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TitleDateSubjectDescription
1 Chemical looping combustion hierarchy2009-11-04Chemical looping combustion; CLC; hierarchical chart; CLC integration; ISCE; Research area; SubtasksHierarchical chart for the chemical looping combustion (CLC) research area hierarchical chart showing connectivity between subtasks. This chart helps illustrate CLC integration and focus and also serves as a management tool for the various subtasks. Subtasks in brown and orange are currently funded ...
2 Chemical looping combustion kinetics2009-12-01chemical looping; combustion kinetics; CO2 capture; coal-fired power plants; CLCOne of the most promising methods of capturing CO2 emitted by coal-fired power plants for subsequent sequestration is chemical looping combustion (CLC). A powdered metal oxide such as NiO transfers oxygen directly to a fuel in a fuel reactor at high temperatures with no air present. Heat, water, and...
3 Chemical looping combustion reactions and systems: Task 5 topical report2011-08Chemical looping combustion; CLC; Fuel combustion; CO2 capture; Electric power; Sequestration; FBR; CLOU; Thermogravimetric analysis; CO2; Carbon dioxideChemical Looping Combustion (CLC) is one promising fuel-combustion technology, which can facilitate economic CO2 capture in coal-fired power plants. It employs the oxidation/reduction characteristics of a metal, or oxygen carrier, and its oxide, the oxidizing gas (typically air) and the fuel source ...
4 Chemical looping combustion reactions and systems: task 5 topical report, Utah Clean Coal Program2014-03ICSE; Chemical looping combustion; CLC; Chemical looping with oxygen uncoupling; CLOU; Fuel-combustion technology; Economic CO2 capture; Oxygen Carriers; Simulation of dense-phase flows; Electric power; Solid fuel combustionChemical Looping Combustion (CLC) is one promising fuel-combustion technology, which can facilitate economic CO2 capture in coal-fired power plants. It employs the oxidation/reduction characteristics of a metal, or oxygen carrier, and its oxide, the oxidizing gas (typically air) and the fuel source ...
5 Clean and secure energy from coal - Phase 3 statement of project objectives2011-07-01ICSE; University of Utah; CO2 capture; Oxy-coal combustion; Domestic coal resources; Stationary power generation; Clean coal utilization; Chemical looping combustion; CLC; High-pressure entrained-flow coal gasification; IGCC; SNG; NGCC; CNGThe University of Utah (the Recipient), via their Institute for Clean and Secure Energy (ICSE), shall pursue 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 orga...
6 Clean and secure energy from coal, oil shale, and oil sands: Quarterly progress report: October 1, 2008 to December 31, 20082008-01-31CASE; Energy development; Electric power generation; Liquid transportation fuels; Coal; Oil sands; Oil shale; Clean Coal Program; Oil Shale and Sands Program; OSSP; Policy Environment, and Economics Program; PEEP; CO2 capture; sequestration; Chemical looping combustion; CLC; Ash-partitioning; PIV; P...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. It's work is divid...
7 Clean and secure energy from coal, oil shale, and oil sands: Revised quarterly progress report: April 1, 2009 to June 30, 20092009-08-13CASE; Energy development; Electric power generation; Liquid transportation fuels; Coal; Oil sands; Oil shale; Clean Coal Program; Oil Shale and Sands Program; OSSP; Policy Environment, and Economics Program; PEEP; CO2 capture; sequestration; Gasification; Chemical looping combustion; CLC; Ash-partit...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...
8 Clean and secure energy from coal: Project management plan: Revision A2009-12-01ICSE; PMP; DE-NT0005015; NETL; Strategic Center for Coal; SCC; Strategic Center for Natural Gas and Oil; SCNGO; Domestic coal resources; Energy; CO2 capture; Combustion; Stationary power generation; Clean coal utilization; Oxy-coal combustion; High-pressure, Entrained-flow Gasification; IGCC; Chemic...Revision history: Revision A, November 25, 2009. The PMP is being revised to reflect Modification #001 of award DE-NT0005015. The original PMP reflected the original award executed on September 10, 2008, for a project entitled Clean and Secure Energy from Coal, Oil Shale, and Oil Sands. The original...
9 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...
10 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...
11 Effect of pressure on copper/copper-oxide system functioning as an oxygen carrier in chemical looping combustion2010-06-10copper/copper-oxide system; chemical looping combustion; CLC; high pressure thermogravimetic analysisChemical Looping Combustion (CLC) is a promising technology that will utilize more efficient harvesting of energy along with decreased CO2 emissions into the atmosphere. In CLC system the emissions are composed of CO2 and H2O allowing the CO2 to be captured and disposed of in an environmentally more...
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