304 Stainless Steel Industrial Air Source Ozone Generator – Water-Cooled System (10g–100g/h)
Product Overview
This industrial ozone generation system utilizes a high-speed dual ball bearing fan to deliver powerful airflow, ensuring efficient heat dissipation of internal components. This design minimizes ozone concentration decay and maintains stable ozone output and compliance concentrations over extended operation periods. Ozone provides broad-spectrum disinfection, effectively eliminating various bacteria and viruses through strong oxidation and catalytic actions. It disrupts microbial proteins and nucleic acids, inactivating pathogens for air purification. Additionally, ozone degrades harmful gases—such as formaldehyde, carbon monoxide, and xylene—via physicochemical reactions, producing non-toxic byproducts and avoiding secondary pollution.
Main Features
High-Voltage Discharge Technology
Equipped with a high-frequency power supply, this ozone generator produces ozone through the electrochemical reaction of oxygen molecules within an electric field. This mature technology ensures reliable operation, long service life, and high ozone yield, making it widely adopted across industries globally.
Safe Water-Cooling System
The water-cooling mechanism effectively dissipates heat generated during operation, preventing ozone decomposition due to overheating. This ensures stable ozone output, supports non-stop continuous operation, and extends equipment service life.
Advanced Discharge Module
Quartz tubes—known for high dielectric constant, uniform thickness, and excellent temperature and humidity resistance—are employed in high-performance ozone generators. Alternative materials (e.g., ceramic, glass, or enamel tubes) are less common due to fragility, uneven discharge, and lower durability.
Working Principle
When oxygen-containing gas passes through the discharge gap between two electrodes under a high-voltage field, a portion of oxygen molecules (O₂) are converted into ozone (O₃). This process, known as “corona discharge” or “silent discharge,” involves micro-discharges that dissociate oxygen molecules into free oxygen atoms (O), which then combine with undissociated O₂ to form O₃.
Note: Only part of the electrical energy is utilized for ozone synthesis, with the remainder generating heat. Efficient cooling via a water-circulation system is critical to maintain optimal ozone production efficiency. Both feed gas quality and cooling water temperature significantly impact performance—lower temperatures result in higher ozone yields.
