Summary report : universal fuel processor. | |
Coker, Eric Nicholas ; Rice, Steven F. (Sandia National Laboratories, Livermore, CA) ; Kemp, Richard Alan ; Stewart, Constantine A. ; Miller, James Edward ; Cornelius, Christopher James ; Staiger, Chad Lynn ; Pickett, Lyle M. (Sandia National Laboratories, Liver | |
关键词: BIOMASS; COAL; COMPETITION; DIESEL FUELS; FUELS; IMPORTS; KNOWLEDGE BASE; NATURAL GAS; NORTH AMERICA; OILS; PETROLEUM; PRICES; PRODUCTION; RESOURCES; SUPPLY DISRUPTION; TRANSPORTATION SECTOR; VULNERABILITY Fuel.; Fuel; United States.; Fuel-Analysis.; Energy consumption-Statistics-Periodicals.; Environmental Sciences-Biomass Energy & Biofuels; | |
DOI : 10.2172/929524 RP-ID : SAND2008-0679 PID : OSTI ID: 929524 Others : TRN: US200822%%986 |
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美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
The United States produces only about 1/3 of the more than 20 million barrels of petroleum that it consumes daily. Oil imports into the country are roughly equivalent to the amount consumed in the transportation sector. Hence the nation in general, and the transportation sector in particular, is vulnerable to supply disruptions and price shocks. The situation is anticipated to worsen as the competition for limited global supplies increases and oil-rich nations become increasingly willing to manipulate the markets for this resource as a means to achieve political ends. The goal of this project was the development and improvement of technologies and the knowledge base necessary to produce and qualify a universal fuel from diverse feedstocks readily available in North America and elsewhere (e.g. petroleum, natural gas, coal, biomass) as a prudent and positive step towards mitigating this vulnerability. Three major focus areas, feedstock transformation, fuel formulation, and fuel characterization, were identified and each was addressed. The specific activities summarized herein were identified in consultation with industry to set the stage for collaboration. Two activities were undertaken in the area of feedstock transformation. The first activity focused on understanding the chemistry and operation of autothermal reforming, with an emphasis on understanding, and therefore preventing, soot formation. The second activity was focused on improving the economics of oxygen production, particularly for smaller operations, by integrating membrane separations with pressure swing adsorption. In the fuel formulation area, the chemistry of converting small molecules readily produced from syngas directly to fuels was examined. Consistent with the advice from industry, this activity avoided working on improving known approaches, giving it an exploratory flavor. Finally, the fuel characterization task focused on providing a direct and quantifiable comparison of diesel fuel and JP-8.
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