Spartan Environmental Technologies, L.L.C.

Advanced Oxidation Processes



Spartan offers turn key advanced oxidation processes (AOP) systems for industrial water treatment applications including ground water remediation, wastewater treatment and pretreatment.  Oxidation processes are most often used to remove TOC, COD or specific organic compounds from water.  Spartan offers laboratory and pilot plant services for evaluating  ozone and advanced oxidation process for water treatment. 

Advanced oxidation processes (AOP) combine ozone (O3), ultraviolet (UV),  hydrogen peroxide (H2O2) and/or catalyst to offer a powerful water treatment solution for the reduction (removal) of residual organic compounds as measured by COD, BOD or TOC.  All AOP are designed to produce hydroxyl radicals.  It is the hydroxyl radicals that act with high efficiency to destroy organic compounds.  The chart below shows the oxidizing power of hydroxyl radicals versus other oxidants.

Oxidizing Agent    EOP (V)       
Hydroxyl Radical      2.80
Oxygen (atomic)         2.42
Ozone                         2.08
Hydrogen peroxide     1.78
Hypochlorite                1.49
Chlorine                      1.36
Chlorine dioxide          1.27
Oxygen (molecular)     1.23

Advantages of Advanced Oxidation Processes

  • Rapid reaction rates
  • Small foot print
  • Potential to reduce toxicity of organic compounds
  • Mineralization of organics, i.e. conversion to salt and CO2
  • Does not concentrate waste for further treatment, such as membranes
  • Does not produce 'spent carbon' such activated carbon absorption
  • Easily Automated and Controlled
  • Reduced Labor Input
  • Does not create sludge as with physical chemical process or biological processes (wasted biological sludge)

Disadvantages of Advanced Oxidation Processes

  • Capital Intensive
  • Complex chemistry must be tailored to specific application
  • For some applications quenching of excess peroxide is required

The selection of a specific advanced oxidation process is application dependent.  Spartan evaluates each client's
application to see which AOP fits best based on the type of compounds to be removed, treatment objectives,
concentrations, site considerations, budget, etc.  

Advanced oxidation processes are designed to both efficiently produce and use hydroxyl ions for these oxidation.  They
have a wide range of applications, mainly for oxidation of refractory compounds, TOC & COD reduction in:

  • Gas effluent treatment
  • water reclaim / reuse / recycling
  • drinking water supplies
  • industrial & municipal wastewater
  • process water, ultra-pure water
  • electronic & pharmaceutical industries

AOP can act on organic compounds in water in several ways: convert one compound into another (conversion), conversion with a reduction in toxicity and mineralization (breaking the organic down to CO2 and inorganic salts).  In some cases, discharge permits simply require conversion from a compound of interest to another compound that is not covered by the permit.  For example, some permits require taking phenol to a fraction of a ppm.  In other cases, permitting authorities require the toxicity of the compound/wastewater to be reduced prior to discharge.  In some cases, mineralization is needed as measured by a reduction of TOC.

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