TO
Filters: Collection: "ir_eua"
| Title | Date | Subject | Description | ||
|---|---|---|---|---|---|
| 451 |
 |
The development of a bench scale metal distillation furnace (retort) | 1995-06-19 | bench scale metal distillation furnace; retort; spent reactor fuel; actinides recovery | Processes for the recovery of actinides from spent reactor fuel being studied at Argonne National Laboratory required the design of a high-temperature vacuum furnace, the furnace has to be able to melt actinides, distill volatile metals (Zn and Mg), be operable in a nitrogen glovebox with low head r... |
| 452 |
 |
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... |
| 453 |
 |
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 ... | |
| 454 |
 |
Development of baseline data and analysis of life cycle greenhouse gas emissions of petroleum-based fuels | 2008-11-26 | baseline data and analysis; life cycle greenhouse gas emissions; petroleum based fuels; alternative transportation fuel options; GHG emissions; reduce greenouse gass emissions | Alternative transportation fuel options are currently being explored or implemented across the nation to (1) reduce climate change impacts from the release of greenhouse gases (GHGs), (2) reduce our reliance on foreign sources of energy, and (3) provide an economically-stable transportation fuel sou... |
| 455 |
 |
Development of CFD-based simulation tools for in situ thermal processing of oil shale/sands | 2012-02 | CFD; in situ; in situ thermal processing; oil shale; oil sands | In our research, we are taking the novel approach of developing and applying high performance computing, computational fluid dynamics (CFD)-based simulation tools to a modified in-situ process for production of oil from oil shale. The simulation tools being developed capture the relevant physical pr... |
| 456 |
 |
Development of HPC-based simulations tool for in situ thermal processing of oil shale/sands | HPC-based simulations tool; in situ thermal processing; oil shale; oil sands; commercial production of oil shale; ecoshale in-capsule process | A presentation given at the Unconventional Fuels from Oil Shale and Oil Sands Project Review Meeting on March 10-11, 2011. | |
| 457 |
 |
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 ... | |
| 458 |
 |
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... | |
| 459 |
 |
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... | ||
| 460 |
 |
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... |
| 461 |
 |
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... | |
| 462 |
 |
Digital library and interactive map projects at the Institute for Clean and Secure Energy, University of Utah | 2009-10-23 | ICSE; digital repository | The Instituteʼs repository is a not-for-profit service for researchers, and we are working to include a variety of documents, data, and maps relevant to unconventional fuels research and development. |
| 463 |
 |
Digitized log file, API Number 4301310420 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 464 |
 |
Digitized log file, API Number 4301310484 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 465 |
 |
Digitized log file, API Number 4301310756 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 466 |
 |
Digitized log file, API Number 4301310757 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 467 |
 |
Digitized log file, API Number 4301310821 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 468 |
 |
Digitized log file, API Number 4301310823 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 469 |
 |
Digitized log file, API Number 4301310898 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 470 |
 |
Digitized log file, API Number 4301311087 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 471 |
 |
Digitized log file, API Number 4301320100 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 472 |
 |
Digitized log file, API Number 4301320179 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 473 |
 |
Digitized log file, API Number 4301320246 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 474 |
 |
Digitized log file, API Number 4301320269 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining | |
| 475 |
 |
Digitized log file, API Number 4301330016 | 2009 | This log was digitized by the Utah Geological Survey from image files (.tiff) compiled by the Utah Division of Oil, Gas, and Mining |