mm
  • Service flow rate: 5 to 40 BV*/h

Regeneration:

  • Regenerant: HCl, H₂SO₄
  • Level (g/L): 40 to 150 (HCl), 40 to 200 (H₂SO₄)
  • Concentration (%): 4 to 10 (HCl), 0.7 to 8 (H₂SO₄)
  • 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

Performance

Operating capacity and sodium leakage depend on water analysis, temperature, and regenerant level. Engineering data sheets EDS 0762 A, 0763 A, 0764 A, and 0765 A provide information for calculations with hydrochloric and sulfuric acid, and co-flow or reverse flow regeneration.

Limits of Use

Suitable for industrial uses. For pharmaceutical, food processing, or potable water applications, seek advice from Rohm and Haas to determine the best resin choice and optimum operating conditions.

Hydraulic Characteristics

  • Bed expansion data is shown as a function of backwash flow rate and water temperature (Figure 1).
  • Pressure drop data is shown as a function of service flow rate and water temperature (Figure 2). Pressure drop data are valid at the start of the service run with clear water and a correctly classified bed.

Disclaimer 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.