TO
| Title | Date | Subject | Description | ||
|---|---|---|---|---|---|
| 226 |
 |
Modeling study of carbonate decomposition in LLNL's 4TU pilot oil shale retort | 1994-10-14 | 4 tonne-per-day oil shale Pilot Retort; 4TU-Pilot; Carbonate decomposition; Lawrence Livermore National Laboratory; LLNL | Lawrence Livermore National Laboratory's (LLNL) 4 tonne-per-day oil shale Pilot Retort (4TU-Pilot) has been modeled to study the degree of carbonate decomposition occurring in the process. The modeling uses a simplified version of the processes occurring in the retort to allow parametric studies to ... |
| 227 |
 |
Policy analysis of water availability and use issues for domestic oil shale and oil sands development: Topical Report: October 1, 2009 to March 31, 2010 | 2010-03 | oil shale/sands resources; energy source; unconventional fuels; water demands; water availability; domestic oil shale/sands development; topical report | Oil shale and oil sands resources located within the intermountain west represent a vast, and as of yet, commercially untapped source of energy. Development will require water, and demand for scarce water resources stands at the front of a long list of barriers to commercialization. Water requiremen... |
| 228 |
 |
Policy analysis of produced water issues associated with in-situ thermal technologies: Topical report: October 1, 2009 to December 31, 2010 | 2011-01 | topical report; produced water issues; in situ thermal technologies; oil shale/sands; water rights; domestic energy source | Commercial scale oil shale and oil sands development will require water, the amount of which will depend on the technologies adopted and the scale of development that occurs. Water in oil shale and oil sands country is already in scarce supply, and because of the arid nature of the region and limita... |
| 229 |
 |
Petroleum technology advances through applied research by independent oil producers | 2000-01 | petroleum technology; independant oil producers; National Oil Research Program | "Petroleum Technology Advances Through Applied Research by Independent Oil Producers" is a program of the National Oil Research Program, U.S. Department of Energy. Between 1995 and 1998, the program competitively selected and costs shared twenty-two projects with small producers. The purpose was to ... |
| 230 |
 |
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... |
| 231 |
 |
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. |
| 232 |
 |
Oxy-fuel hierarchy | 2009-11-04 | oxy-fuel combustion; different fuel types; ICSE | Hierarchical chart for the oxy-fuel combustion research area showing connectivity between subtasks. This research area includes coal, gas, and oil oxy-burner technologies. This chart helps illustrate the integration and focus among the different fuel types and different scales represented in the hie... |
| 233 |
 |
P. R. spring oil-impregnated sandstone deposit Uintah and Grand Counties, Utah | 1970-02 | oil-impregnated sandstone beds; oil impregnation; oil shale; lenticular sandstones; siltstones | Oil-impregnated sandstone beds underlie at least 214 square miles in the southeastern Uinta Basin and may extend northward beneath cover. One to as many as five principal saturated zones, 3 to 75 feet thick, occur in a 250-foot interval that dips gently northward. The northernmost outcrops are overl... |
| 234 |
 |
Paraho oil shale module: Design plan for demonstration of a surface oil shale retorting module | 1981-10 | oil shale; plant performance; mines | A critical item in the demonstration plant is one that has a notable impact on plant performance. Generally, these items have required that decisions be made throughout the course of the Phase I work to facilitate design work and preparation of estimates. The approach taken in each case represents t... |
| 235 |
 |
Palynology and petrography of some solid bitumens of the Uinta Basin, Utah | 1976-07 | bitumen; petrologic character; palyonogic content; plant material found in bitumen | Several solid bitumens and bituminous substances of the Uinta Basin found in veins, brecciated fissures, cracks, joints, and porous rocks have been examined for petrologic character and palynologic content. Some samples of solid ozocerite, a native wax, intercalated in the matrix of brecciated zones... |
| 236 |
 |
Oxidized oil shale for removal of nitrogen oxides in combustion gas streams | 1993-01-15 | oxidized oil shale; hot recycled solids; HRS; oil shale retorting; removing nitrogen oxides | Oxidized oil shale from the combustor in the LLNL Hot-Recycled-Solids (HRS) oil shale retorting process has been found to be catalyst for removing nitrogen oxides from laboratory gas streams using NH3 as a reductant. Oxidized Green River oil shale heated at 10°C/min in an Ar/02/NO/NH3 mixture (~ 93... |
| 237 |
 |
Lawrence Livermore National Laboratory oil shale project (Apr 1986) | 1986-04 | ammonia evolution; triple quadruple mass spectrometer; biomaker identification; oil shale; ammonia emissions | I. Ammonia Evolution. II. Development of the Use of a Triple Quadruple Mass Spectrometer as an On-Line Ammonia Monitor. III. Biomarker Identification by TQMS Improved by Artificial-Intelligence Tuning, IV. Products from Contact of Oil Shale with Reactive Gases. |
