Electronic University Archive
 
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TitleDateSubjectDescription
51 KTIA corporate introduction2009-02-27KTIA; KTI; minesOverview of KTIA's continuing oil sands development activities in Utah, presented at the 2009 Western U.S. Oil Sands Conference by Soung-Joon Kim, Chief Operating Officer, Korea Technology Industry America, Inc.
52 Land and resource management issues relevant to deploying in-situ thermal technologies: Topical Report: October 1, 2009 to December 31, 20102011-01in-situ; oil shale; domestic energy source; oil sandsUtah is home to oil shale resources containing roughly 1.3 trillion barrels of oil equivalent and our nation's richest oil sands resources. If economically feasible and environmentally responsible means of tapping these resources can be developed, these resources could provide a safe and stable dome...
53 Lands with wilderness characteristics, Resource Management Plan constraints, and land exchanges: Cross-jurisdictional management and impacts on unconventional fuel development in Utah's Uinta Basin2012-03Utah oil shale; oil sands; unconventional fuel resources; land exchanges; land rightsUtah is rich in oil shale and oil sands resources. Chief among the challenges facing prospective unconventional fuel developers is the ability to access these resources. Access is heavily dependent upon land ownership and applicable management requirements. Understanding constraints on resource acce...
54 Natural Gamma-Res Suite: Skyline 162010-05-28Gamma log; Skyline 16; natural gamma residue; NAT Gamma-RES SuiteLog concerning the natural gamma-res of Skyline 16.
55 North-South core-based cross section through the middle to upper Green River Formation, Uinta Basin, Utah - Plate 22014oil shale; economic oil shale; oil shale zone; cross section; Green River Formation; well log; core logThe top of economic oil shale was picked at the top of the lower R-8 zone (top of the Big Three rich oil shale beds). This zone was selected to avoid the abundant saline minerals found in the overlaying saline zone, which often contains high-TDS water. If saline minerals (and high-TDS water) do not ...
56 Opportunities for oxy-firing to reduce life-cycle greenhouse gas emissions from transportation fuels2011-03-10GHG; oxy-firing; reduce greenhouse gas emissions; transportation fuel emissions; CO2 analysis; oil sandsThe outline covers in this presentation covers: GHGs and the transportation fuel cycle. Motivation for reducing GHG emissions. Use of oxy-firing for CO2 capture in refining of conventional fuel. Use of oxy-firing for extraction and upgrading of oil sands. GHG emissions from other scenarios Would oxy...
57 Oxy-coal combustion studies - Task 3 topical report, Utah Clean Coal Program.2014-08oxy-coal combustion; Utah Clean Coal Program; oxy-coal; large eddy simulations; near-flame aerodynamics; pilot-scale oxy-CFB; single-particle oxy char oxidation; ash partitioning; carbon capture; pulverized coal-fired power plantsThe objective of this task is to move toward the development of a predictive capability with quantified uncertainty bounds for pilot-scale, single-burner, oxy-coal operation. This validation research brings together multi-scale experimental measurements and computer simulations. The combination of s...
58 Oxy-coal Combustion Studies Task 3 Topical Report, Utah Clean Coal Program2012-01-06oxy-coal combustion; Utah Clean Coal Program; carbon capture; large eddy simulations; near-field aerodynamics of oxy-coal flames; single-particle oxy-CO2 combustion; ash partitioningThe objective of this project is to move toward the development of a predictive capability with quantified uncertainty bounds for pilot-scale, single-burner, oxy-coal operation. This validation research brings together multi-scale experimental measurements and computer simulations. The combination o...
59 Oxy-fuel hierarchy2009-11-04oxy-fuel combustion; different fuel types; ICSEHierarchical chart for the oxy-fuel combustion research area showing connectivity between subtasks. This research area includes coal, gas, and oil oxy-burner technologies. This chart helps illustrate the integration and focus among the different fuel types and different scales represented in the hie...
60 Oxy-gas process heaters for efficient CO2 capture2010-04-28oil shale and oil sands technology; greenhouse gas emissions; GHG; large eddy simulation; LES; IFRF OXYFLAMImplementation of oil shale/sands technologies in U.S. will require mitigation of greenhouse gas (GHG) emissions.
61 P. R. spring oil-impregnated sandstone deposit Uintah and Grand Counties, Utah1970-02oil-impregnated sandstone beds; oil impregnation; oil shale; lenticular sandstones; siltstonesOil-impregnated sandstone beds underlie at least 214 square miles in the southeastern Uinta Basin and may extend northward beneath cover. One to as many as five principal saturated zones, 3 to 75 feet thick, occur in a 250-foot interval that dips gently northward. The northernmost outcrops are overl...
62 P4 Plate 62014well log; core log; plate 6; P4; White River Shale Project; Green River Formation
63 Phase 2: Clean and secure energy from coal: Quarterly progress report: April 1, 2010 to June 30, 20102010-08-01domestic coal resources; CO2 capture; stationary power generation; DQMOM approachThe University of Utah is pursuing research to utilize the vast energy stored in our domestic coal resources and to do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organized around the theme of validation and uncertainty quantification throug...
