A large range of applications
- Decrease of pollution parameters
- Removal of refractory pollutants
- Biodegradability enhancement and discoloration of industrial effluents
- Disinfection of all types of effluents
- Disinfection of wastewater treatment plant sludges
Exclusive services
EVHeO assists companies from the initial expertise of their effluent treatment requirements
to the implementation of IFe Process:
- Electro-chemical engineering &Electron beam economical consulting
- Ionization capabilities at laboratory scale
- On site ionization capabilities from a mobile unit
- Integration, design, implementation & maintenance operations of treatment units
Characteristics of IFe Process
- Dual treatment : degradation of pollutants & disinfection
- Two types of pollutants degradation pathways : Oxidation and/or Reduction
- High performance disinfection (up to sterilization) with
constant efficiency whatever the characteristics of the effluent
(salinity, turbidity, coloration, temperature…)
- Wide range of removable pollutants:
phenols, organo-halogenated compounds, hydrocarbons,
endocrine disruptors, pesticides, medicines...
- No other pollution: no sludge, no atmospheric pollution,
no toxic by-product, no worn catalyst, no consumable...
- No chemical required
- Constant treatment efficiency
- Large capabilities of treated flow
- Adjustable treatment as function of the objectives or effluent flow
IFe Process: Water Treatment by Electron Processing System
IFe Process principle is based on the production of very active species, the radicals, by interaction of accelerated
electrons with water molecules. High productions of both oxidizing and reducing radicals during water radiolysis give
to the IFe Process a remarkable efficiency for the degradation of all types of pollutants: pesticides, hydrocarbons,
organo-halogenated compounds, endocrine disruptors, medicines...
In parallel with the degradation of pollutants, radicals will damage DNA and cell structure of microorganisms allowing
to achieve a high level of disinfection of treated effluent.
© EVHeO
Consulting & Engineering Office
Environmental Applications of Electron Processing Systems