| 238 |
 |
Lawrence Livermore National Laboratory oil shale project (Nov 1984) | 1984-11 | retort modeling; oil shale; sulfur containing gases; TQMS; recycle gas | I. Retort Modeling. II. Sulfur Containing Gases by Triple Quadruple Mass Spectrometer (TQMS), both Grab and On-Line Analysis. III. Visitors. |
| 239 |
 |
Mineralogy of oil shale in the upper part of Parachute Creek member of the Green River Formation in the Eastern Uinta Basin, Utah | 1976 | Parachute Creek; Green River Formation; Uinta Basin; Utah; X-ray diffraction; Oil shale; Curly bed; Wavy bed tuffs; Mahogany zone; Naval Oil Shale Reserve No. 2; Federal Prototype Oil Shale Leas Tract Ua; Smectite; Mineralogy | The relative abundance and distribution of major and minor minerals have been determined by X-ray diffraction for samples of Green River Formation oil shale in three drill cores from the eastern part of the Uinta Basin, Utah. The samples in each core are from the same rock stratigraphic interval bet... |
| 240 |
 |
Lawrence Livermore National Laboratory oil shale project (Jun 1982) | 1982-06-04 | oil shale; retorted shale; retort modeling; oil hold up; fluidized-bed pyrolysis; saline zone oil shale; recycle chemistry | I. Fluidized-bed Combustion of Retorted Shale. II. Retort Modeling. III. Oil Holdup. IV. Fluidized-bed Pyrolysis. V. Saline Zone Oil Shale. VI. Biological Markers for Retort Diagnostics. VII. Recycle Chemistry. VIII. The Application of Triple Quadruple MS/MS (TQMS) to the Determination of Trace Sulp... |
| 241 |
 |
Lawrence Livermore National Laboratory oil shale project (Jun 1984) | 1984-06 | oil shale processing; solids-recycle retort system; sulfur gas analysis; oil shale; sulfur and nitrogen in oil shale; above ground retorting | I. Sulfur and Nitrogen in Oil Shale Processing. II Initial Operation of the Solids-Recycle Retort System. III. Sulfur Gas Analysis by Triple Quadruple Mass Spectrometry. IV. Retort Modeling. V. Publications and Presentations. VI. Visitors. |
| 242 |
 |
Lawrence Livermore National Laboratory oil shale project (Feb 1985) | 1985-02 | retort modeling; Retort Oil Collection System; pyrolysis gas; oxidized oil shale; oil shale | I. Retort Modeling. II.Toulene to be Used in Retort Oil Collection System. III. Sulfur Species in Pyrolysis Gas by Triple Quadruple Mass Spectrometry. IV. Rate of Reaction of Oxidized Oil Shale with Hydrogen Sulfide. V. Visitors. |
| 243 |
 |
Lawrence Livermore National Laboratory oil shale project (Oct 1986) | 1986-10 | chemical reaction modeling; carbonate decomposition; oil shale; retorting process | I. Carbonate Decomposition Reaction Scheme and Kinetics. II. Chemical Reaction Modeling. |
| 244 |
 |
Lawrence Livermore National Laboratory oil shale project (Jun 1987) | 1987-06 | isomerization of alkenes; shale oil by kaolinite; oil shale enthalpy relations; fluid-bed pyrolzer; retorting; oil shale | I. Isomerization of Alkenes in the Shale Oil by Kaolinite. II. Oil Shale Enthalpy Relations. III. Simulation of Fluid-bed Pyrolzer/Lift-pipe Combustor Retort. IV. Yields from the Cross-swept, Packed-bed Pyrolzer Depend on Sweep, Run Conditions, and Shale Type |
| 245 |
 |
Lawrence Livermore National Laboratory oil shale project (Mar 1987) | 1987-03 | n-Butane pyrolysis; Ammonia from pyrolysis; Devonian oil shale; oil shale; dust | I. Dust. II. Pyrolysis of n-Butane. Ammonia from Pyrolysis of Devonian Oil Shale. |
| 246 |
 |
Lawrence Livermore National Laboratory oil shale (Oct 1988) | 1988-10 | Pyrolzer reactions; oil shale; pyrite decomposition; Green River Formation oil shale; water vapor concentrations in oil shale | I. Secondary Reactions in the Pyrolzer, H2S Release from Devonian Oil Shale. II. Pyrite Decomposition in Oil Shale. III. More on Organic/Inorganic Nitrogen in Green River Formation Oil Shale. IV. Fast and Accurate Measurements of Water Vapor Concentrations. V. References. |
| 247 |
 |
Lawrence Livermore National Laboratory oil shale project (Nov 1981) | 1981-11-02 | gas-combustion retort system; flowsheet data; retort model | A preliminary process flowsheet for a commercial-size, aboveground, countercurrent, gas-combustion retort system has been developed. Flowsheet data are based on an overall mass and energy balance code which uses the Lawrence Livermore National Laboratory one-dimensional retort model in conjunction w... |
| 248 |
 |
Lawrence Livermore National Laboratory oil shale project (Jul 1986) | 1986-07 | enthalpy relations; oil shale; chemical reaction modeling; generic pyrolysis modeling; heat capacities for oil shale | I. Enthalpy Relations for Oil Shale. II. Chemical Reaction Modeling. III. Generic Pyrolysis Modeling. |
| 249 |
 |
Lawrence Livermore National Laboratory oil shale project (Nov 1983) | 1983-11 | oil shale; pyrolysis on sulfer gases; nitric oxide formation; sulfur gas production | I. Effect of Pyrolysis Conditions on Sulfur Gases. II. Nitric Oxide Formation During Combustion. III Process Modeling. |
| 250 |
 |
Lawrence Livermore National Laboratory oil shale (May 1989) | 1989-05 | isothermal pyrolisis kinetics; dust; oil shale; oil generation; micropyrolysis | I. Isothermal Pyrolysis Kinetics. II. Dust. |