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Title | Date | Subject | Description |
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AAU, associations, and members file amicus brief to support lawsuits against administration's H1-B visa restrictions | 2020-10-30 | | The brief supports the complaint filed by Purdue University, the University of Michigan, and Indiana University and 14 other plaintiffs against the Labor Department's rule that would make it more difficult for high-skilled foreign workers with college degrees to acquire H-1B visas. |
177 |
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AJ Eardley 1935 Diary | | Geology; Yukon | Geology Prof. Armand Eardley (1901-1972) accompanied Frederica De Laguna on the archaeological expedition to Alaska in the summer of 1935. At that time, he was a professor at University of Michigan, before finishing his career at University of Utah (my institution), where he was also a dean. This wa... |
178 |
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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 |
179 |
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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... |
180 |
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APPENDIX B - Depositional heterogeneity and fluid flow modeling of the oil shale interval of the upper Green River Formation, eastern Uinta Basin, Utah - Final Project Report - Reporting period: June 21, 2006 to October 21, 2009 | 2009-10 | Green River Formation; Uinta Basin; Utah; Uintah County; Oil shale; Deposition | In this project, a detailed geological analysis was performed followed by a reservoir modeling exercise. For the geological analysis, ~300 m of cores were correlated to gamma and density logs in well P4 in the lower to middle Eocene (49.5-48.0 million years ago (Ma)), upper Green River Formation of ... |
181 |
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APPENDIX C - In-situ production of Utah oil sands - Final Project Report - Reporting period: June 21, 2006 to October 21, 2009 | 2009-10 | Utah; Uinta Basin; Oil sand reservoirs; Whiterocks; Sunnyside; Oil; Oil extraction; In-situ; Heavy oil production; Bitumen | Two oil sand reservoirs located in Utah's Uinta Basin were considered for analysis: Whiterocks, a small, steeply dipping, contained reservoir containing about 100 million barrels, and Sunnyside, a giant reservoir containing over four billion barrels of oil in place. Cyclic steam stimulation, steam a... |
182 |
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APPENDIX D - Meeting data needs to perform a water impact assessment for oil shale development in the Uinta and Piceance Basins, A subpart of project - Quantifying water availability impacts and protecting water quality while developing Utah oil shale and sands - Final Project Report - Reporting period: June 21, 2006 to October 21, 2009 | 2009-06-23 | Uinta Basin; Piceance Basins; Water impact assessments; Oil shale development | The goal of this project was to mitigate water resources impacts from oil shale development in the U.S. by compiling geospatial data and water use estimates to assess water availability impacts. |
183 |
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APPENDIX E - Integrated treatment of produced water by chemical and biological unit operations, A subpart of project - Quantifying water availability impacts and protecting water quality while developing Utah oil shale and sands - Final Project Report - Reporting period: June 21st, 2006 to October 21st, 2009 | 2010-10-07 | Water treatment; Water quality - Utah; Oil shale and sands | Water generated along with oil, gas, and coal bed methane production is commonly known as produced water, formation water, or oilfield brine [1]. Produced water represents the largest waste stream volume in production operations on most offshore platforms [2]. According to the American Petroleum Ins... |
184 |
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APPENDIX F - Bitumen extraction and treatment and reuse of process water - A subpart of project quantifying water availability impacts and protecting water quality while developing Utah oil shale and sands - Final project report - Reporting period: June 21, 2006 to October 21, 2009 | 2009-04-13 | | Produced water from gas and crude oil production is voluminous, requiring extensive treatment before it can be safely discharged or reused. This project has used a newly developed pressure-assisted ozonation technology to remove oil from water and prevent oil sheen at the water surface. The new proc... |
185 |
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APPENDIX G - Detailed study of shale pyrolysis for oil production - A subpart of project oil shale pyrolysis and in situ modeling - Final Project Report - Reporting period: June 21, 2006 to October 21, 2009 | 2009-04-21 | Oil production; Shale assessment | The oil shale industry is going through a revolution of sorts. After the oil crisis in the 1970s, a great deal of effort was spent on research and development and on pilot scale technologies. Extensive research was conducted with on-surface and in-situ production methods. Even though some large pilo... |
186 |
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ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention 2005 Update | 2006-03-16 | ASCRS; ESCRS; Survey; Foldable IOLs | This presentation provides updates on the ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention |
187 |
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ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention 2005 Update | 2006-03-16 | ASCRS; ESCRS; Survey; Foldable IOLs | Presentation in 2005 discussing foldable IOL's in ophthalmology. |
188 |
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ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention 2005 Update | 2006-03-16 | ASCRS; ESCRS; Survey; Foldable IOLs | This presentation provides updates on ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention |
189 |
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ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention 2005 Update | 2006-03-16 | ASCRS; ESCRS; Survey; Foldable IOLs | This presentation provides updates on ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention |
190 |
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ASCRS/ESCRS Survey on Foldable IOLs Requiring Explantation or Secondary Intervention 2005 Update | 2006-03-16 | ASCRS; ESCRS; Survey; Foldable IOLs | A 2005 presentation with the Intermountain Ocular Research Center of the University of Utah on the complications of IOL removal. |
191 |
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Abridged life tables for males and females: Utah and its planning districts, 1980 | 1985-10 | | |
192 |
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Accelerating deployment of retrofitable CO2 capture technologies through predictivity: (Simulation, verification, validation / uncertainty quantification) - 2010 Annual report (for year 1 of 3) to DOE NNSA from The University of Utah | 2011 | CO2; CO2 capture technologies; predictivity; fossil-fuel utilization | There is an ever increasing national awareness that an effective, sustainable energy future must include fossil-fuel utilization that deploys cost-efficient technologies (both new and retrofit) that significantly improve energy efficiencies and reduce CO2 emissions over existing electric power and t... |
193 |
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Administration & Faculty | | | A description of the administration and faculty members at the University of Utah. |
194 |
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Advanced 3D multiphase flow simulation in porous media reconstructed from x-ray micro tomography using the He-Chen-Zhang Lattice Boltzmann model | 2010-09 | advanced 3D multiphase flow simulation; porous media; x-ray micro tomography; He-Chen-Zhang Lattice Boltzmann model; multiphase flow; processing mineral resources; LBM | Multiphase flow is a subject of significant interest in the processing of mineral resources and to the processing industries in general. Multiphase flow is of significance in the transport of reactants during the percolation of leaching solution in heaps, in the melting of metals, in phase transform... |
195 |
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Advanced emissions monitoring from elevated gas flares for early warning system and optimization of plant operations | 2019 | | Real-time monitoring of emissions from elevated gas flares is very difficult and expensive due to the relative location of the source and the cost to collect samples for analysis. Elevated Analytics has developed and applied a UAV based sensor system to accomplish this task. Besides providing a snap... |
196 |
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Age and sex population projection for Utah counties: 1975-2010 (High medium Projection) | 2010 | | |
197 |
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Age and sex population projections for Utah conunties: 1975-2010. (Low Medium Projection) | 2010 | | |
198 |
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Age and sex population projections for Utah conunties: 1975-2010. (Low Projection) | 2010 | | |
199 |
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Age and sex population projections for Utah counties: 1975-2010 | 1978-06 | | |
200 |
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Air quality in the Uintah Basin | 2013-05-07 | ICSE; Unconventional fuels; Air quality; Air pollution; Uintah Basin; Ozone; Pollutant concentrations; Inversions; VOC; Utah | Presentation given at the University of Utah Unconventional Fuels Conference, Salt Lake City, Utah, May 7, 2013. |