- Water treatment
Advanced oxidation technologies
Advanced oxidation (AOPs)
Advanced oxidation technologies (AOPs) encompass a set of processes designed to generate highly oxidising species, mainly hydroxyl radicals (•OH), capable of degrading persistent organic compounds present in wastewater and industrial streams. Due to their high redox potential, these radicals react non-selectively with a wide range of contaminants, transforming them into simpler molecules and even mineralising them into CO₂ and water.
Among the most widely used AOPs are processes based on ozone, hydrogen peroxide, UV radiation, photocatalysis with TiO₂, Fenton and photo-Fenton, as well as combinations of these, enabling the technology to be tailored to the chemical complexity of the effluent. Their application is particularly valuable for the removal of emerging contaminants, dyes, pesticides, pharmaceutical compounds and other recalcitrant molecules that cannot be effectively treated using conventional biological methods.
What market challenges does it address?
Advanced oxidation technologies (AOPs) mainly address challenges associated with contaminants that conventional treatments cannot effectively remove. Specifically, they enable:
- Removal of persistent organic contaminants (pharmaceuticals, pesticides, partially PFAS, aromatic compounds, dyes) that resist biological processes.
- Degradation of microcontaminants and emerging pollutants present at low concentrations but with high environmental impact.
- Reduction of toxicity in complex industrial effluents prior to biological treatment or discharge.
- Deodorisation and improvement of water colour and turbidity through oxidation of compounds responsible for odour and colour.
- Partial or complete mineralisation of recalcitrant compounds, facilitating subsequent treatment or reuse.
- Prevention of hazardous by-products, as hydroxyl radicals react more completely than traditional oxidants (such as chlorine).
Applications
- Treatment of industrial and environmental effluents
- Reuse and drinking water treatment
AINIA’s competitive advantages
Advanced oxidation processes offer significant competitive advantages over conventional treatments.
- Ability to degrade persistent organic pollutants and microcontaminants that do not respond to traditional biological or physicochemical methods. They generate highly reactive radicals that enable rapid and effective oxidation, reduce effluent toxicity and improve water quality for subsequent treatment stages.
- These technologies do not generate additional sludge, require relatively compact operational footprints, and can be easily integrated as pre-treatment or complementary treatment to membranes or biological systems, optimising their performance and extending their lifespan.
Pilot testing at adaptable scale to validate the removal efficiency of emerging contaminants, COD reduction and improved water treatability.
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Key equipment
Regulation and standards for ozone and AOPs
- Regulation (EU) 2023/1078, approving the use of ozone as an active biocidal substance under the Biocidal Products Regulation (BPR, Regulation 528/2012).
- UNE-EN 1278 standard: specifies the use of ozone as a chemical product for the treatment of water intended for human consumption. It establishes requirements, analytical methods and good practices.
- Royal Decree 140/2003, establishing health criteria for drinking water quality, includes ozone as a recognised treatment method.
- Royal Decree 865/2003, on hygienic-sanitary criteria for the prevention and control of legionellosis, includes ozone as a disinfection system.
- Royal Decree 1085/2024: regulates the use of reclaimed water for urban, industrial, agricultural, environmental and recreational purposes, promoting the use of advanced technologies, including AOPs (ozone, UV/H₂O₂, photo-Fenton, etc.) as valid regeneration treatments.
Application sectors
Water treatment
Drinking water treatment, wastewater reuse, removal of colour, odours, microcontaminants and recalcitrant compounds.
Agri-food industry
Surface, equipment and environment disinfection; reduction of microbial load in raw materials; post-harvest treatments.
Chemical and pharmaceutical industry
Oxidation of organic compounds, effluent purification and improvement of wastewater treatability.
Cosmetics and personal care sector
Treatment of process water and removal of hard-to-degrade substances.
Fish farming and aquaculture
Water treatment in recirculation systems and microbiological control.
Cooling towers and industrial circuits
Biofilm control and Legionella prevention.
Air treatment
Odour removal, reduction of volatile compounds and space disinfection (in regulated applications).
Agriculture
Irrigation water disinfection and control of phytopathogens.
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