LLNL Funded Biofuel-Producing Algae R&D (Funding, R&D)
General Automation Lab Technologies,Lawrence Livermore National Laboratory
The US DOE reports it has awarded Lawrence Livermore National Laboratory (LLNL) a three-year, $1.5 million grant to improve the growth and efficiency of biofuel-producing algae through the alteration of their microbiomes. LLNL will collaborate with San Francisco-based startup General Automation Lab Technologies (GALT) whose novel technology will help the researchers to better understand how algae grow and function in different microbial conditions. This is essential to being able to increase algal production for alternative fuels.
The project is being funded by Funded by the DOE Department of Energy Bioenergy Technologies Office (BETO) within the Office of Energy Efficiency and Renewable Energy (EERE). BETO works with industry, academia and national laboratory partners on a balanced portfolio of research in algal biofuels technologies. (Source: US DOE, LLNL. Feb., 2018) Contact: LLNL, Xavier Mayali, (925) 423-3892, email@example.com; Ty Samo, (925) 423-5837, firstname.lastname@example.org, www.llnl.gov; BETO, www.energy.gov/eere/bioenergy/bioenergy-technologies-office; US DOE EERE, http://energy.gov/eere; General Automation Lab Technologies, (917) 332-7230, www.galt-inc.com
More Low-Carbon Energy News DOE EERE, DOE BETO, General Automation Lab Technologies, Lawrence Livermore National Laboratory, Algae, Algae Biofuel, Biofuel ,
DOE Reports Additional $8.8Mn for Algae Tech. Innovations (R&D)
The U.S. Department of Energy is reporting the selection of four additional projects from the Productivity Enhanced Algae and ToolKits funding opportunity to receive up to $8.8 million for projects that will deliver high-impact tools and techniques for increasing the productivity of algae organisms in order to reduce the costs of producing algal biofuels and bioproducts. The funding for this initiative now totals over $16 million.
The organizations selected include:
The Colorado School of Mines, in partnership with Global Algae Innovations, Pacific Northwest National Laboratory, and Colorado State University, will improve the productivity of wild algal strains using advanced directed evolution approaches in combination with high-performance, custom-built, solar simulation bioreactors;
The University of California, San Diego, will develop genetic tools, high-throughput screening methods, and breeding strategies for green algae and cyanobacteria, targeting robust production strains;
The University of Toledo, in partnership with Montana State University and the University of North Carolina, will cultivate microalgae in high-salinity and high-alkalinity media to achieve productivities without needing to add concentrated carbon dioxide; Lawrence Livermore National Laboratory will ecologically engineer algae to encourage growth of bacteria that efficiently remineralize dissolved organic matter to improve carbon dioxide uptake and simultaneously remove excess oxygen. (Source: US DOE BETO, www.energy.gov/eere/bioenergy/bioenergy-technologies-office
More Low-Carbon Energy News DOE BETO, Algae, Algal Biofuel, Algae Biofuel,
DOE Awards $8Mn for Algal Biofuel, Products R&D (Funding, R&D)
Sapphire Energy,Lumen Bioscience
The U.S. DOE recently announced the selection of three projects to receive up to $8 million to support research aimed at reducing the costs of producing algal biofuels and bioproducts. The following projects will deliver high-impact tools and techniques for increasing the productivity of algae organisms and cultures:
Seattle, Washington-based Lumen Bioscience will work with the National Renewable Energy Laboratory (NREL) to engineer strains that grow in seawater, resist contamination and predation, and accumulate substantial amounts of energy-rich components. Lumen Bioscience is focusing on agricultural production of algae on otherwise non-productive land in rural eastern Washington State, with the ultimate goal of creating new agricultural jobs in that region.
El Cajon, California-headquartered Global Algae Innovations in partnership with Sandia National Laboratories, University of California at San Diego's Scripps Institution of Oceanography, and the J. Craig Venter Institute will deliver a tool for low cost, rapid analysis of algae pond microbiota, gather data on the impacts of pond ecology, and develop new cultivation methods that utilize this information to achieve greater algal productivity.
Los Alamos National Laboratory, working with San Diego-based Sapphire Energy Inc. at its Las Cruces, New Mexico, field site, will evaluate designed pond cultures containing multiple species of algae, as well as beneficial bacteria, to achieve consistent biomass composition and high productivity. This project will help the algal R&D community better understand these metrics at commercial scales.
The DOE Office of Energy Efficiency and Renewable Energy accelerates research and development of energy efficiency and renewable energy technologies and innovative solutions that strengthen U.S. energy security and economic vitality, while preserving our natural resources. The Bioenergy Technologies Office contributes to EERE's mission by working with industry, academia, and national laboratory partners on a balanced portfolio of research in algal biofuels technologies. (Source: US DOE, 11 July, 2017) Contact: DOE Office of Energy Efficiency and Renewable Energy, https://energy.gov/eere/office-energy-efficiency-renewable-energy; Bioenergy Technologies Office , https://energy.gov/eere/bioenergy/bioenergy-technologies-office;
Lumen Bioscience Inc., www.lumenbioscience.com; Sapphire Energy Inc., www.sapphireenergy.com; Global Algae Innovations, www.globalgae.com
More Low-Carbon Energy News Algal Biofuels, Algae, Biofuel, Sapphire Energy, Lumen Bioscience ,
PNNL Researching Time, Cost Effective Algal Biofuels (R&D)
In Sequim, Washington, researchers at the Pacific Northwest National Laboratory Marine Sciences Laboratory are working to lower the cost of producing biofuels from algae by utilizing an indoor system that mimics the conditions of outdoor ponds. The project -- Development of Integrated Screening, Cultivar Optimization, and Validation Research (DISCOVR) -- is funded by the Bioenergy Technologies Office (BETO) and has created an integrated screening platform for the rapid discovery of high-productivity strains for resilient, year-round outdoor cultivation via crop rotation.
BETO's Advanced Algal Systems Program aims to demonstrate an algal biofuel intermediate yield of 2,500 gpy per acre by 2018 and 5,000 gallons per acre per year by 2022. The program also aims to cut the total production costs of microalgae biofuels to $3/gasoline gallon equivalent by 2030, with or without co-products.
Researchers are currently cultivating 30 strains of algae, which they will narrow down to the four most promising strains. Of the four strains the researchers will determine which have the highest oil, protein, and carbohydrate content, as well as other factors, such as bacterial resistance and potential for creating valuable co-products. The team will then compare the strains to two well-studied algae strains, and the top-performing strains will be further tested to identify the optimal algae strain for biofuel production.
(Source: PNNL, EIN PressWire, June, 2017) Contact: PNNL, (509) 371-6989, www.pnnl.gov
More Low-Carbon Energy News Alagal Biofuel, Algae, Biofuel, PNNL, BETO,
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