Ultraviolet ozone generators utilize a specific wavelength (185nm) of UV light to照射 oxygen molecules, causing them to break down and produce ozone. Due to their large size, low ozone output, and short lifespan, these generators are limited in application, often found in sterilizing cabinets. Electrolytic generators typically produce ozone by electrolyzing pure water. They can produce high-concentration ozone water at a low cost, with simple operation and maintenance. However, their usage is restricted due to limitations such as the inability to increase ozone output, short electrode lifespan, and difficulties in ozone collection. Currently, these generators are only used in specific small-scale equipment or certain locations and do not meet the criteria to replace high-voltage discharge generators.
Electrolytic generators typically produce ozone by electrolyzing pure water. These generators are capable of producing high-concentration ozone water with low manufacturing costs and simple operation and maintenance. However, their application scope is limited due to drawbacks such as limited ozone output, short electrode lifespan, and the difficulty in collecting ozone. Currently, these generators are only used in some specific small-scale equipment or certain locations and do not meet the conditions to replace high-voltage discharge generators.
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