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TitleDateSubjectDescription
51 Application of a self-adaptive detector system on a triple quadrupole ms/ms to high explosives and sulfur-containing pyrolysis gases from oil shale1983-12A totally computerized triple quadrupole MS/MS is being extended into a dynamic, self-adaptive chemical analysis system at Lawrence Livermore National Laboratory. These first efforts toward Artificial Intelligence guided instrumentation (i.e. Expert Systems) involve the implementation of a self-adap...
52 Appraisal of the technical and economic potential of U.S. tar sands1986-11U.S. tar sands constitute a large, essentially undeveloped resource that could, with technological advances. provide an important source for future liquid supplies of petroleum. The identified resource base, as reported in the update to the 19B3 report by the Interstate Oil Compact Commission (IDCC)...
53 Areawide and local effects of tar sands development at the Sunnyside site in Utah: A socioeconomic analysis1984-04The Combined Hydrocarbon Leasing Act of 1982 (Public Law 97-78) provides guidelines for converting federal oil and gas leases to combined hydrocarbon leases in Special Tar Sands Areas (STSAs). The STSAs are designated by the U.S. Department of the Interior as areas that contain substantial deposits ...
54 Arrangement for recovering viscous petroleum from thick tar sand1977-05-03Patent; Viscous oil; Tar sand; Petroleum; Recovering viscous petroleum; Large vertical dimension; Tubular memberAn arrangement is provided for recovering viscous oil from a tar sand formation having a large vertical dimension including a substantially vertical lined shaft extending through the tar sand formation. A first opening is formed in the lower portion of the shaft lining and at least one lateral hole ...
55 Asphalt from Utah tar sands -- A JWBA project sponsored by the U.S. Department of Energy1989asphalt; Utah tar sands; JWBA project; asphalt productionJWBA has initiated a project for development of Utah's tar sands for production of specification-grade asphalt. Projected prices and costs strongly indicate economic viability within the market limitations. JWBA has licensed the water extraction technology developed at the University of Utah and has...
56 Asphalt Wash 1 (U086) - Plate 92014Green River Formation; well log; core log; Asphalt Wash 1; plate 9
57 Asphalt Wash 1 XRF depth plots2014Asphalt Wash; depth plots
58 Asphaltene rejection from bitumens via supercritical fluid extraction1993asphaltene rejection; bitumen; supercritical fluid extraction; SFE; asphaltene contentSupercritical fluid extraction (SFE) of bitumen was carried out in a continuous extractor using propane as the solvent at several temperatures and pressures. The asphaltene contents of the residual fractions in the extractor were compared to the asphaltene content of the original bitumen. Asphaltene...
59 Assay products from Green River oil shale1986-02-18Pyrolysis stoichiometry; Green River; Oil shale; Oil; Mahogany zone; Colorado; Utah; Pairwise correlation coefficients; Pyrolysis; Elemental analyses of shales and oils; Organic carbon; Gas composition; Elemental composition; Oil shale grade; Raw shaleData from 66 material-balanced assays conducted at Lawrence Livermore National Laboratory, Laramie Energy Technology Center, and The Oil shale Corporation were compiled and analyzed to determine the pyrolysis stoichiometry for Green River formation oil shales originating in and near the Mahogany zon...
60 Assays of oil shale cuttings and cores, P. R. Spring and Hill Creek oil-impregnated sandstone deposits1977-07In 1973 the Utah Geological and Mineral Survey drilled sixteen core holes in the P.R. Spring and Hill Creek oil-impregnated sandstone deposits in the southeast Uinta Basin, Uintah county, Utah (figures 1 and 2). The holes were drilled in cooperation the U.S. Bureau of Mines under a grant from that a...
61 Assessment and control of water contamination associated with shale-oil extraction and processing1979; 1980The Los Alamos National Laboratory's research on assessment and control of water contamination associated with oil shale operations is directed toward the identification of potential water contamination problems and the evaluation of alternative control strategies for controlling contaminants releas...
62 Assessment of research needs for oil recovery from heavy-oil sources and tar sands1982-03The Fossil Energy Research Working Group (FERWG), at the request of J. W. Mares (Assistant Secretary for Fossil Energy) and A. W. Trivelpiece (Director, Office of Energy Research), has reviewed and evaluated the U.S. programs on oil recovery from heavy oil sources and tar sands. These studies were p...
63 Assessment of unconventional fuels development costs2013-05-07ICSE; Unconventional fuels; Development cost; Oil Shale; In situ; Ex situ; Oil Sands; Utah; Uinta BasinPresentation given at the University of Utah Unconventional Fuels Conference, Salt Lake City, Utah, May 7, 2013.
64 Association of uranium and other metals with crude oil, asphalt, and petroliferous rock1954-10uranium; crude oil; asphalt; petroliferous rockSome crude oil, natural asphalt, and petroliferous rock are appreciably radioactive, but little is known about the actual uranium content and the chemical nature of the uranium compound or compounds in these materials. Semiquantitative spectrographic analyses of the ash of 29 samples of crude oil, 2...
