More Details on How HiPOx is Unique

  • Superior ozone utilization/High mass transfer

    • Lower Applied Ozone Dose
    • Less Power Consumption
    • Less Oxygen Usage

  • Superior Mixing

    • Maximize reaction efficiency
    • Faster reaction
    • Smaller footprint

  • Capability for Bromate Control

  • Patented bromate control to near zero

  • Advanced on-the-fly treatment tuning for changing contaminant demand for lower operating cost

  • Pre-packaged, pre-assembled systems

    • Lower installation costs

AOP Comparison of HiPOx vs. UV/H2O2

Typical Factors

HiPOx (O3/H2O2) UV/H2O2
• UVT – not a factor, means HiPOx can be used as either pre-treatment or post-treatment

• Typically lower hydrogen peroxide dose (2.5-5 mg/l for MF effluent)

• Hydrogen peroxide utilization of 75-100%

• Ozone generally recognized as superior oxidant to UV for many trace organics

• Ozone and OH very effective at virus removal (no coliform in membrane treated effluent)

• Bromate formation may be controlled with HiPOx or bromate removed by RO
• Very sensitive to UVT, determines power consumption

• Typically higher hydrogen peroxide dose (5-10 mg/l for MF Effluent)

• Hydrogen peroxide utilization of 10-15%, increases quenching costs or chlorine demand

• UV Dose in AOP mode is 3 – 6 times greater than UV Dose in disinfection mode

• No bromate formation

• Has mercury in bulbs which requires special handling to avoid contamination