Name: Air Source Ozone Generator

  Ozone Generator Technical Parameters

V. Product Features

1. High Voltage Discharge Type Generator

This type of ozone generator uses a high-frequency power system to cause electrochemical reactions in oxygen molecules within or around the electric field, thereby producing ozone. This ozone generator boasts mature technology, stable operation, long service life, and high ozone output, making it the most widely used ozone generator in relevant industries domestically and internationally.
2. Safe Ozone Cooling Method

Ozone generators generate significant heat during operation and require cooling; otherwise, ozone decomposes as it is produced due to high temperatures.

3. Ozone Generator Discharge Technology

Quartz tubes are most commonly used in high-performance ozone generators due to their high dielectric constant, uniform wall thickness, good ovality, resistance to high temperatures, and moisture resistance. Ceramic plates are brittle and prone to cracking, suitable only for some small generators. Ceramic tubes have difficulty controlling wall thickness and ovality, easily leading to uneven discharge, hence less used. Glass tubes and enamel tubes have low dielectric constants, poor high-temperature resistance, and are prone to cracking.

4. Working Principle

When an oxygen-containing gas passes through the discharge gap between two electrodes, some oxygen molecules (O₂) are converted into ozone (O₃), achieving ozone production. When a varying high voltage is applied to the high-voltage electrode, micro-discharges occur in the discharge gap, decomposing oxygen molecules into free oxygen atoms (O). Some free oxygen atoms recombine with undecomposed oxygen molecules to form ozone (O₃), i.e., O + O₂ = O₃. This process is known as "corona discharge" or "silent discharge."

In fact, only part of the electrical energy applied to the electrodes is used for ozone production. Simultaneously, heat is generated during the process and must be effectively cooled using fans for the ozone generation module.

5. Ozone Process Flow

The ozone generator system consists of: Gas source system, ozone generator main unit.6. This product adopts a dual-ball bearing high-speed fan, ensuring high RPM and large air volume for effective heat dissipation of internal heating components. This results in low ozone concentration decay rate, guaranteeing sufficient ozone output and standard concentration even during prolonged use.

7. Ozone is a broad-spectrum sterilizer, exhibiting a strong killing effect on various bacteria and viruses. The generated ozone gas possesses potent oxidizing and catalytic properties. Viruses and bacteria in the ozone gas undergo protein denaturation and dissociation, as well as reduced activity of nucleic acids and enzymes due to the action of multiple free radicals, thereby disinfecting, sterilizing, and purifying the air. Ozone degrades and oxidizes toxic and harmful gases such as formaldehyde, carbon dioxide, and xylene through complex physical and chemical reactions, with non-toxic and harmless by-products, avoiding secondary pollution.

VI. Product Applications

Purifying Air (Place the outlet pipe where purification is needed)

(1) Hotel room disinfection, car disinfection, office disinfection

(2) Production workshop sterilization and disinfection, bed sheet disinfection, ward disinfection, school disinfection

(3) Preventing bacterial infections in mushroom and fungi cultivation

(4) Food processing plant sterilization, preservation, odor removal

(5) VOC exhaust gas treatment, more effective than photocatalytic oxidation

Water Treatment (Aeration mixing in water / Eductor mixing / Gas-liquid mixing pump mixing)

(1) Disinfection of tableware, drinking utensils, and tea sets in restaurants, canteens, hotels, etc.

(2) Raw water treatment, tap water treatment, wastewater and sewage treatment

(3) Laundry water treatment to avoid bacterial infections

(4) Floor spraying, mopping, and cleaning

(5) Treatment of high-difficulty wastewater, decolorization, COD degradation

(6) Decolorization of wastewater from printing and dyeing factories

VII. Sterilization Capability

Ozone possesses extremely strong oxidizing properties and is recognized worldwide as a broad-spectrum, high-efficiency bactericide. Its oxidizing power is higher than chlorine, and it kills bacteria in water 600-3000 times faster than chlorine, often within seconds. For common bacteria such as E. coli, fecal streptococci, Pseudomonas aeruginosa, Staphylococcus aureus, molds, etc., maintaining an ozone concentration of 0.3 PPM for 5 minutes achieves a kill rate exceeding 99%. Its sterilization and disinfection effects are almost instantaneous. When the ozone concentration in water reaches 0.3-2 mg/L, bacteria can be killed within 0.5-1 minute. The amount of ozonated water required to achieve the same sterilization effect (e.g., 99% kill rate for E. coli) is only 0.0048% of that required for chlorine.

VIII. Decomposition Time

1. Ozone is highly soluble in water. Ozone dissolved in water exhibits stronger bactericidal and disinfection capabilities, with a sterilization power up to 3000 times that of chlorine gas. Ozone decomposes very easily into oxygen.

2. The half-life of ozone in water is approximately 20 minutes. At room temperature and pressure, its half-life in air is about 10-30 minutes. Ozone ultimately decomposes and transforms into oxygen.

3. Ozone is a safe, residue-free oxidant and disinfectant, causing no secondary pollution. After reaction, ozone itself rapidly reduces to oxygen, eliminating concerns about chemical residues and posing no threat to the living environment.