Posted in | News | Biofuels

Algae to Biofuels Pilot Plant Opened by LiveFuels

LiveFuels, Inc., a developer of renewable algae-based biofuels, today announced the start of pilot operations at the company’s test facility in Brownsville, TX. Consisting of 45 acres of open saltwater ponds, the facility will be used for research on optimizing algal productivity and increasing the rates of conversion of biomass into renewable oils.

“Our new Brownsville facility allows us to explore a system-level solution for producing algal biofuels,” said LiveFuels CEO Lissa Morgenthaler-Jones. “By harnessing the power of natural systems, we hope to achieve what has eluded the biofuels community for decades – cost effectiveness, scalability, and sustainability.”

While many algae-to-biofuels companies grow monocultures of algae—sometimes genetically modified strains—within expensive enclosures, LiveFuels grows a robust mix of native algae species in low-cost, open-water systems. To harvest the algae, LiveFuels uses a proprietary mixture of oil-rich “algae grazers,” such as filter-feeding fish species and a variety of other aquatic herbivores, in place of expensive and energy-intensive mechanical equipment. These species can easily be processed into renewable oils and many other valuable co-products.

“Current approaches to generating algal-biofuels are resource intensive and face fundamental science and engineering hurdles,” said David Kingsbury, former chief program officer for the Science Program of the Gordon and Betty Moore Foundation and chairman of the LiveFuels scientific advisory board. “LiveFuels’ approach is ingenious in its simplicity. By turning natural food chains into productive systems, LiveFuels eliminates many of the costs and risks plaguing other approaches to using algae for biofuels.”

To date, LiveFuels has filed ten U.S. patents for its proprietary approach to growing and harvesting algal biomass.

At the Brownsville facility, LiveFuels will conduct research on optimizing the productivity of natural aquatic ecosystems through biological and environmental conditions. The results will be used for an expansion to full-scale commercial operations along the coast of Louisiana. The commercial facilities will be designed to harness flows of agricultural pollution from the Mississippi River that can be used as nutrients for generating algal blooms. By removing these nutrients from river flows, LiveFuels’ systems also mitigate the impacts of agricultural pollution in the open ocean.

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