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Title | Date | Subject | Description |
1 |
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Evaluating opportunities for reducing life-cycle, well-to pump GHG emissions from conventional and unconventional fuels | 2010-04-28 | unconventional fuels; GHG emissions; conventional fuels; reducing life-cycle; oil shale; oil sands; coal | Resource extraction and upgrading. |
2 |
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Federal control of greenhouse gas emissions | 2010-04-28 | greenhouse gas emissions; federal control efforts; domestic legislation | Federal Control Efforts: 1) International 2) New Domestic Legislation 3) Using Existing Domestic Legislation |
3 |
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From oil sand to fuel pump: The challenges of upgrading oil sand bitumen | 2006-09-21 | oil sand; upgrading oil sand bitumen; oil sand bitumen; oil sands development; crude; bitumen | Oil sands development--develop a resource that has market value. |
4 |
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High efficiency electrical generation | 2008-05-23 | efficiency of electrical generation; electrical generation; fossil fuel energy resources; mitigatint GHG emissions; CO2 capture and sequestration | Outline: 1-Electricity outlook and fossil fuel energy resources. 2-Technology options for mitigating GHG emissions. 3-CO2 cpature and sequestration. 4-Costs. 5-Concluding remarks. |
5 |
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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. |
6 |
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High-pressure, entrained flow gasification hierarchy | 2009-11-04 | gasification hierarchy; entrained flow; high-pressure gasification | Hierarchical chart for the high-pressure, entrained flow gasification research area showing connectivity between subtasks. This chart helps illustrate gasification integration and focus and also serves as a management tool for the various subtasks. Subtasks in brown and orange are currently funded t... |
7 |
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In situ production of Utah oil sands | 2008-03-12 | in situ; Utah oil sands; oil sands production; tar sand deposits; Whiterocks eolian sandstone | |
8 |
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In situ production of Utah oil sands | 2009-02-27 | in situ; oil sands production; Utah oil sands; in situ process; thermal simulator; thermal compositional model; steam assisted gravity drainage; SAGD; heterogenetics; in-situ combustion; hydraulic fracture; hybrid process | Analysis of issues relevant to in situ production of Utah oil sands, presented at the 2009 Western U.S. Oil Sands Conference by Milind Deo, Professor, Department of Chemical Engineering, University of Utah. |
9 |
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Industrial petroleum research at the University of Utah | 2008-03-12 | industrial petroleum; University of Utah; oil and gas characterization; oil and gas thermodynamics; Unconventional Consortium | Expertise: Oil and Gas Characterization, Hydrocarbon Thermodynamics -High-temperature, high high-pressure oil oil-gas mixtures -Supercritical extraction -Solid (asphaltenes, waxes) precipitation precipitation -Reservoir Characterization and Simulation -Fractured reservoir simulation -Reaction chemis... |
10 |
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KTIA corporate introduction | 2009-02-27 | KTIA; KTI; mines | Overview of KTIA's continuing oil sands development activities in Utah, presented at the 2009 Western U.S. Oil Sands Conference by Soung-Joon Kim, Chief Operating Officer, Korea Technology Industry America, Inc. |
11 |
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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. |
12 |
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Particle image velocimetry of pulverized oxy-coal flames | 2010-11-10 | oxy-fuel combustion of pulverized coal; oxy-fuel; pulverized coal; power production; carbon capture and sequestration; emission reductions | Oxy-fuel combustion of pulverized coal is a promising technology for cost-effective power production with carbon capture and sequestration that has impacts on emission reductions. To fully understand the behavior of turbulent oxy-coal flames, and to validate oxy-coal simulation models, accurate expe... |
13 |
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Pore scale analysis of oil sand/oil shale pyrolysis by X-ray Micro CT and LB simulation | 2010-03-03 | pore scale analysis; oil sand/shale pyrolysis; X-ray Micro CT and LB simulation; Lamellar Structure of Oil Shale | The research objectives include (1) CT characterization of the pore network structure for selected oil sand/oil shale resources, (2) LB simulation of flow through pore network structures to predict transport properties, such as permeability, and (3) CT analysis of pore network structure during pyrol... |