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Currently Viewing: All Categories > Technology 00032F
00032F: Purification of drinking water using ozonation in a fluidized bed bioreactor
Technology Categories
Biotechnology, Chemicals, Environmental
Keywords
Water purification, drinking water, ozonation, organic matter
Background
The conventional approach to including ozonation in water treatment is to combine it with biological treatment (biotreatment). One problem of conventional ozonation/biodegration processes is that the biodegradable organic carbon (BDOC) in the organic materials formed by the initial ozonation is difficult to quickly remove during the subsequent biotreatment. This "slow" BDOC, if not removed will contribute to the formation of disinfection by-products after chlorination, and may also result in biological regrowth in the distribution system.
Description
The invention relates to a process for treating organic matter in contaminated drinking water. The initial ozonation of the contaminated water converts nonbiodegradable organic matter to BDOC. Biological treatment in a fluidized bed bioreactor using supporting microorganisms is then used to remove the BDOC. After the initial ozonation of the contaminated water, an added biodegradable carbon source in the bioreactor is used to promote efficient biodegradation ("biostimulation") of the combined ozonated organic matter and carbon source and thus purify the water, thereby efficiently removing the "slow" BDOC.
Benefits
- Cost savings: Greater efficiency in removal of organic matter from contaminated drinking water leads to reduced disinfection byproduct precursors and increased biological stability of treated water, thereby lowering costs of pre-distribution treatment (e.g. chlorination) of water.
- Scalability: The prototyped system can be readily scaled to production volumes.
Applications
Could be used in commercial water treatment systems, particularly municipal water treatment.
IP Protection Status
US 6,365,048 B1 (issued 04/02/02)
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Contact
For more information about this technology, please contact Bradley Shaw at 517-355-2186 or shawbr@msu.edu.