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TitleDescriptionSubjectDate
76 Phase II: Clean and Secure Energy from Coal: Quarterly Progress Report: January 1, 2011 to March 30, 2011The 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...domestic coal resources; CO2 capture; coal; Oxycoal simulation team; coal sequestration2011-05-01
77 Phase 2: Clean and secure energy from coal: Quarterly progress report: October 1, 2010 to December 31, 2010The 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...domestic coal resources; CO2 capture; stationary power generation; LES; DQMOM approach; oxy-coal flames; coal2011-01-31
78 Phase 2: Clean and secure energy from coal: Quarterly progress report: July 1, 2010 to September 30, 2010The 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...domestic coal resources; CO2 capture; stationary power generation; Oxycoal; OFC; coal2010-10-01
79 Phase 2: Clean and secure energy from coal: Quarterly progress report: April 1, 2010 to June 30, 2010The 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...domestic coal resources; CO2 capture; stationary power generation; DQMOM approach2010-08-01
80 Phase 2: Clean and secure energy from coal: Quarterly progress report: January 1, 2010 to March 31, 2010The 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...domestic coal resources; ICSE; capture CO2; stationary power generation; velocity model; bitumous coal; coal2009-01-30
81 Petrographic criteria for recognition of lacustrine and fluvial sandstone, P.R. Spring oil-impregnated sandstone area, southeast Uinta Basin, UtahReserve estimates indicate about 3.7 billion barrels of oil in place in the P. R. Spring area, most of which is in lacustrine sandstone of the Garden Gulch and Parachute Creek members of the Green River Formation (Eocene). Fluvial sandstone bodies in the Wasatch Formation (Paleocene-Eocene) produce ...oil; lacustrine sandstone; fluvial sandstone; Petrographic criteria1971-06
82 Phase 2: Clean and secure energy from coal: Quarterly progress report: October 1, 2009 to December 31, 2009The 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...domestic coal resources; CO2 capture; stationary power generation; oxy-coal flames; coal gasification process2010-01-30
83 Petroliferous lithosomes in the Moenkopi Formation, southern UtahRecent stratigraphic studies of the Triassic Moenkopi Formation suggest the possibility of important petroleum potential within the unit in southeastern and central Utah. Potential reservoir rocks include shoreline sandstone in the Black Dragon Member, carbonates in the Sinbad Limestone Member, and ...petroleum; stratigraphic study; southeastern and central Utah petroleum; Moenkopi Formation1977
84 Petroleum geology of the greater Red Wash Area, Uintah County, UtahThe Greater Red Wash area is the largest oil and gas field in the Uinta Basin. The Douglas Creek and Garden Gulch Members of the Green River Formation form a lacustrine delta in the area and yield hydrocarbons from a complex network of discrete sandstones. Each individual sandstone body forms its ow...oil and gas field; sandstone; petroleum geology1965-07
85 Petrologic aspects of some bitumen-bearing sandstones from Sunnyside, UtahSandstones from the bitumen deposit near Sunnyside, Utah, exhibit many diagenetic modifications that should be considered in any attempt to recover the bitumen. The sandstones generally are subfeldspathic to feldspathic arenites, with varying amounts of carbonate lithic fragments. Detrital feldspars...bitumen sandstones; Ecocene rocks1986
86 Assessment of unconventional fuels development costsPresentation given at the University of Utah Unconventional Fuels Conference, Salt Lake City, Utah, May 7, 2013.ICSE; Unconventional fuels; Development cost; Oil Shale; In situ; Ex situ; Oil Sands; Utah; Uinta Basin2013-05-07
87 Air quality in the Uintah BasinPresentation given at the University of Utah Unconventional Fuels Conference, Salt Lake City, Utah, May 7, 2013.ICSE; Unconventional fuels; Air quality; Air pollution; Uintah Basin; Ozone; Pollutant concentrations; Inversions; VOC; Utah2013-05-07
88 Constructing a basin-scale geologic modelPresentation given at the University of Utah Unconventional Fuels Conference, Salt Lake City, Utah, May 7, 2013.Unconventional fuels; Green River Formation; Uinta Basin; Geologic model; Workflow; Reservoir; Basin-scale model2013-05-07
89 Economic, demographic and fiscal impacts of closing Hill Air Force Base: a statewide and regional analysisThe upcoming round of Defense Base Closure and Realignment (BRAC) is threatening the existence of Hill Air Force Base (Hill AFB). The Department of Defense is aggressively approaching this round of BRAC in its attempt to eliminate 20% to 25% of current capacity. The purpose of this study is to asses...2004-04
90 Fischer Assay Data, Utah Geological Survey Well Number U293This dataset contains the results of Fischer assay analyses obtained and published by the Utah Geological Survey for well U293.2008
91 Digitized log file, API Number 4304734195This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining2009
92 Digitized log file, API Number 4301331372This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining2009
93 Fischer Assay Data, Utah Geological Survey Well Number U305This dataset contains the results of Fischer assay analyses obtained and published by the Utah Geological Survey for well U305.2008
94 Fischer Assay Data, Utah Geological Survey Well Number U178This dataset contains the results of Fischer assay analyses obtained and published by the Utah Geological Survey for well U178.2008
95 APECS software and architecture overview1) What is APECS? 2) Overview of APECS Features; 3) Overview of APECS ArchitectureAPECS; Model; CADE-OPEN; CO; CFD; PME; FLUENT; EKM; Reduced Order Models; ROMs; Geometric parameterization; Virtual reality software2009-10
96 Fischer Assay Data, Utah Geological Survey Well Number U297This dataset contains the results of Fischer assay analyses obtained and published by the Utah Geological Survey for well U297.2008
97 Digitized log file, API Number 4304732457This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining2009
98 Mechanism and kinetics of lead capture by kaolinite in a downflow combustorAn 18 kW, 6 m long, gas-fired downflow combustor was used to examine the postflame reaction between lead vapor and kaolinite. Since the focus of this work was to evaluate the reaction with lead vapor, samples were extracted at a temperature above the metal dew point. The sample was rapidly diluted w...mechanism and kinetics; lead capture; kaolinite; downflow combustor; postflame reaction; lead vapor2000
99 Digitized log file, API Number 4304730724This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining2009
100 Oxy-coal combustion: effects of PO2 on coal jet stability in 02/C02 environnmentsThe purpose of this research is to understand and predict the effects of near burner zone environment on ignition characteristics of a turbulent axial pulverized coal jet. In oxy-coal combustion this environment consists of O2 and CO2 (instead of N2). Ultimately the experiment will provide data for...2009
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