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351 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: July 2012 to September 20122012-10ICSE; Kerogen liquefaction; Oil shale thermal treatment; Trondheim, Norway; Statoil; Uinta Basin; Greenhouse gases; Well drilling; White River oil shale samples; Demineralized kerogen pyrolysis; Oil shale; Char; American Shale Oil; AMSO; Genie Energy; TOTALThe 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 its outreach efforts this quarter, ICSE finalized materials for a short course on kerogen liquefaction ...
352 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: July 2013 to September 20132013Quarterly progress report; July 2013 to September 2013; DE-FE0001243; CO2 management; oxyfiring; CO2 capture; Unconventional fuels; Uinta Basin; Utah; Oil shale; Oil sands; Greenhouse gas control; NER; NEER; GHG; In situ; Ex situDisclaimer: "This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor any agency thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for th...
353 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: October 2009 to December 20092010-02-03ICSE; Clean and Secure Energy program; CASE; Itasca Group; Red Leaf Resources; Enshale's; Vernal, Utah; oxy-fuel; CO2 capture; Oil shale; Oil sands; Crude oil; CO2 emissions; International Flame Research Foundation; Pyrolysis; Lattice Boltzmann; Kerogen; Oil recovery simulation; TGA; Dry shale; Pyro...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 program was officially launched on October 1, 2009. The project management plan was submitted for revi...
354 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: October 2010 to December 20102011-01ICSE; Oil shale; Oil sands; University of Utah; Marriott Library; Macroscale CO2 analysis; CO2 capture; Flameless oxy-gas process heaters; Liquid fuel production; In-situ thermal processingThe 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, the Clean and Secure Energy program circulated External Advisory Board recommendations an...
355 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: October 2011 to December 20112012-01ICSE; 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; EORThe 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...
356 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: October 2012 to December 20122013-01ICSE; Oil shale; oil sands; CO2 management; Uinta Basin; Liquid fuel production; In-situ thermal processing; White River oil shale; Green River Formation; American Shale Oil; AMSO; X-ray flourescence; Pyrolysis; Demineralized kerogenThe Clean and Secure Energy from Domestic Oil Shale and Oil Sands Resources program, part of the research agenda of the Institute for Clean and Secure Energy (ICSE) at the University of Utah, is focused on engineering, scientific, and legal research surrounding the development of these resources in ...
357 Clean and secure energy from domestic oil shale and oil sands resources: Quarterly progress report: October 2013 to December 20132014ICSE; Quarterly report; Clean and secure energy; Oil shale; Oil sands; Uinta Basin; CO2 management; AMSO; Greenhouse gas control; Shale formation; In situ; Ex situ; TEA-CEXECUTIVE SUMMARY The Clean and Secure Energy from Domestic Oil Shale and Oil Sands Resources program, part of the research agenda of the Institute for Clean and Secure Energy (ICSE) at the University of Utah, is focused on engineering, scientific, and legal research surrounding the development of t...
358 Clean and secure energy from Utah's oil shale and oil sands resources: Environmental, legal and policy framework2010-04-28ICSE; Land use; Water availability; Produced water; Utah; Colorado; Colorado RiverThis poster addresses major challenges to land use, water availability, and produced water.
359 Clean coal program research activities: Final report: Reporting period 07/01/2006-05/31/20092010-05Environment; Emissions; NOx; SOx; Mercury emission; CO2 emissions; Utah Clean Coal Program; Carbon capture and sequestration; CCS; Green field plants; Simulation; Mergury control; Oxycoal combustion; Gasification; Sequestration; Chemical looping combustion; CLC; Materials investigations; NETL; Coal ...Although remarkable progress has been made in developing technologies for the clean and efficient utilization of coal, the biggest challenge in the utilization of coal is still the protection of the environment. Specifically, electric utilities face increasingly stringent restriction on the emission...
360 Clearing the Path2018-01Student success; University of UtahA strategic student success agenda.
361 Clearn combustion, a path to net zeroUse of fossil fuels as the major source of energy is one of the main sources of GHG emissions that contribute to global warming. However, for at least a foreseeable future, the world will still continue to rely on fossil fuels to sustain the economy and the quality of life. IEA is evaluating the pat...
362 Clearsign core process burners and boiler burners - burner scaling and field results2022During previous AFRC Industrial Combustion Symposia, ClearSign Technologies Corporation introduced its ClearSign Core technology currently used in our Ultra Low NOx burner products. These ClearSign Core products have now been developed for different types of equipment applications to meet stringent ...
363 ClearSign eye™: pilot sensorClearsign Technologies Corp. has developed and tested a novel, capacitive based flame sensor for use on existing burners in a variety of industrial combustion applications including process burners, boiler burners and flares. ClearSign has developed two probe designs. The first probe design is compa...
