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Title | Date | Subject | Description |
251 |
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Digitized log file, Utah Geological Survey Well Number U060 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
252 |
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Digitized log file, Utah Geological Survey Well Number U065 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
253 |
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Digitized log file, Utah Geological Survey Well Number U081 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
254 |
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Digitized log file, Utah Geological Survey Well Number U082 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
255 |
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Digitized log file, Utah Geological Survey Well Number U085 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
256 |
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Digitized log file, Utah Geological Survey Well Number U086 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
257 |
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Digitized log file, Utah Geological Survey Well Number U092 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
258 |
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Digitized log file, Utah Geological Survey Well Number U102 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
259 |
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Digitized log file, Utah Geological Survey Well Number U108 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
260 |
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Digitized log file, Utah Geological Survey Well Number U111 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
261 |
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Digitized log file, Utah Geological Survey Well Number U138 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
262 |
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Digitized log file, Utah Geological Survey Well Number U149 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining. |
263 |
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Digitized log file, Utah Geological Survey Well Number U153 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining. |
264 |
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Feasibility study on a two stage benefits CO2 sequestration technology for fossil fuel power generation | 2009 | CO2 sequestration technology; fossil fuel power generation; emission and sequestration of green house gas; reducing pollution production | The issue of emission and sequestration of green house gas, especially CO2, becomes very hot and attracts international society to pay attention. The power generation plants firing fossil fuels, which is the biggest polluter in the world, emit huge amount CO2 into atmosphere every day and causes a s... |
265 |
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Heightened oil sands extraction by pressure cycles | 2009 | oil sands extraction; pressure cycles; hot water extraction of bitumen | Hot water extraction of bitumen from oil sands has been commercially applied for decades. The extraction process is greatly aided by the addition of caustics and other reagents, which can adversely impact handling and disposal at process end. Recent attention has been on increasing process efficienc... |
266 |
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Investigation of coal char-slag transition during oxidation: Effect of temperature and residual carbon | 2009 | coal char; molten slag; bitumous coal; energy and fuels | The transition of coal char to molten slag at high conversion was studied for a bituminous coal using a laminar entrained-flow reactor under oxidizing conditions. Post-oxidized char particles were analyzed by various techniques including loss-on-ignition, gas adsorption analysis and scanning electro... |
267 |
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LEED 2009 for healthcare: new construction and major renovations (UUSAC) | 2009 | Healthcare; University of Utah staff | Project checklist categories including: sustainable sites, water efficiency, energy and atmosphere, materials and resources, indoor environmental quality, innovation in design, and regional priority credits. |
268 |
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Relationships between composition and pulmonary toxicity of prototype particles from coal combustion and pyrolysis | 2009 | toxicity; prototype particles; coal combustion; pyrolysis; health effects; coal combustion fly-ash particles | The hypothesis that health effects associated with coal combustion fly-ash particles are exacerbated by the simultaneous presence of iron and soot was tested through two sets of experiments. The first set created prototype particles from complete and partial combustion, or oxygen free pyrolysis of a... |
269 |
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Staff Council committee member award template 2009-2013 (UUSAC) | 2009 | Member service; University of Utah employees | Template for service awards to members of the University of Utah Staff Council. |
270 |
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Statement of project objectives: Phase 2--clean and secure energy from coal | 2009 | domestic coal resources; clean coal utilization; oxy-coal combustion; coal gasification; chemical looping combustion. | The University of Utah (the Recipient), via their Institute for Clean and Secure Energy (ICSE), shall pursue research to utilize the vast energy stored in our domestic coal resources and do so in a manner that will capture CO2 from combustion from stationary power generation. The research is organiz... |
271 |
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Taking another look at Utah's tar sand resources | 2009 | tar sand; tar sand resources; unconventional energy resource; alternate energy resource; oil impregnated sandstone; oil sand; bitumous sandstone; energy resource | Recent increases in the price of crude oil have sparked renewed interest in unconventional energy resources, including Utah s tar sands. Tar sands (also called oil-impregnated sandstones, oil sands, and bituminous sandstones) are, as the names imply, sandstones that are saturated or filled with blac... |
272 |
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Treatment of produced water by pressure-assisted ozonation and sand filtration | 2009 | produced water; pressure assisted ozonization; sand filtration; energy production; heavy petroleum sources; oil sands | Ever increasing energy demand worldwide necessitates energy production from heavy petroleum sources such as oil sands and oil shale. Extraction of bitumen from oil sands and in situ extraction of kerogen from oil shale result in large quantities of water containing hydrocarbon contaminants. The cont... |
273 |
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Unconventional fuel development in the western United States: Integrated assessment of water resources, carbon, and energy impacts and management strategies | 2009 | unconventional fuels; water resources; carbon; energy impacts; fossil fuels; oil shale; CO2 imprint; CO2 capture and sequestration. | The Western United States contains rich fossil resources including abundant supplies of oil shale that could be used to develop substantial quantities of transportation fuel, enhancing energy security in the United States. Development of these resources poses significant questions regarding water re... |
274 |
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APECS software and architecture overview | 2009-10 | APECS; Model; CADE-OPEN; CO; CFD; PME; FLUENT; EKM; Reduced Order Models; ROMs; Geometric parameterization; Virtual reality software | 1) What is APECS? 2) Overview of APECS Features; 3) Overview of APECS Architecture |
275 |
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APPENDIX A - Analysis of environmental, legal, socioeconomic and policy issues critical to the development of commercial oil shale leasing on the public lands in Colorado, Utah and Wyoming under the mandates of the Energy Policy Act of 2005 - Final Project Report - Reporting period: June 21, 2006 to October 21, 2009 | 2009-10 | Oil shale; Colorado; Utah; Wyoming; Energy Policy Act of 2005; Green River Formation; Environmental; Legal; Socioeconomic; Policy Issues; Oil shale deposits; BLM; Bureau of Land Management | The United States is home to the largest oil shale deposits in the world. This resource is located in the Green River Formation, spreading across the states of Colorado, Utah and Wyoming. Despite the vast potential of this resource, successful commercial development has yet to occur. To date, concer... |