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| Title | Date | Subject | Description | ||
|---|---|---|---|---|---|
| 101 |
 |
Catalytic upgrading of Asphalt Ridge bitumen over hydrodenitrogenation catalysts (Abstract only) | 1997 | The bitumen extracted from Asphalt Ridge oil sands was hydrotreated over three sulfided NiMo/y-Alumina hydrodenitrogenation catalysts in a fixed bed reactor to study the extent of upgrading as a function of process variables and catalyst. The process variables investigated were temperature (619-685 ... | |
| 102 |
 |
CFD modeling for entrained flow gasifiers | 2002-10-28 | CFD modeling; Entrained flow gasifiers; Reaction kinetics; Coal gasification; Integrated Gasification Combined Cycle power plants; IGCC; Computational Fluid Dynamics; Coal; Gasifier; GLACIER | In this paper we have described a CFD based modeling tool for entrained flow coal gasifiers. The model contains sub-models to properly model the reaction kinetics of coal gasification at high pressure, high solids loading and slagging walls. Comparisons between values predicted by our CFD model and ... |
| 103 |
 |
Characterization and beneficiation of bitumen-free domestic tar sands | 1982-09 | The Federal Bureau of Mines conducted a study to determine if residues from fractional distillation represent a potential source of mineral values. Aliterature review and discussions with tar sand specialists failed to disclose the mineralogical nature of residues remaining after bitumen extraction.... | |
| 104 |
 |
Characterization of DOE reference oil shale: Tipton Member, Green River Formation oil shale from Wyoming | 1988-08 | Measurements have been made of the chemical and physical properties of a Tipton Member Green River Formation oil shale from Wyoming. This shale has been designated as a western reference shale by the Department of Energy. Material balance Fischer assays, carbon aromaticities, thermal properties, and... | |
| 105 |
 |
Characterization of macromolecular structure elements from a Green River oil shale | 2013-10-14 | Macromolecular Structure; Green River; Oil Shale; 33rd Oil Shale Symposium; Golden, Colorado; Kerogen; Shale; Green River oil shale; Bitumen | This work is based upon work supported by the Department of Energy under Award Number DENT0005015. The views and opinions expressed herein do not necessarily state or reflect thoseof the United States Government or any agency thereof. |
| 106 |
 |
Characterization of nickel and vanadium compounds in tar sand bitumen by petroporphyrin quantitation and size exclusion chromatography coupled with element specific detection | 1988-02 | Previously, we have examined the Ni and V in heavy crude oils, residua, and processed products by several metal speciation techniques to ascertain molecular structure and processing behavior. Two classes 01 metal compounds were found -- metallopetroporphyrins and metallo-nonporphyrins - each having ... | |
| 107 |
 |
Characterization of particulate emissions: Size fractionation and chemical speciation | 2003-12 | Particulate emissions; Size fractionation; Chemical speciation; DoD emission sources; Aircraft ground support vehicles; Rocket motors; Aircraft; Sandblasting operations; Aerosol time-of-flight mass spectrometer; ATOFMS; Photoelectric aerosol sensor; PAS; Polycyclic aromatic hydrocarbons; PAH; Photoa... | This study developed and validated innovative techniques for characterizing the amount and composition of PM10, PM2.5, and smaller particles for four major classes of DoD emission sources: aircraft ground support vehicles, rocket motors, aircraft, and sandblasting operations. The techniques include ... |
| 108 |
 |
Characterization of Pyrolysis Products from a Utah Green River Oil Shale by 13C NMR, GC/MS, and FTIR | 2013-10-14 | Pyrolysis; Utah; Green River; Oil Shale; GC/MS; FTIR; 33rd Oil Shale Symposium; Kerogen; Oil shale kerogen; 13C; NMR; TGA | |
| 109 |
 |
Characterization of Uinta Basin oil sand bitumens | 1992-11-15 | Uinta Basin; Oil sand bitumens; Southwest Whiterocks; Northwest Whiterocks; Asphalt Ledge; Sunnyside; Solvent extraction; Elution chromatography; Saturate and monoaromatic fractions; Polycyclic naphthenes; Naphthenoaromatics; Steranes; Hopanes | Results of the analyses of the saturate and monoaromatic fractions of four Uinta Basin bitumens (southwest Whiterocks, northwest Whiterocks, Asphalt ledge and Sunnyside) are presented in this paper. After separating the bitumen samples into several fractions using solvent extraction and elution chro... |
| 110 |
 |
Chemical kinetics and oil shale process design | 1993-07 | Oil shale processes are reviewed with the goal of showing how chemical kinetics influences the design and operation of different processes for different types of oil shale. Reaction kinetics are presented for organic pyrolysis, carbon combustion, carbonate decomposition, and sulfur and nitrogen reac... | |
| 111 |
 |
Chemical looping combustion hierarchy | 2009-11-04 | Chemical looping combustion; CLC; hierarchical chart; CLC integration; ISCE; Research area; Subtasks | Hierarchical 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 ... |
| 112 |
 |