65 Atomistic modeling of oil shale kerogen and asphaltenes2010-04-28Kerogen is a mixture of organic chemical compounds that make up a portion of the organic matter in sedimentary rocks. It is insoluble in normal organic solvents because of the large molecular weight (upwards of several thousand Daltons). When heated in the Earth's crust (oil window ca. 60 ° - 120 �...
66 Atomistic modeling of oil shale kerogens and asphaltene along with their interactions with the inorganic mineral matrix2011-04atomistic modeling; oil shale kerogens and asphaltene; inorganic mineral matrixThe goal of this project is to obtain and validate three dimensional atomistic models for the organic matter in both oil shales and oil sands. In the case of oil shales the modeling was completed for kerogen, the insoluble portion of the organic matter; for oil sands it was for asphaltenes, a class ...
67 Atomistic modelling of oil shale kerogens and asphaltenes2012-10-21Atomistic modeling; Oil shale; Kerogens; Asphaltenes; 3D models; Pyrolysis; Computational modeling; Molecular mechanics; HyperCHem/ReaxFF; Ab initio calculations; Gaussian/GAMESS; DIFFUSE; CRYSOL
68 Attachment 2 - Statement of program objectives clean and secure energy from domestic oil shale and oil sands resources2011-12ICSE; Oil shale research; Energy; Oil sands resources; Domestic oil shale; Environmental impact; Basin scale simulation; Liquid fuel production; In-situ thermal processing; Environmental; Legal; Policy issues; University of UtahThis Statement of Project Objectives (SOPO) reflects the performance period from October 1, 2010 through September 30, 2013. It includes tasks/subtasks funded in fiscal year 2009 (Phase 1) and tasks/subtasks funded in fiscal year 2010 (Phase II). Tasks/subtasks initiated during Phase I that are anti...
69 Attachment 2 - Statement of program objectives: Clean and secure energy from domestic oil shale and oil sands resources2009-09-24ICSE; University of Utah; Energy; Oil shale; Oil sands; CO2 capture; Liquid fuel; In-situ thermal processing; NOx emissions; CO2 emissions; Flameless oxy-gas process heaters; Efficient CO2 capture; Large Eddy Simulation; LESThe University of Utah (the Recipient), via their Institute for Clean and Secure Energy (the Institute), shall pursue research to improve industry's ability to utilize the vast energy stored in domestic oil shale and oil sands resources in a manner that shall minimize environmental impact and effect...
70 Attachment 3--Statement of project objectives (mod 003)2009Project; Research; Tasks; Industry; Academic; Public outreach; ISCE; DOE; Department of Energy; Repository; Large Eddy Simulation; LES; ARCHES; Oxy-coal; DQMOM; Power generation; Retrofit; Gasification; Entrained-flow; Radiation modeling; In-situ fuel production; Mercury controlThis material is based upon work supported by the Department of Energy under Award Number FC26-08NT0005015. C. Tasks to be performed (Phase 2)
71 Attrition and abrasion models for oil shale process modeling1991-10-25As oil shale is processed, line particles, much smaller than the original shale are created. This process is called attrition or more accurately abrasion. In this paper, models of abrasion are presented for oil shale being processed in several unit operations. Two of these unit operations, a fluidiz...
72 Availability of tar sands on public land: An overview2006-09-21Tar sands; public lands; Utah; Leasing on federal lands; Hydrocarbonaceous material; Oil shale; Tar sand developmentPresentation summary: 1-Provide an overview of Utah Tar Sand Resources 2-Provide historical summary Tar Sand Leasing on Federal Lands; -Early leasing efforts-1960, -Combined Hydrocarbon Leasing-1981, -Energy Policy Act of 2005 3-Outline current leasing process
73 Balancing energy resources2008-05-23Utah; Rocky Mountain Power; Wyoming; Utah Energy; Energy deficit; Greenhouse gas; Energy resources; CoalFulfilling our obligation: 1-Investing in the system to satisfy growing demand 2-Meeting increasing customer expectations with respect to the quality of our service 3-Addressing increasing concerns regarding the environment
74 Basin oriented strategies for CO2 enhanced oil recovery: Alaska2005-04Alaska; North Slope; Cook Inlet; Oil; Gas; Oil recovery; EOR; CO2; Carbon dioxide; Oil fields; Oil production industryThe oil and gas producing regions of Alaska have nearly 45 billion barrels of oil which will be left in the ground, or "stranded", following the use of today's oil recovery practices. A major portion of this "stranded oil" is in reservoirs technically and economically amenable to enhanced oil recove...
75 Basin oriented strategies for CO2 enhanced oil recovery: Rocky Mountain Region2006-02Rocky Mountain; Colorado; Utah; Wyoming; Oil; Gas; Enhanced oil recovery; EOR; CO2; Carbon dioxide injection; Oil fields; Basin oriented strategies; Domestic oil productionThe Rocky Mountain oil and gas producing region of Colorado, Utah and Wyoming has an original oil endowment of nearly 34 billion barrels. Of this, 11 billion barrels (33%) has been produced or proven. As such, nearly 23 billion barrels of oil will be left in the ground, or "stranded", following the ...
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