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Environmental impacts of gasoline and E85. In a similar way, the full breadth of impacts attributable to conventional gasoline production, such as natural resource consumption and hazardous pollutant emissions, must also be considered in order to make balanced comparisons to biofuels. Process flow diagrams for E85 and gasoline.
An international team led by University of Minnesota chemical engineering and materials science professor Michael Tsapatsis reports in the journal Science on a prototype of a new catalyst made of orthogonally connected microporous zeolite nanosheets ( earlier post ). —Michael Tsapatsis. Korea and Sweden.
CenterPoint Energy, a US energy delivery company, is adding 35 natural gas vehicles to its fleet across Arkansas, Louisiana, Minnesota, Mississippi, Oklahoma and Texas. A number of retail gasoline stations have also begun exploring plans to add natural gas pumps to their locations.
As a result, there is a critical need to create new pathways for biofuel conversion that reduces carbon waste, prevents the loss of CO 2 emissions, and in turn, maximizes the amount of renewable fuel a conversion process yields. A Microbial Consortium Enables Complete Feedstock Conversion - $1,574,966.00. University of Delaware.
million for five projects to develop advanced biofuels and bioproducts that will help drive down the cost of producing gasoline, diesel, and jet fuel from biomass. Fractional collection of the fuel product allows for the different fractions to be used as blend-stock for gasoline, diesel, or jet fuel.
A consortium comprising researchers from the University of Minnesota and the Pacific Northwest National Laboratory, with BioCee , a University of Minnesota start-up company as the commercialization partner, has been awarded $2.2 University of Minnesota Biofuels Database. Earlier post.). Lawrence P. 1751-7915.2007.00020.x.
The first initiative will invest up to $12 million over three years for four projects to advance technologies for the thermochemical conversion via pyrolysis of biomass into advanced biofuels that are compatible with existing fueling infrastructure. The US Department of Energy (DOE) will invest up to $16.5
million ARPA-E funded project on direct solar hydrocarbon fuels ( earlier post ), University of Minnesota graduate student Janice Frias (who earned her doctorate in January) has determined the biosynthetic mechanism by which a protein (OleA) transforms fatty acids produced by bacteria into ketones, which can be cracked to make hydrocarbon fuels.
Butamax Advanced Biofuels LLC, the biobutanol technology company formed as a joint venture between DuPont and BP, and Highwater Ethanol LLC, a producer of first-generation corn ethanol, have begun to retrofit Highwater’s ethanol plant in Lamberton, Minnesota for the production of bio-isobutanol. of the hydrocarbon gasoline.
For this project, Gevo is evaluating the most likely 2G biomass to carbohydrate conversion process to use in conjunction with its proven carbohydrate to low carbon biofuel process. Queensland is rich in renewable biomass resources and has expressed the desire to invest in the future of biofuels.
Natural Gas Reactor for Remote Chemical Conversion. Turbo-POx For Ultra Low-Cost Gasoline. conversion of natural gas to liquid fuels. combustor of a natural gas turbine, facilitating its conversion into a. efficiency of gas conversion into fuels and chemicals, generating electricity in the process. Ceramatec, Inc.
The project “Maximizing Conversion of Biomass Carbon to Liquid Fuel” (0938033) will be led by Rakesh Agrawal, with colleagues Mahdi Abu-Omar, Nicholas C. Fundamental discoveries from this project will uncover links between the physical and chemical structure of biomass to the conversion process. Quick conversion of biomass.
University of Minnesota. BCT) Metastable Fe-N Anisotropic Nanocomposite Magnet—A Path to Fabricate Rare Earth Free Magnet A joint University of Minnesota and Oak Ridge National. Concentrating Solar Power/Nuclear: High Efficiency Solar Electric Conversion Power Tower Abengoa Solar will develop a high efficiency solar-electric.
This project will explore the unique capabilities of heat and mass transfer inherent in microchannel reactor technology with advanced catalysts to intensify chemical processes, resulting in more efficient conversion of cellulosic residues to liquid transportation fuels. University of Minnesota (St. DOE Awards. Exelus, Inc.
Paul Metropolitan Council, Minnesota: $1,100,000. Productive Alternatives/Transit Alternatives, Minnesota: $845,000. Lighting Conversion and Upgrades for Facilities: Converting the lighting system at four RIPTA facilities to more energy efficient systems. The proposed replacement vehicles include small gas/electric hybrid buses.
RTI International will work with ADM, Albemarle and ConocoPhillips to develop a novel single-step catalytic biomass pyrolysis process with high carbon conversion efficiency to produce stable bio-crude oil with low oxygen content. The University of Minnesota and BioCee, Inc. DOE grant: $4,085,350). DOE grant: $2,200,000).
The last time a production model of an electric car had traveled from coast to coast was in 1998, when an EV-1 made the journey without consuming an ounce of gasoline. EV conversion technologies have now made these types of vehicles possible and available through affiliates of the EAA, such as CalCars and Plug-in Supply.
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