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Title | Date | Subject | Description |
51 |
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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... |
52 |
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Ignition in 40kw co-axial turbulent diffusion oxy-coal jet flames | 2010-08-08 | 40kw co-axial turbulent diffusion; diffusion; oxy-coal; oxy-coal jet flames; partial pressure of O2; coal transport | Outline: 1) Introduction 2) Objectives 3) Experimental setup 4) Methodology to quantify flame stability 5) Results and discussion 6) Conclusions 7) Acknowledgements. The objective of this presentation is to better understand, the effects of partial pressure of O2 in a) the coal transport jet, and b)... |
53 |
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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 | |
54 |
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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. |
55 |
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In-situ production of Utah oil sands bitumen | 2007-11 | in situ production; Utah oil sands; Utah reservoirs; in situ bitumen production; SAGD; case studies | In-situ production of oil-sand bitumen offers an excellent alternative to the ex situ processes that are based on strip-mining and surface extraction. In addition to leaving the landscape relatively undisturbed, in situ processes allow for partial upgrading of oil sands, leaving heavier, less profit... |
56 |
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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... |
57 |
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Integrated sedimentary and geochemical investigation of core form the upper Green River Formation lacustrine deposits, Uinta Basin, Utah | 2010-04-12 | upper Green River formation; lacustrine deposits; geochemical investigation; lithofacies; facies | Description of the upper Green River Formation has been largely based on outcrop exposures, but this core-based investigation provides newly detailed subsurface data that can be used to examine basin-wide lithologic and geochemical variability of he Parachute Creek Member of the upper Green River Fo... |
58 |
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Integrated treatment of produced water by electrolytic and biological methods | 2008-03-12 | integrated treatment; produced water by electrolytic and biological methods; produced water | What we got from full scale analysis: 1-Composition of synthetic produced water. 2-Idea to develop an integrated scheme. 3-In other words, we just cannot just use any technique (oxidation or biological) to treat produced water. |
59 |
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Interaction between reactivity and flow in the in-situ production of oil from oil shale | 2009-10-23 | in situ; oil shale | In-situ Oil Shale Processing: 1) Underground resources are heated by some means to convert insoluable/ impermeable kerogen into oil and gas products. 2) The interlinked processes of heat transfer, kerogen conversion and flow are complex. 3) This paper is an attempt to understand these linkages. |
60 |
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Introduction to Enefit | 2011-05-17 | Enefit; oil shale; mining; power generation; oil shale production | Contents 1.Enefit Overview 2.Enefit280 Process 3.Enefit Outotec Technology JV 4.Enefit Activities in Estonia 5.Enefit American Oil |
61 |
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Kinetic study of oil shale conversion | 2008-03-12 | oil shale pyrolysis; analysis of oil shale; associated reactors; oil shale; pyrolysis retorting; shale oil; TGA analysis | Analysis of oil shale pyrolysis and associated reactors designed and built to study kinetics, diffusion, mass transfer and stress effects. |
62 |
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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. |
63 |
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Local issues for Utah oil sands | 2008-02-22 | Utah oil sands; tar sand history; Western U.S. oil sands | Tar sand history in Uintah County. |
64 |
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Marketing Utah's non-conventional hydrocarbon resources | 2008-02-22 | oil sands development; oil sands; non-conventional hydrocarbon resources; hydrocarbon resources; marketing and production | Oil sands development--develop a resource that has market value. |
65 |
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Millennium synfuels project: Retort process characterization | 2008-03-12 | synefuels; retort process; retort process characterization; energy security; retorting technology; oil shale processing; hybrid energy system; HES | -Energy security issue has led to interest in coal-to-liquids technologies, -One approach use retorting technology commonly associated with oil shale processing, -Hybrid Energy System (HES) technology developed by: Millennium Synfuels, LLC - joint venture of Ambre Energy Pty, Ltd (Australia) and Oil... |
66 |
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Modeling in situ extraction of heavy oil deposits | 2008-03-12 | in situ extraction; heavy oil deposits; in-situ conversion; Shell | A presentation given at the D.O.E. Project Review Meeting, on March 12, 2008 in Salt Lake City, Utah. |
67 |
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Oil sands and the draft PEIS | 2008-02-22 | oil sands; draft PEIS; oil sands development; oil shale | Analysis of the impacts of the draft PEIS on oil sands development in Utah. |
68 |
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Oil sands development in Canada: Lessons for Utah | 2009-02-27 | Canadian oil sands; oil sand development in Utah; oil sands | Analysis of the Canadian oil sands experience and its relevance to oil sands development in Utah, presented at the 2009 Western U.S. Oil Sands Conference by Simon Dyer, Oil Sands Program Director for the Pembina Institute. |
69 |
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Oil sands leasing opportunities on federal land | 2009-02-27 | oil sands; leasing opportunities; federal oil sands leases and lands; BLM management plans | Overview of the process for obtaining federal oil sands leases and lands available for leasing under current BLM management plans, presented at the 2009 Western U.S. Oil Sands Conference by James Kohler, former Branch Chief of Solid Minerals, U.S. Bureau of Land Management. |
70 |
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Oil sands production technologies | 2008-02-22 | oil sands; oil sands production; production technologies; Utah oil sands | An overview of oil sands production technologies for Utah reserves. |
71 |
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Oil shale pyrolysis kinetics and product characterization | 2012-05-15 | | |
72 |
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Oil shale social and economic factors | 2008-03-12 | oil shale; social factors; economic fractors; oil shale development | Analysis of social and economic factors relevant to oil shale development, including industrial infrastructure, population numbers, personal income figures, and labor force statistics. |
73 |
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Oil shale: An introduction | 2008-11-13 | oil shale; oil shale resources; mahogany shale; oil shale production | Presentation given in the Utah Oil Shale Resources and Technology Update, on November 13, 2008, in Salt Lake City, Utah. |
74 |
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Opportunities for oxy-firing to reduce life-cycle greenhouse gas emissions from transportation fuels | 2011-03-10 | GHG; oxy-firing; reduce greenhouse gas emissions; transportation fuel emissions; CO2 analysis; oil sands | The outline covers in this presentation covers: GHGs and the transportation fuel cycle. Motivation for reducing GHG emissions. Use of oxy-firing for CO2 capture in refining of conventional fuel. Use of oxy-firing for extraction and upgrading of oil sands. GHG emissions from other scenarios Would oxy... |
75 |
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OSEC's White River project | 2008-11-13 | OSEC; White River project; Utah oil shale resources and technology | A presentation given at the Utah Oil Shale Resources and Technology Update on November 13, 2008, Salt Lake City, Utah. |