These systems leverage the exceptional oxidative power of ozone (O₃) to provide an engineered solution for advanced disinfection and oxidation processes. Through a rapid and highly effective mechanism, ozone selectively removes a wide spectrum of contaminants—including microorganisms (such as viruses and resistant bacteria), organic compounds, color, odor, and refractory compounds—in both municipal and industrial applications.

Key Advantages of Ozone Injection Technology:

Superior Disinfection Performance:

Higher oxidizing strength and faster reaction kinetics compared to chlorine, without the formation of carcinogenic disinfection by-products such as trihalomethanes (THMs).

Multi-Purpose Oxidation:

Effective breakdown of organic compounds, reduction of COD/BOD, removal of color and odor, and improvement of water clarity—critical parameters in water recycling and reuse (Recycle/Reuse) projects.

Precise Process Control:

Engineered process management enabled by controlled dosing pumps, online ORP and O₃ sensors, and continuous monitoring of flow rate, temperature, and pressure to achieve the required CT value.

Operational Safety and Efficiency:

Elimination of the need for storage and transportation of hazardous chemicals, reduction of long-term operating costs, and assurance of operator safety and workplace security.

Specialized Applications:

Municipal Water Treatment:

Final disinfection, taste and odor control, and enhanced distribution network safety.

Advanced Municipal Wastewater Treatment:

Disinfection after the biological treatment stage and prior to discharge or reuse.

Industrial Effluent Treatment:

Applications in food processing, pharmaceutical, petrochemical, textile, and dyeing industries for the oxidation of complex and refractory pollutants, in compliance with stringent discharge or reuse standards.

System Technical Specifications:

Stable generation of high-purity ozone, optimized mass transfer efficiency in the range of 85–95%, energy-efficient operation, and seamless integration with automation and control systems (PLC/SCADA) to ensure continuous performance with minimal maintenance requirements.

These systems provide a technically and economically sound solution for treatment facilities seeking to achieve high effluent quality standards in potable water, public health, industrial production, and environmental protection.