64 Phase 2: Clean and secure energy from coal: Quarterly progress report: January 1, 2010 to March 31, 20102009-01-30domestic coal resources; ICSE; capture CO2; stationary power generation; velocity model; bitumous coal; coalThe University of Utah is pursuing research to utilize the vast energy stored in our domestic coal resources and to do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organized around the theme of validation and uncertainty quantification throug...
65 Phase 2: Clean and secure energy from coal: Quarterly progress report: July 1, 2010 to September 30, 20102010-10-01domestic coal resources; CO2 capture; stationary power generation; Oxycoal; OFC; coalThe University of Utah is pursuing research to utilize the vast energy stored in our domestic coal resources and to do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organized around the theme of validation and uncertainty quantification throug...
66 Phase 2: Clean and secure energy from coal: Quarterly progress report: October 1, 2009 to December 31, 20092010-01-30domestic coal resources; CO2 capture; stationary power generation; oxy-coal flames; coal gasification processThe University of Utah is pursuing research to utilize the vast energy stored in our domestic coal resources and to do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organized around the theme of validation and uncertainty quantification throug...
67 Phase 2: Clean and secure energy from coal: Quarterly progress report: October 1, 2010 to December 31, 20102011-01-31domestic coal resources; CO2 capture; stationary power generation; LES; DQMOM approach; oxy-coal flames; coalThe University of Utah is pursuing research to utilize the vast energy stored in our domestic coal resources and to do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organized around the theme of validation and uncertainty quantification throug...
68 Phase II: Clean and Secure Energy from Coal: Quarterly Progress Report: January 1, 2011 to March 30, 20112011-05-01domestic coal resources; CO2 capture; coal; Oxycoal simulation team; coal sequestrationThe University of Utah is pursuing research to utilize the vast energy stored in our domestic coal resources and to do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organized around the theme of validation and uncertainty quantification throug...
69 Policy analysis of produced water issues associated with in-situ thermal technologies: Topical report: October 1, 2009 to December 31, 20102011-01topical report; produced water issues; in situ thermal technologies; oil shale/sands; water rights; domestic energy sourceCommercial scale oil shale and oil sands development will require water, the amount of which will depend on the technologies adopted and the scale of development that occurs. Water in oil shale and oil sands country is already in scarce supply, and because of the arid nature of the region and limita...
70 Policy analysis of the Canadian oil sands experience2011-03-10policy analysis; Canadian oil sands experience; oil sands; federal oil sands resources; oil sands development; unconventional fuelsThe presentation goes over analyzing the relevance of the Canadian experience to U. S. oil sands development. This report focuses on federal oil sands resources, specifically potential development in the STSA's. No Current development on federal lands, despite leasing authorization under the Combine...
71 Policy analysis of water availability and use issues for domestic oil shale and oil sands development: Topical Report: October 1, 2009 to March 31, 20102010-03oil shale/sands resources; energy source; unconventional fuels; water demands; water availability; domestic oil shale/sands development; topical reportOil shale and oil sands resources located within the intermountain west represent a vast, and as of yet, commercially untapped source of energy. Development will require water, and demand for scarce water resources stands at the front of a long list of barriers to commercialization. Water requiremen...
72 Policy issues associated with using simulation to assess environmental impacts2014-11oil and natural gas technology; policy issues with using simulation; environmental impacts; simulation-based science; judicial assessments and models; environmental policymakingThis report examines the relationship between simulation-based science and judicial assessments of simulations or models supporting evaluations of environmental harms or risks, considering both how it exists currently and how it might be shaped in the future. This report considers the legal standard...
73 Pore scale analysis of oil sand/oil shale pyrolysis by X-ray Micro CT and LB simulation2010-04-28unconventional fuels; characterization of the pore networks; oil sand/shale resources; LB simulation; pyrolysis reations; Multiscale X-ray Micro/Nano TomographyThe research objectives include (1) CT characterization of the pore network structure for selected oil sand/oil shale resources, (2) LB simulation of flow through pore network structures to predict transport properties, such as permeability, and (3) CT analysis of pore network structure during pyrol...
74 Pore scale analysis of oil sand/oil shale pyrolysis by X-ray Micro CT and LB simulation2010-03-03pore scale analysis; oil sand/shale pyrolysis; X-ray Micro CT and LB simulation; Lamellar Structure of Oil ShaleThe research objectives include (1) CT characterization of the pore network structure for selected oil sand/oil shale resources, (2) LB simulation of flow through pore network structures to predict transport properties, such as permeability, and (3) CT analysis of pore network structure during pyrol...
75 Pore scale analysis of oil shale pyrolysis by X-ray CT and LB simulation2010-09-09pore scale analysis; oil shale pyrolysis; X-ray CT; LB simulation; oil shale; shale oil procuction; pore structureThere are important questions concerning the quality and volume of pore space that is created when oil shale is pyrolyzed for the purpose of producing shale oil. In this paper, we pyrolyzed 1.9 cm diameter cores at different temperatures and heating rates. Detailed 3D imaging of the core before and ...
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