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| Title | Date | Subject | Description | ||
|---|---|---|---|---|---|
| 1 |
 | High performance computing (hpc) in unconventional fuel production | 2013-05-07 | ICSE; Unconventional fuels; High performance computing; unconventional fuel production | Presentation given at the University of Utah Unconventional Fuels Conference, Salt Lake City, Utah, May 7, 2013. |
| 2 |
 | High performance computing simulations of in-situ thermal treatment of oil shale | 2013-10-14 | high performance computing; in-situ; in-situ thermal treatment; oil shale; thermal treatment of oil shale; HPC. | |
| 3 |
 | University Research Cyberinfrastructure Committee Interim Report | 2006-08-31 | Cyberinfrastructure; Computing; Information Technology; Strategic Plan | "Campus cyberinfrastructure is not just about technology." Beyond access to technology, Cyberinfrastructure (CI) defines a new information technology paradigm that includes people and their expertise, enabling technologies, software and tools, and provides a foundation for an integrated approach t... |
| 4 |
 | Atomistic modeling of oil shale kerogen and asphaltenes | 2010-04-28 | Kerogen 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 �... | |
| 5 |
 | 3-D structure of a local minimum of the Siskin model of oil shale kerogen using the RHF/STO-3G method | 2008 | Siskin model; oil shale kerogen; RHF/STO-3G method; kerogen; 3-D structure of kerogen; oil shale | Kerogen 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 huge molecular weight (upwards several thousand Daltons). When heated in the Earth's crust, (oil window ca. 6 ∞-120∞C; g... |
| 6 |
 | Atomistic modelling of oil shale kerogens and asphaltenes | 2012-10-21 | Atomistic modeling; Oil shale; Kerogens; Asphaltenes; 3D models; Pyrolysis; Computational modeling; Molecular mechanics; HyperCHem/ReaxFF; Ab initio calculations; Gaussian/GAMESS; DIFFUSE; CRYSOL | |
| 7 |
 | V/UQ of Generation 1 Simulator with AMSO Experimental Data | 2013-08 | Progress Report; Oil & Natural Gas Technology; V/UQ; AMSO DE-FE0001243 | As part of the capstone project, we have been working to create a high performance computing (HPC) computational fluid dynamics (CFD) simulation tool that would allow us to simulate in-situ thermal heating of oil shale. Using our HPC CFD tool, in the first phase of the project we have performed vali... |
| 8 |
 | Facts in Brief | |||
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 | Facts in Brief | |||
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 | Facts in Brief | |||
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 | Facts in Brief | |||
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 | Facts in Brief | |||
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 | Facts in Brief | |||
| 14 |
 | Required Documentation 6.2: Governance and Administration, Organizational Chart | The University of Utah 2006 Self-Study Required Documentation: Standards 6-8. 6.2: Governance and Administration, Organizational Chart | ||
| 15 |
 | STAR-CCM+ simulations of in-situ thermal treatment of oil shale | 2013-03 | in-situ thermal treatment; oil shale; shale oil/gas; oil shale formations | Presentation given at the STAR Global Conference on March 13, 2013. |
| 16 |
 | Clean and Secure Energy from Domestic Oil Shale and Oil Sands Resources Quarterly Progress Report | Quarterly report, CASE quarterly report | Clean and Secure Energy from Domestic Oil Shale and Oil Sands Resources Quarterly Progress Report for Project Period: April 2015 to June 2015 | |
| 17 |
 | Clean and Secure Energy From Domestic Oil Shale and Oil Sands Resources Quarterly Progress Report, April 2016 to June 2015- Final Report | Clean and Secure Energy From Domestic Oil Shale and Oil Sands Resources Quarterly Progress Report, April 2016 to June 2015-Final Report | ||
| 18 |
 | Research Agencies | |||
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 | Research Agencies | |||
| 20 |
 | Facts in Brief | |||
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 | Research Agencies | |||
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 | Research Agencies | |||
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 | Research Agencies | |||
| 25 |
 | Hardening of arehes for commercial simulation of industrial flares | With funding from the Department of Energy (DOE), to further the use of government funded high-performance computing (HPC) software for engineering analysis of industrial problems, Reaction Engineering International (REI) is working with the University of Utah to leverage the Uintah Computational Fr... |