Chemical looping combustion kinetics | 2009-12-01 | chemical looping; combustion kinetics; CO2 capture; coal-fired power plants; CLC | One 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... |
| 113 |
 |
Chemical looping combustion reactions and systems: Task 5 topical report | 2011-08 | Chemical looping combustion; CLC; Fuel combustion; CO2 capture; Electric power; Sequestration; FBR; CLOU; Thermogravimetric analysis; CO2; Carbon dioxide | Chemical 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 ... |
| 114 |
 |
Chemical looping combustion reactions and systems: task 5 topical report, Utah Clean Coal Program | 2014-03 | ICSE; 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 combustion | Chemical 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 ... |
| 115 |
 |
Chemical reaction model for oil and gas generation from type I and type II kerogen | 1993-06 | A global model for the generation of oil and gas from petroleum source rocks is presented. The model consists of 13 chemical species and 10 reactions, including an alternate pathway mechanism for kerogen pyrolysis. Reaction rate parameters and stoichiometry coefficients determined from a variety of ... | |
| 116 |
 |
Chemistry and mineralogy of natural bitumens and heavy oils and their reservoir rocks from the United States, Canada, Trinidad and Tobago, and Venezuela | 1989-12-21 | Twenty-one samples from natural bitumen and heavy oil deposits in seven States of the United States and six samples from outside the United States form the basis of this initial study. This Circular gives the mineral content of the reservoir rock, the trace-element distribution in the reservoir rock... | |
| 117 |
 |
Chemistry and resources of heavy oil and natural bitumen deposits | 1989 | chemistry of heavy oil; chemistry of natural bitumen deposits; heavy oil resources; natural bitumen deposits; heavy oil; unconventional oil deposits; natural bitumen | Supplies of conventional crude oil are diminishing; therefore, it is important to understand the reservoir characteristics of unconventional oil deposits. Reservoirs of unconventional deposits contain oils heavier than 20° gravity API and natural bitumens (tar sands and oil sands) are more viscous ... |
| 118 |
 |
Classification of natural bitumen: A physical and chemical approach | 1987 | natural bitumen; Classification of bitumen; physical properties of natural bitumen; chemical properties of natural bitumen; crude oil; natural bitumen; tar sands oil; bitumen | By correlation of various selected physical and chemical properties of heavy crude oils and natural bitumens, an attempt is made to solve classification problems. The criteria used here are, in descending order: viscosity, gravity, H/C atomic ratio, O/C atomic ratio, optical reflectivity; volatiles,... |
| 119 |
 |
Classification, petrographic expression, and reflectance of native bitumen | 1998-11-19 | Native bitumen is naturally occurring, solid organic material that originates, with few exceptions, from material expelled by sedimentary organic matter during catagenesis. Note that, in this text, the word bitumen is used to mean "native bitumen" rather than the common meaning of organic matter ext... | |
| 120 |
 |
Clay-induced oil loss and alkene isomerization during oil shale retorting | Sunnyside (Utah) tar sand was subjected to programmed temperature pyrolysis and the volatile products were detected by tandem on-line mass spectrometry (MS/MS) in real time analyses- A heating rate of 4°C/min from room temperature to 900°C was employed. Evolution of hydrogen, light hydrocarbons, n... | ||
| 121 |
 |
Clean and Secure Energy from Coal - Final report, Utah Clean Coal Program | 2015-02 | coal; Utah Clean Coal Program; domestic coal resources; CO2 capture; CO2 combustion; stationary power generation; V/UQ; oxy-coal combustion; high-pressure, entrained-flow coal gasification; chemical looping combustion; underground coal thermal treatment; mercury control; environmental issues; legal ... | The University of Utah, through their Institute for Clean and Secure Energy (ICSE), performed 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 was organized around t... |
| 122 |
 |
Clean and secure energy from coal - Phase 3 statement of project objectives | 2011-07-01 | ICSE; 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; CNG | The 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... |
| 123 |
 |
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... |
| 124 |
 |
Clean and secure energy from coal, oil shale, and oil sands: Quarterly progress report: July 1, 2009 to September 30, 2009 | 2009-10-30 | ICSE; Electric power generation; Liquid transportation fuels; Coal; Oil sands; Oil shale; Clean Coal Program; the Oil Shale and Sands Program; OSSP; the Policy Environment, and Economics Program; PEEP; CO2 capture; Sequestration; Oxy-coal combustion; Coal analysis; Ash partitioning | 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... |
| 125 |
 |
Clean and secure energy from coal, oil shale, and oil sands: Quarterly progress report: October 1, 2008 to December 31, 2008 | 2008-01-31 | CASE; 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... |