Chlorinated Hydrocarbon Bioremediation

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Chlorinated Hydrocarbons and Their Degradation Pathways Chlorinated Hydrocarbons and Their Degradation Pathways

Date added: 07/22/2011
Filesize: 23.44 kB
Downloads: 1441

The University of Minnesota has built a Biocatalysis / Biodegradation Database which shows the microbial biocatalytic reactions and biodegradation pathways for many chemicals including chlorinated hydrocarbons.

Co-inFusion of Oxygen & Alkane Gas using iSOC® Technology Co-inFusion of Oxygen & Alkane Gas using iSOC® Technology

Date added: 07/22/2011
Filesize: 36.82 kB
Downloads: 2528

• Ability to treat compounds generally not subject to direct aerobic oxidation. • Rapid increases in useful biomass through biostimulation of indigenous bacteria. • Rapid and complete biodegradation of target pollutants due to regular input of cometabolic substrate.

Cometabolic Bioremediation Cometabolic Bioremediation

Date added: 07/22/2011
Filesize: 494.16 kB
Downloads: 8888

Cometabolic Treatment Cometabolic Treatment

Date added: 07/22/2011
Filesize: 37.25 kB
Downloads: 2516

The method is most useful for bioremediation of pollutants that are not themselves good aerobic growth substrates for bacteria. With this approach, the added substrate serves as both the electron donor and primary growth substrate for the bacteria. Oxygen is the final electron acceptor in the process.

EPA - A Must Read EPA - A Must Read

Date added: 07/22/2011
Filesize: 22.53 kB
Downloads: 2303

For those professionals practicing the remediation of chlorinated hydrocarbons using a co-metabolic approach (via the mixture of oxygen and an alkane gas) such that there is no DCE or VC stall. This is an excellent website that you should be aware of and visit. The paper is lengthy but full of quality information.

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