364 Climate change 2007: The physical science basis--summary for policymakers2007-02Climate change; Greenhouse gases; Aerosols; Solar radiation; Radiative forcing; Third Assessment Report; TAR; Solar activity; Carbon dioxide; CO2; Methane; CH4; Nitrous oxide; N2O; Fossil Fuel; Land use; Agriculture; Land surface properties; Warming; Melting of snow and ice; Rising seal level; Globa...The Working Group I contribution to the IPCC Fourth Assessment Report describes progress in understanding of the human and natural drivers of climate change1, observed climate change, climate processes and attribution, and estimates of projected future climate change. It builds upon past IPCC assess...
365 Climate change regulation via the back door2011-05-17
366 Climate change--current understanding and implications2008-05-23Global warming; Climate change; Coal; CO2; Carbon dioxide; Temperature; Radiative Forcing; Emissions; Greenhouse gases; Arctic warming; Sea level rise; Fossil fuel; RenewableFour Primary Questions: 1-Is global warming (climate change) occurring? 2-What is the cause? 3-What will be the consequences? 4-What can/should we do?
367 Closed loop flare control using a video imaging spectral radiometerVideo Imaging Spectral Radiometry (VISR) has emerged as the only practical method to directly and continuously monitor flare performance. The VISR method provides real time measurements of flare combustion efficiency (%) and a smoke index (0-10) at a 1-sec temporal resolution. In addition to these t...
368 Co-simulation for design and optimization of advanced energy systems with carbon capture2009-10NETL; APECS; IGCC; U.S. Energy challenges; Design and optimization of advanced energy systems; CFD; Reduced Order Models; ROMs; Carbon capture; Virtual power plant; Carbon management; Fossil Energy Industry; Ultra-supercritical; USC; Oxy-combustion; Chemical looping combustion; CLC; Integrated gasif...Outline of Presentation: 1-Introduction: -U.S. Energy Challenges -Design and Optimization of Advanced Energy Systems; Simulation Tools and Challenges 2-Advanced Process Engineering Co-Simulation (APECS): -Basic Features; Process/CFD Workflow/Integration, Engineering Knowledge Manager(Trademark), Red...
369 CO2 capture from fossil energy power plants2008-05-23CO2 capture; Fossil energy power plants; Clean Coal Technologies; CCT; CO2 Capture and Storage; CCS; Coal power plants; PC plants; Post combustion CO2 removal; Chilled ammonia; Retrofit of CCS to existing coal plants; Climate Legislation; Global climate concernsClean Coal Technologies (CCT) and CO2 Capture and Storage (CCS) - Presentation Outline: 1-Overview--Options for Response to Global Climate concerns. 2-CCS crucial to meet Goals of proposed Climate Legislation. 3-CCS Options for Coal Power Plants. 4-PC Post Combustion CO2 Removal-Status, Chilled Ammo...
370 Coal devolatilization at very slow heating rates2007coal devolatilization ; slow heating rates; volatiles; coal; devolatilization temperatures; volatile yeilds; atmospheric gasesThe yield of volatiles of liquid and gaseous species is a function of operational conditions, including effects of reactor atmosphere gases, coal ranks, heating rates, ultimate devolatilization temperatures, pressure, soak time at ultimate temperatures, and catalysts. One important factor of coal de...
371 Coal in a changing climate and challenges for CCS deployment2008-05-23NRDC; Climate change; Coal; CCS deployment; CCS; Carbon Capture and Storage; Business-as-usual; BAU; world CO2 emissions; coal plant emissions; Appalachia; Wyoming; Montana; North Dakota; Colorado; New Mexico; IPCC; Powerplants; Arctic iceOutline: 1-Climate and coal 2-"Clean" coal? 3-Carbon Capture & Storage: can we (just) do it? 4-To-do list 5-A changing world
372 Coanda effect enhanced air assisted flare for low flow operation: cold flow CFD analysisThis paper aims at increasing the flow velocity in the flare stack by decreasing the flow diameter to solve the issue of low flow operation in the flares. A new air assisted flare design of 1m height and 15cm diameter has been tested using CFD simulation in this work. The design includes injecting a...
373 Coking contaminated oil shale or tar sand oil on retorted solid fines1985-03-26Patent; Heavy oil; Oil shale; Tar sand oil; Coking; Pyrolysis oil vapors; Retorted solid fines; Pyrolysis oil; Inert stripping gas; Coking contaminatedHeavy oil fraction of pyrolysis oil vapors containing concentrated contaminants is coked on retorted fine solids contained in a coking zone separate from a retorting vessel characterized by the presence of an inert stripping gas of a rate sufficient to lower the dew point of the pyrolysis oil.
374 Coking poor coking coals and hydrocracked tar sand bitumen binder1980-11-18A process is described for producing metallurgical coke from poor coking coals in which there is combined with the poor coking coals a small amount of an additive consisting of a bitumen residue obtained from hydrocracking of bitumen from tar sands. The residue used is that from vacuum distillation ...
375 Colleges, Schools & DivisionsThe colleges, schools, and divisions within the University of Utah.
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