The ultraviolet lamp requires a lot of electricity for operation, has many blind spots (areas that cannot be reached), and is inconvenient to use. Spraying disinfectant is a better method, but if the distribution is uneven, it will not achieve the desired effect either. Moreover, for disinfection in large spaces, this method is obviously time-consuming and labor-intensive.
Using an ozone disinfection machine can eliminate these drawbacks. Because ozone gas can penetrate everywhere and sterilization is very fast. As long as the concentration and time of ozone are properly controlled, the effect will be very ideal. If these public places are equipped with ozone generators for regular and timed disinfection, it can reduce the spread of diseases. Dispersing ozone through the central air conditioning fresh air system for sterilization and disinfection is an ideal method.
1) Selection techniques for electrode materials and dielectric materials
Titanium alloy is adopted as the discharge electrode, which solves the problems of uneven corona discharge, easy oxidation of the electrode and short service life.
2) Ozone generator drive power supply – high-frequency inverter power supply
The high-frequency inverter power supply based on the closed-loop frequency tracking control of the inverter output current effectively reduces the requirements for the transformer ratio and the capacitance of the switching device.
3) Aluminum alloy heat sink
The aluminum alloy coated with an anti-oxidation film is used as the heat sink. Due to the excellent thermal conductivity of the aluminum alloy, it ensures the superior heat dissipation effect of the ozone generator, allowing for continuous and stable normal operation for 24 hours a day.
4) Polymer silicone rubber sealing plate
The ozone generator is sealed with high-molecular silicone rubber plates, and there will be no leakage of ozone gas when discharging under an indoor pressure of less than 0.4MPa.
5) Gas side-flow junction external electrode
The gas side-flow structure of the outer electrode can effectively avoid the problem that the distance the gas travels through the discharge chamber increases simultaneously when the length of the discharge chamber is extended.
6) Multiple working modes
It features timed, continuous, manual and automatic working modes, with menu Settings that can be adjusted and configured according to the actual application requirements of users. According to the user’s requirements, functions such as remote operation control and remote data monitoring can be set. The operating status is recorded by itself and can be checked at any time.
Model | XL-G50 | XL-G100 | XL-G200 | XL-G300 | XL-G400 |
Air flow | 1.8-3.0m³/h | 5.0-10.0m³/h | 10.0-20.0m³/h | 15.0-30.0m³/h | 20.0-40.0m³/h |
Cooling water flow | 0.05-0.1m³/h | 0.2-0.3m³/h | 0.3-0.4m³/h | 0.4-0.6m³/h | 0.6-0.8m³/h |
Ozone gas output | 50g/h | 100g/h | 200g/h | 300g/h | 400g/h |
Power supply | 220V 50Hz | ||||
Drive circuit | Pulse frequency: 1-4.5kHz, Pulse amplitude: 4.5KV | ||||
Air source | Clean & dry air | ||||
Dew point of gas source | ≤-45℃ | ||||
Temp. | ≤35℃ | ||||
Humidity | ≤80% | ||||
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