TO
Filters: Collection: "ir_eua"
| Title | Date | Subject | Description | ||
|---|---|---|---|---|---|
| 1626 |
 |
Lawrence Livermore National Laboratory oil shale project (Aug 1983) | 1983-08-09 | oil shale pyrolysis; liquid oil; oil | Our general chemical kinetic model for oil shale pyrolysis has been further developed. The reactions included in the model are primary pyrolysis of kerogen, vaporization of liquid oil, coking of liquid oil, hydrogenation of liquid oil, cracking of liquid oil, cracking of oil vapor, secondary and ter... |
| 1627 |
 |
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. |
| 1628 |
 |
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. |
| 1629 |
 |
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... |
| 1630 |
 |
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. |
| 1631 |
 |
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 |
| 1632 |
 |
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. |
| 1633 |
 |
Lawrence Livermore National Laboratory oil shale project (May 1985) | 1985-05 | oil shale; inorganic nitrogen; retort modeling | I. Determination of Inorganic Nitrogen in Shale II. Retort Modeling III. Reduced Volume Sampling System Installed on Triple Quadruple Mass Spectrometer IV. Visitors V. Publications |
| 1634 |
 |
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... |
| 1635 |
 |
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. |
| 1636 |
 |
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. |
| 1637 |
 |
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. |
| 1638 |
 |
Lawrence Livermore National Laboratory oil shale project review: METC third annual oil shale contractors meeting | 1988-07-20 | Lawrence Livermore National Laboratory; oil shale retorting alternatives; oil shale process development; oil shale | The Lawrence Livermore National Laboratory combines laboratory and pilot-scale experimental measurements with mathematical modeling of fundamental chemistry and physics to provide a technical base for evaluating oil shale retorting alternatives. Presented herein are results of four research areas of... |
| 1639 |
 |
LEED 2009 for healthcare: new construction and major renovations (UUSAC) | 2009 | Healthcare; University of Utah staff | Project checklist categories including: sustainable sites, water efficiency, energy and atmosphere, materials and resources, indoor environmental quality, innovation in design, and regional priority credits. |
| 1640 |
 |
Lessons learned from transient analysis of combustion equipment in the process industries | During gas flare operation, hydrocarbon gas is fed through a flare stack and ignited by a pilot. During the ignition process, flares generally produce significant amounts of smoke (see Figure 1) since enough mixing energy is not available to entrain surrounding air to completely burn the flare gas. ... | ||
| 1641 |
 |
LETC tar sand research - North Asphalt Ridge | 1985 | LETC tar sand research; North Asphalt Ridge; tar sand; in situ recovery methods; classifying tar sand deposits; in situ recovery process; tar sand deposits | This report describes work done by the United States Department of Energy's Laramie Energy Technology Center (LETC) from 1971 through 1982 to develop technology for future recovery of U.S. tar sands. The objectives of the program are: 1. To determine the feasibility of in situ recovery methods appli... |
| 1642 |
 |
Letter from Mario Capecchi to Chase Peterson dated September 28, 1981 | 1981-09-28 | University of Utah; Department of Human Genetics; History | This letter is a request for $49,977.00 to establish a small but highly skilled group whose goal would be to introduce purified genes into mouse embryos for the purpose of creating animal models for human genetic diseases and to test the feasibility of gene transfer therapeutic processes. |
| 1643 |
 |
Letter from the Senior Vice President for Academic Affairs to Deans and Department chairs | 2020-07 | Racism; Systemic racism; Research | Letter from the Senior Vice President for Academic Affairs to Deans and Department chairs addressing U.S. Department of Homeland Security's announcement of modifications to exemptions for non-immigrant students enrolled at high education institutions during the COVID-19 pandemic. |
| 1644 |
 |
Letter from the Senior Vice President for Academic Affairs to Students | 2020-07 | Racism; Systemic racism; Research | Letter from the Senior Vice President for Academic Affairs to students addressing U.S. Department of Homeland Security's announcement of modifications to exemptions for non-immigrant students enrolled at high education institutions during the COVID-19 pandemic. |
| 1645 |
 |
Liberal Education Program & Requirements | The liberal education program and requirements for the University of Utah. | ||
| 1646 |
 |
Libraries, Museums & Other Resources | Libraries; Museums; Higher education resources; University of Utah | The libraries, museum and other resources connected with the University of Utah. | |
| 1647 |
 |
Light-oils transformation to heavy oils and asphalts-assessment of the amounts of hydrocarbons removed and the hydrological-geological control of the process | 1987 | light-oils; heavy oils; asphalts; assessment; hydrocarbons; petroleum resources; oil alteration | Heavy oils frequently represent a residue left after removal of saturated and aromatic hydrocarbons by various alteration processes. They are characterized by a high content of asphaltenes and polar compounds and by higher sulfur content than the light oils from which they were derived. In the Dead ... |
| 1648 |
 |
Linc Energy: UCG towards commercialization | 2011-03-24 | Linc Energy; UCG; UCG commercialization; coal | 6th Annual International Conference & Workshop on Underground Coal Gasification, 23rd - 24th March 2011 |
| 1649 |
 |
List of SERDP publications and presentations | 2010 | SERDP; SERDP publications; SERDP presentations | Bibliography of SERDP publications |
| 1650 |
 |
Lithofacies and related hydrocarbon accumulations in Tertiary strata of the western and central Uinta Basin, Utah | 1975 | lithofacies; hydrocarbon accumulations; Tertiary strata; Uinta Basin; stratigraphy | Strata of Tertiary age in the Uinta Basin were deposited in an internally drained depression. They can be divided into (1) a central core of organic-rich open lacustrine claystone and mud-supported carbonate surrounded by (2) marginal lacustrine sandstone, claystone and mud- and grain-supported carb... |