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These activities will accelerate the ability to overcome several key barriers identified in the Algal Biofuels Roadmap, including: feedstock supply (strain development and cultivation); feedstock logistics (harvesting and extraction); and conversion (production of fuels and co-products). Low-cost one-step syngas to distillates.
The goal is to develop an optimal generator for current energy conversion. This research into underwater coatings that prevent biofouling has the potential to positively impact all MHK systems and improve the conversion efficiency for MHK systems. DOE Funding: $160,000. Total Project Value: $192,000. DOE Funding: $160,000.
Durable and affordable higher-temperature heat exchangers could make energy conversion much more efficient, which in turn could reduce fuel consumption, system footprint, capital and operational cost, and emissions. Missouri University of Science and Technology. The Ohio State University.
Novel Biological Conversion of Hydrogen and Carbon Dioxide Directly into Biodiesel. This project will develop and optimize a novel, engineered microorganism that produces a biodiesel-equivalent fuel from renewable hydrogen and carbon dioxide, at costs of less than $2.50 OPX Biotechnologies Inc. NREL, Johnson Matthey Catalysts).
Related to this, DOE seeks by 2020 to develop novel precursors and conversion processes capable of reducing the high-volume cost of high-strength carbon fiber by 25% from $13 per pound to ~$9 per pound. Projected costs, in 2013$, for BOP components for 700-bar compressed hydrogen storage systems produced at 500,000 systems per year.
The projects are funded through ARPA-E’s two newest programs, Advanced Research In Dry cooling (ARID) and Accelerating Low-cost Plasma Heating and Assembly (ALPHA), which both seek to develop low-cost technology solutions. University of Missouri, Lehigh University, and Evapco). ARID AWARDS. Lead organization.
And there they would have stayed without a chance conversation and assistance from some very capable librarians and archivists. Due to their lowcost, thin form factor, and pliability, flexi discs became the medium of choice for magazine publishers who wished to supplement articles with audio content.
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