OCS-ADVANCED TREAT Advanced Oxidation Process (AOP)
Solve resistant pollutants that standard treatment can't remove with AOP. An ozone, UV and hydrogen peroxide combination — among the first applications in Turkey.
The Problem
Standard Treatment Is Powerless Against Some Pollutants
Pharmaceutical compounds, hormone residues, pesticides and industrial chemicals are resistant to standard biological and chemical treatment processes. These compounds pass through treatment and reach the environment or reuse water.
Resistant Micropollutants
Pharmaceutical compounds and hormone residues pass through standard treatment.
Single-Method Insufficiency
Using ozone, UV or chemical oxidation alone is insufficient for highly resistant compounds.
Rising Regulatory Pressure
Micropollutant discharge standards are tightening globally.
Reuse Barrier
Resistant pollutants prevent safe water reuse.
System Concept
Three Mechanisms, One Powerful Reaction
OCS-ADVANCED TREAT offers a combined AOP architecture that maximizes hydroxyl radical generation.
Pollutant Profile Analysis
Target compounds and their concentrations are analyzed.
Combination Design
The most suitable architecture is chosen among ozone + UV, ozone + H₂O₂ or the triple combination.
Hydroxyl Radical Generation
The combination produces hydroxyl radicals (•OH) that provide far greater oxidation capacity than standard ozonation.
Verification & Monitoring
The removal rate of target pollutants is continuously monitored and reported.
Solution Areas
Application Points & Methods
Pharmaceutical Production Wastewater
Active pharmaceutical ingredient (API) removal at drug manufacturing facilities.
- Antibiotic and hormone residue removal
- Regulatory compliance support
- Environmental risk reduction
Industrial Chemical Wastewater
Removal of industrial chemicals resistant to standard treatment.
- Pesticide and herbicide breakdown
- Colored and odorous organic compound removal
- Toxicity reduction
Water Reuse Projects
High-quality water production for reuse.
- Safe reuse after micropollutant removal
- Support for sustainability goals
High-COD Industrial Wastewater
High-load wastewater where standard ozonation falls short.
- Oxidation enhanced with hydroxyl radicals
- Application before or after biological treatment
Technical Data
System Technical Data
Why OCS-ADVANCED TREAT?
Pioneering Advantages in Advanced Treatment
Pioneer in AOP Applications in Turkey
One of the first local firms to apply this technology.
Superior Oxidation Power
The hydroxyl radical is a far stronger oxidant than standard ozonation.
Combination Options
An architecture customizable to the pollutant profile.
Residual Ozone Guarantee
Safe discharge with a destruction unit.
Regulatory Support
Readiness for tightening micropollutant standards.
Site Analysis Required
Every project is designed for its pollutant profile.
Application Sectors
Which Facilities?
Pharmaceutical Production · Chemical Industry · Textile (High Toxicity) · Water Reuse Projects · Research Laboratories
FAQ
Frequently Asked Questions
The hydroxyl radical has a far higher oxidation potential than the standard ozone molecule and provides a clear advantage against resistant compounds.
It depends on the target pollutant profile. The most suitable combination (ozone+UV, ozone+H₂O₂ or triple) is determined after a site analysis.
Yes — it's usually integrated as a polishing stage before or after biological treatment.
Yes — a specific dose and combination design is needed based on the type and concentration of active pharmaceutical ingredients (API).
Inlet/outlet analysis is performed for target pollutants and the removal rate is documented with laboratory results.
Free Technical Assessment for Your Facility
Request a free technical assessment for your facility. Let's plan the most suitable AOP combination for your resistant pollutants together.
Request a Free Assessment