A variety of highly toxic contaminants of concern persist in soils and groundwater at industrial sites across the country. Treatment, if even feasible, is often very expensive and time consuming. In-situ bioremediation of multiple contaminants with slow release cometabolism allows is attractive, but faces challenges of substrate limitations, slow kinetics, and the prolonged viability of the microorganisms carrying out the remediation. There is a need for technologies that can better sustain the bioremediation process by localizing and retaining the microorganisms in the subsurface and providing sustained substrate release over an extended period of time. This technology provides such a solution.
https://today.oregonstate.edu/news/osu-research-paves-way-improved-cleanup-contaminated-groundwater https://www.oregonlive.com/environment/2020/03/osu-develops-potentially-ground-breaking-approach-to-cleaning-contaminated-groundwater.html
Technology Description
This technology utilizes the ability of microbial cells and slow release compounds (SRC) within an encapsulation device to degrade and treat groundwater contaminants of concern. A variety of microorganisms can be used in combination with a variety of slow release substrates to target a spectrum of difficult to degrade contaminants, including poly-cyclic compounds and highly toxic halogenated compounds. By using encapsulation, the microorganisms and cometabolic substrates stay co-located, in situ, over an extended period of time.
Degradation of vinyl chloride and 1,1 – dichloroethylene over an extended period of time using this technology (light blue dotted lines are abiotic controls).
Benefits
Oregon State University is seeking development partners.
IP Status
Seeking