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Title | Date | Subject | Description |
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Attachment 2 - Statement of program objectives: Clean and secure energy from domestic oil shale and oil sands resources | 2009-09-24 | ICSE; University of Utah; Energy; Oil shale; Oil sands; CO2 capture; Liquid fuel; In-situ thermal processing; NOx emissions; CO2 emissions; Flameless oxy-gas process heaters; Efficient CO2 capture; Large Eddy Simulation; LES | The University of Utah (the Recipient), via their Institute for Clean and Secure Energy (the Institute), shall pursue research to improve industry's ability to utilize the vast energy stored in domestic oil shale and oil sands resources in a manner that shall minimize environmental impact and effect... |
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Attachment 3--Statement of project objectives (mod 003) | 2009 | Project; Research; Tasks; Industry; Academic; Public outreach; ISCE; DOE; Department of Energy; Repository; Large Eddy Simulation; LES; ARCHES; Oxy-coal; DQMOM; Power generation; Retrofit; Gasification; Entrained-flow; Radiation modeling; In-situ fuel production; Mercury control | This material is based upon work supported by the Department of Energy under Award Number FC26-08NT0005015. C. Tasks to be performed (Phase 2) |
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Clean and secure energy from coal, oil shale, and oil sands: Quarterly progress report: January 1, 2009 to March 31, 2009 | 2009-04-30 | CASE; ICSE; Energy development; Electric power generation; Liquid transportaion fuels; Coal; Oil sands; Oil shale; Clean Coal Program; Oil Shale and Sands Program; OSSP; Policy Environment, and Economics Program; PEEP; Reducing carbon footprint; CO2 capture; Sequestration; Chemical looping; ODT; LES... | The University of Utah Clean and Secure Energy (CASE) project is pursuing interdisciplinary, cradle-to-grave research and development of energy for electric power generation and for liquid transportation fuels from the abundant domestic resources of coal, oil sands, and oil shale. Its work is divide... |
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Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: April 2012 to June 2012 | 2012-07 | ICSE; University of Utah; AMSO; American Shale Oil; Strategic Alliance Reserve; SAR; Utah Division of Oil, Gas, and Mining; DOGM; Large eddy simulation; LES; International Flame Research Foundation; IFRF; Flamelet; Pyrolysis; Kerogen; Thermogravimetric analysis; TGA; CO2 enhanced oil recovery; EOR; ... | The Clean and Secure Energy from Domestic Oil Shale and Oil Sands Resources program is part of the research agenda of the Institute for Clean and Secure Energy (ICSE) at the University of Utah. In this quarter, ICSE presented the 2012 University of Utah Unconventional Fuels Conference and met with r... |
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Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: October 2011 to December 2011 | 2012-01 | ICSE; University of Utah; AMSO; American Shale Oil; Strategic Alliance Reserve; SAR; Utah Division of Oil, Gas, and Mining; DOGM; Large eddy simulation; LES; International Flame Research Foundation; IFRF; Flamelet; Pyrolysis; Kerogen; Thermogravimetric analysis; TGA; CO2 enhanced oil recovery; EOR | The Clean and Secure Energy from Domestic Oil Shale and Oil Sands Resources program is part of the research agenda of the Institute for Clean and Secure Energy (ICSE) at the University of Utah. The Clean and Secure Energy program hosted an External Advisory Board on November 1-2, 2011 and the kickof... |
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Oxy-gas process heaters for efficient CO2 capture | 2010-04-28 | oil shale and oil sands technology; greenhouse gas emissions; GHG; large eddy simulation; LES; IFRF OXYFLAM | Implementation of oil shale/sands technologies in U.S. will require mitigation of greenhouse gas (GHG) emissions. |
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Parallelization of the P-1 radiation model | 2006 | parallelization; P-1 radiation model; radiative transport equation; LES; large-eddy simulations; RTE | The P-1 radiation model is spatially decomposed to solve the radiative transport equation on parallel computers. Mathematical libraries developed by third parties are employed to solve the linear systems that result during the solution procedure. Multigrid preconditioning accelerated the convergence... |
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Phase 2: Clean and secure energy from coal: Quarterly progress report: October 1, 2010 to December 31, 2010 | 2011-01-31 | domestic coal resources; CO2 capture; stationary power generation; LES; DQMOM approach; oxy-coal flames; coal | The 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... |