The Company adopts the state-of-the-art technologies in manufacturing ozone generators, thus bringing the products strong advantages in global competition. With extremely low after- sales costs, the Company's products are surely invincible worldwide compared with other competitive products, and will be the best-selling products across the globe. Features of plate-type ozone generator
Designed in modular structure, the discharge chamber can be stacked quickly, thus realizing mass production, shortening the delivery period and avoiding yield limit.
The module integration scheme adopted makes it possible to effectively improves the safety, stability and reliability of ozone systems used by users. Each module is independent from others, and the ozone generator can work normally in the case of failure of one module, thus effectively ensuring users' demands for 24h continuous operation. Each discharge chamber is equipped with independent power supply module, significantly improving the safety, reliability and stability of the whole ozone system. The overall technical solution for single independent module is currently the most safe, reliable and stable solution in the world. Compared with traditional high-power power supply design, this system will not shut down in the case of failure of some discharge cells. Thanks to the independent corresponding power supply, the whole ozone generator can operate normally even in the case of failure of a discharge cell module. Thus, the modular integration scheme significantly improves the safety, stability and reliability of the ozone system.
The ozone generator adopts high-frequency power supply, and reduces the volume of the transformer by increasing the frequency, thus reducing the loss of the transformer for energy saving and consumption reduction. With the power factor of over 0.99, its unit power consumption is superior to that of similar products. After 3,000 hours of operation, it can save 20~35% more power than that of the traditional tubular ozone generators.
It is unnecessary to add redundant standby units. The conventional scheme is N+N, i.e. the actual demand plus standby units. However, we just adopt N+1, i.e. we need the actual number of units needed only, without any standby unit, thus effectively saving the users' purchasing cost.
Thanks to its unique structure, the discharge gap is < 0.2mm, which is help for gas heat dissipation and increase of micro-discharge density. As a result, the ozone yield and concentration are increased. The ozone generator can produce ozone with higher concentration and obviously reduce the oxygen content, thus reducing the operating cost without any increase in power consumption.
With special ceramic glaze treatment performed, surface of the ground electrode of the ozone generator will not form metallic oxides, much less the thickened metallic oxides, in long-term continuous operation compared w1it8h/2t4he surface formed by conventional materials. As a result, it effectively avoids such problems as increase in oxygen flow resistance and pool heat dissipation that may reduce ozone concentration and affect the overall efficiency of the ozone generator. Our ozone generators are now in an international leading level in this regard.
Different ozone yields may be achieved by applying different number of discharge cells considering the users' demand, without being limited by conditions of the pressure vessels.
The discharge chamber of the ozone generator is of plate structure that features small volume suitable for scale production, high-precision machining and tight surface-to-surface combination. Thus, the ozone generator is easy to repair and maintain, and each part can be independently replaced without any impact on performance, offering reliable guarantee for modular integration.
| S/N | Item | OZONE ROBOT | Conventional Tubular Type |
|---|---|---|---|
| 1 | Maximum ozone | 200 | 150 |
| 2 | Ozone concentration attenuation | No attenuation | Attenuation |
| 3 | Power consumption of ozone KWh/kg. O3 | < 7.5 | > 10 |
| 4 | Power factor | 0.99 | 0.5~0.8 |
| 5 | Modular | Y | N |
| 6 | Material life | Long | Short |
| 7 | Safety | High | Low |
| 8 | Reliability | High | Low |
| 9 | Stability | High | Low |
| 10 | Operating cost | Low | High |
