|
|
Title | Date | Subject | Description |
401 |
|
Depositional environments of oil shale in the Green River Formation, Douglas Creek Arch, Colorado and Utah | 1985 | depositional environments; oil shale; Green River Formation; Douglas Creek Arch; stratigraphy | Douglas Creek arch in western Colorado and eastern Utah separates the Uinta and Piceance Creek basins. During deposition of the lower part of the Eocene Green River Formation, the arch provided a physical barrier dividing ancient Lake Uinta into two segments. As the lake expanded, the arch became a ... |
402 |
|
Depositional heterogeneity and fluid flow modeling of the oil shale interval of the Upper Green River Formation, Eastern Uinta Basin, Utah | 2008-03-12 | Green River Formation; Eastern Uinta Basin; Utah; Oil shale; Sedimentology; Sequence stratigraphy; Mahogany zone; Depositional heterogeneity; Fluid flow modeling | Discussion of depositional and sequence stratigraphic characterization of the upper Green River Formation based on core and well log correlation and production modeling of the richest zone (Mahogany) based on sedimentological and other information. |
403 |
|
Depositional setting and preliminary oil-shale resource potential, southwestern Uinta Basin, Utah | 1982 | Oil shale; Uinta Basin; Utah; Green River; Oil yield; Lake Uinta; Mohogany zone; Kerogen; Sheep Pass; Elko Basins; Nevada; Strawberry Structure; Strawberry Reservoir | This report characterizes the potential oil-shale resources underlying those lands west of the Green River in the southwestern Uinta Basin, Utah. The principal evaluation technique has been the calculation of oil yield from oil-well sonic and density log data available in this area. Subsurface corre... |
404 |
|
Description of work elements | 1968-08-26 | | Previous programs have initiated and refined the development of a Utah population model to be used in projection of future requirements of both public and private facilities, goods and services. |
405 |
|
Description of work elements IV: land use model | 1968-08-26 | | Previous programs have initiated and refined the development of a Utah population model to be used in projection of future requirements of both public and private facilities, goods and services. The present state population forecasts are based upon the "cohort-survival" method of analysis of birth r... |
406 |
|
Design Considerations for Carbon-Free Combustion | | Decarbonization; Hydrogen Combustion; Carbon Dioxide; Carbon-Free Combustion; CO2 Emissions; Greenhouse Gas Emissions | Combustion of a hydrocarbon produces water and carbon dioxide. As consensus continues to build around the contributions of carbon in global client change, jurisdictions, both internationally as well as domestically, are working towards limiting formation of carbon dioxide. One way to work toward eff... |
407 |
|
Determination of oil shale potential Green River Formation, Uinta Basin northeast Utah | 1967-11-03 | | |
408 |
|
Determination of sulfur anions in spent oil shale leachates by ion chromatography | 1989-07 | | The leaching and transport of chemical constituents from spent oil shale disposal areas is an area of environmental concern at the present time. Sulfur-containing compounds are prevalent in spent oil shales and have the potential to leach into aqueous systems surrounding disposal sites. Computer mod... |
409 |
|
Determination of the major elements and trace metals present in bitumen from several tar sand deposits | 1985-01 | | The results of the analyses of 14 tar sand samples for the concentration of major elements and trace metals are presented. Ten samples were obtained from the Uinta Basin of Utah, three from the southeastern part of Utah, and one from New Mexico. In general, the major element composition of the bitum... |
410 |
|
Development of an eastern shale oil residue as an asphalt additive: Subtask 2.5 | 1997-08-11 | eastern shale oil residue; asphalt additive; western shale oil-derived asphalt additive; oxidative age hardening; shale oil chemistry | An evaluation of eastern shale oil as an asphalt additive to reduce oxidative age hardening and moisture susceptibility is being conducted. An eastern shale oil residue having a viscosity of 1.30 Pa.s at 60° C (140°F) was blended with three different petroleum-derived asphalts that are known to be... |
411 |
|
Development of an inclined liquid fluidized bed for tar sand processing | 1989-12 | | An inclined liquid fluidized-bed reactor (ILFBR) system has been developed and successfully operated for 24 hours. Modifications to the previously tested ILFBR systems include incorporation of a oil fluidizing zone in the front of the fluid bed, an increase in the angle of the fluid bed to -12 (the ... |
412 |
|
Development of the IIT Research Institute RF heating process for in situ oil shale/tar sand fuel extraction--an overview | 1981-04 | | The history and current status of development of IITRI's RF process for in situ oil shale/tar sand fuel extraction is described . A brief description of the salient features of IITRI's RF process is given, together with a review of past laboratory development activities. Activities with in IITRI's ... |
413 |
|
Development of Utah tar sands--a status report | 1977 | | The hydrocarbon resource locked in Utah's tar sands has been estimated to be in excess of 25 billion barrels. Tar sands, known variously as oil sands, bituminous sandstone, or oil-impregnated sandstone, cannot be recovered by conventional primary or secondary petroleum recovery techniques because of... |
414 |
|
Developments in low NOx incineration technologies | | | The overall combustion industry continues to design and develop new low NOx and ultra-low NOx technologies across many applications. In general incineration design and requirements have lagged other technologies like process heaters and boiler burners. This is due to many factors but there is new fo... |
415 |
|
Developments in upgrading of bitumen by hydropyrolysis | 1989 | hydropyrolysis; upgrading bitumen; gas processing | Hydropyrolysis, a short residence time, moderate temperature process, has been under development at the University of Utah for more than a decade. Hydropyrolysis has been shown to produce 90+% liquid product yields from feedstocks containing more than 50% nonvolatile materials. The process results i... |
416 |
|
Diagenetic and burial history of the Lower Permian White Rim Sandstone in the Tar Sand Triangle, Paradox Basin, southeastern Utah | 1995 | | Subsurface petrologic study and burial history reconstruction of the Lower Permian White Rim Sandstone in the Tar Sand triangle on the western edge of the Paradox Basin in southeastern Utah suggest that oil migrated into White Rim reservoirs after significant burial during the early Tertiary. Primar... |
417 |
|
Digitized log file, Utah Geological Survey Well Number U043 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
418 |
|
Digitized log file, Utah Geological Survey Well Number U044 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
419 |
|
Digitized log file, Utah Geological Survey Well Number U045 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
420 |
|
Digitized log file, Utah Geological Survey Well Number U048 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
421 |
|
Digitized log file, Utah Geological Survey Well Number U050 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
422 |
|
Digitized log file, Utah Geological Survey Well Number U054 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
423 |
|
Digitized log file, Utah Geological Survey Well Number U056 | 2008 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
424 |
|
Digitized log file, Utah Geological Survey Well Number U059 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |
425 |
|
Digitized log file, Utah Geological Survey Well Number U060 | 2009 | | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |