| Drinking Water |
| Both Ozone and UV are well recognized methods for municipal drinking water treatment and disinfection. Each can be used |
| for the inactivation of viruses, giardia, cryptospordium, bacteria and other microbial contaminants. While UV is limited to disinfection, |
| ozone is also an effective treatment for taste, odor and color removal, iron and manganese reduction, as well as being a flocculating |
| agent.
Ozone and/or UV require a relatively short residence times for disinfection unlike chemicals such as chlorine and chlorine |
| derivatives |
Ultrapure Water |
| Ozone and UV are the most widely accepted and recognized methods for disinfection of ultra-pure water (UPW). Most |
| commonly used in the pharmaceutical, semiconductor, cosmetics and beverage industries, UPW systems treated with |
| Ozonia ozone and UV systems routinely achieve microbial counts below 1 cfu / 100 ml. Ozone has proven itself the most |
| reliable technique for clean-in-place (CIP) applications where minimum down-time to remove bio-burden is required.
|
| With several hundred ozone and UV installations installed and operating on UPW systems, Ozonia is the recognized world leader for |
| ultra-water sanitization. Ozonia MEMBREL? Electrolytic Ozone Systems disinfect in-situ offering the added benefits of simplicity to a |
| complicated process. In combination with Ozonia Medium Pressure UV, ozone removal, TOC reduction and product safety are |
| assured. |
|
|
|
