MAX Specializing in the production of ozone generator and promoting ozone catalytic oxidation technology , our prodcute component includes an independent borosilicate optical glass tube (insulating tube), an independent fully insulated amorphous electrode, and two annular discharge spaces formed between the insulating tube and the high-voltage electrode.
Product Introduction
The principle of ozone preparation is gap discharge method.
Power supply unit (PSU) provides a high-voltage electric field to allow oxygen flowing through the generator to pass through this electric field.
When oxygen passes through, it is converted into ozone through high-voltage corona discharge.
This equipment adopts a vertical tank structure.
The inlet and outlet pipes are tangent to the cylinder to prevent damage to the high borosilicate glass tube caused by long-term gas erosion. The equipment is all connected by flanges, which is convenient for maintenance and disassembly. Install a PLC automatic control system and human-machine interface touch screen for easy operation.
Electrical components such as electric control valves, temperature sensors, pressure sensors, ozone online monitors, water flow switches, metal float flow meters, etc. are controlled by PLC.it making the operation of the ozone generator more convenient, measurement more accurate.and achieving unmanned status throughout the entire ozone production period, safe, economical, and reliable.
Product advantages
The ozone power supply and transformer adopt a fully air-cooled cooling mode, which is energy-saving, environmentally friendly, and convenient for installation and maintenance. The ozone power supply adopts fully IGBT (triode rectifier) controllable rectification, PWM technology, V/F adjustable mode, and primary resonance principle, effectively protecting the discharge tube from starting and discharging.
ozone generation chamber adopts a recoverable discharge unit and DBD dual gap discharge technology. it can reach 12wt% (with liquid oxygen as the gas source);
Model | Production | Air inflow | Ozone concentration | Cooling water flow rate(25-32℃) | Power | Dimensions | Port size | PSU | |
g/h | Nm³/h | mg/l | m³/h | Kw/h | mm | Cooling water | Ozone output | mm | |
SK-CFG-100E | 100 | 0.83 | 120-148 | 0.2 | 0.6-0.8 | 1300×800×2000 | DN15 | DN15 | 1400×1000×2000 |
SK-CFG-200E | 200 | 1.67 | 120-148 | 0.4 | 1.2-1.6 | 1300×800×2000 | DN15 | DN15 | 1400×1000×2000 |
SK-CFG-300E | 300 | 2.5 | 120-148 | 0.6 | 1.8-2.4 | 1300×800×2000 | DN15 | DN15 | 1400×1000×2000 |
SK-CFG-500E | 500 | 4.17 | 120-148 | 1.0 | 3-4 | 1300×800×2000 | DN15 | DN15 | 1400×1000×2000 |
SK-CFG-1KE | 1000 | 8.33 | 120-148 | 2 | 6-8 | 1300×800×2000 | DN15 | DN15 | 1400×1000×2000 |
SK-CFG-2KE | 2000 | 16.67 | 120-148 | 4 | 12-16 | 1400×1000×2000 | DN25 | DN25 | 1400×1000×2000 |
SK-CFG-3KE | 3000 | 25 | 120-148 | 6 | 18-24 | 1400×1000×2000 | DN32 | DN25 | 2800×1000×2000 |
SK-CFG-4KE | 4000 | 33.33 | 120-148 | 8 | 24-32 | 1500×1100×2000 | DN32 | DN25 | 2800×1000×2000 |
SK-CFG-15KE | 5000 | 41.67 | 120-148 | 10 | 30-40 | 1600×1000×2000 | DN40 | DN25 | 2800×1000×2000 |
SK-CFG-10KE | 10000 | 67.57-83.33 | 120-148 | 20 | 60-80 | 1900×1600×2000 | DN65 | DN40 | 3500×1000×2000 |