TO
| Title | Date | Subject | Description | ||
|---|---|---|---|---|---|
| 176 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 92 Depth: 930.0 - 940.0 ft. | 2015-07 | core sample; Skyline 16; box 92; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 92 Depth: 930.0 - 940.0 ft. |
| 177 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 93 Depth: 940.0 - 950.0 ft. | 2015-07 | core sample; Skyline 16; box 93; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 93 Depth: 940.0 - 950.0 ft. |
| 178 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 94 Depth: 950.0 - 960.0 ft. | 2015-07 | core sample; Skyline 16; box 94; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 94 Depth: 950.0 - 960.0 ft. |
| 179 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 95 Depth: 960.0 - 970.0 ft. | 2015-07 | core sample; Skyline 16; box 95; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 95 Depth: 960.0 - 970.0 ft. |
| 180 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 96 Depth: 970.0 - 980.0 ft. | 2015-07 | core sample; Skyline 16; box 96; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 96 Depth: 970.0 - 980.0 ft. |
| 181 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 97 Depth: 980.0 - 990.0 ft. | 2015-07 | core sample; Skyline 16; box 97; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 97 Depth: 980.0 - 990.0 ft. |
| 182 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 98 Depth: 990.0 - 1000.0 ft. | 2015-07 | core sample; Skyline 16; box 98; Green River Formation | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 98 Depth: 990.0 - 1000.0 ft. |
| 183 |
 |
Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 99 Depth: 1000.0 - 1006.25 ft. | 2015-07 | core sample; Skyline 16; Green River Formation; box 99 | Core sample photograph by the Utah Geological Survey at the University of Utah, and the Utah Core Research Center. Skyline 16: SW SW sec. 10 11S 25E Uintah County, Utah. Box 99 Depth: 1000.0 - 1006.25 ft. |
| 184 |
 |
SO3 formation during oxy-coal combustion | 2010-06-10 | oxy-coal combustion; SO3 formation; formation of sulfur compounds; sulfur | In oxy-coal combustion, an oxygen and carbon dioxide mixture, rather than air, is used to burn the coal. Many studies to date have focused on the formation of NOx under oxy-coal combustion conditions; however, the formation of sulfur species, particularly sulfur trioxide, is currently not a well und... |
| 185 |
 |
SO3 formation during oxy-coal combustion - Presentation | 2010-06-10 | SO3; oxy-coal combustion; controlled condensation method; sulfur combustion; pilot-scale combustor | In oxy-coal combustion, an oxygen and carbon dioxide mixture, rather than air, is used to burn the coal. Many studies to date have focused on the formation of NOx under oxy-coal combustion conditions; however, the formation of sulfur species, particularly sulfur trioxide, is currently not a wellunde... |
| 186 |
 |
South Uinta Basin 12 core log - Plate 10 | 2014 | plate 10; well log; core log; Green River Formation | |
| 187 |
 |
STAR-CCM+ simulations of in-situ thermal treatment of oil shale | 2013-03 | in-situ thermal treatment; oil shale; shale oil/gas; oil shale formations | Presentation given at the STAR Global Conference on March 13, 2013. |
| 188 |
 |
Structural characterization of Green River oil shale core segments and the kerogen isolated from these segments | 2011-09-18 | structural characterization; Green River oil shale; oil shale core segments; kerogen; chemical structure of oil shale and kerogen; QEMScan | The goal is to obtain information about chemical structure of oil shale and its kerogen. This includes chemical characterization of the shale, the isolated kerogen, and the products of pyrolysis of both the shale and kerogen, and provides data for validation of modeling component of the project (lat... |
| 189 |
 |
SUB 12 XRF depth plots | 2014 | depth plots; South Uina Basin; SUB 12; Green River Formation | |
| 190 |
 |
Subtask 3.2: Flameless oxy-gas process heaters for efficient CO2 capture | 2011-03-11 | Oxy-gas process heaters; efficient CO2 capture; oxy-gas combustion | This is a presentation given at the Unconventional Fuels from Oil Shale and Oil Sands Project Review Meeting in March 10-11, 2011. |
| 191 |
 |
Subtask 4.3: Multiscale thermal processing of oil shale | 2011-03-10 | thermal processing; oil shale; oil shale treatment; thermal treatment | |
| 192 |
 |
Subtask 4.4: Effect of oil shale processing on water composition | 2011-03-10 | oil shale processing; water composition; unconventional fuels; oil shale; oil sands; oil shale development | A presentation at the Unconventional Fuels from Oil Shale and Oil Sands Project Review Meeting on March 10-11, 2011. The overall goal is to asses aquifers in the Uinta Basin to determine where saline water (produced along with conventional petroleum development) can be disposed without harming fresh... |
| 193 |
 |
Subtask 4.5: Pore scale analysis of oil shale/sands pyrolysis | 2011-03-10 | pore scale analysis; oil shale pyrolysis; oil sands pyrolysis; x-ray CT; pore network structure; flow simulation; LB method | A presentation given at the Unconventional Fuels from Oil Shale and Oil Sands Project Review Meeting on March 10-11, 2011. |
| 194 |
 |
Subtask 4.6: Kerogen/asphaltene/mineral matrix: Structure and interactions | 2011-03-10 | DOE review meeting; mineral matrix; recover organic material from oil shale/sands | A presentation given at the Unconventional Fuels from Oil Shale and Oil Sands Project Review Meeting on March 10-11, 2011. |
| 195 |
 |
Subtask 6.1: Engineering process models for economic impact analysis | 2011-03-10 | engineering process models; economic impact analysis; domestic heavy oil; developing domestic heavy oil/sands/shale resources | A presentation given at the Unconventional Fuels from Oil Shale and Oil Sands Project Review Meeting on March 10-11, 2011. In the project objectives, the purpose of assessment is to "Examine limiting factors to the development of domestic heavy oil, oil sands, and oil shale resources. Identify poli... |
| 196 |
 |
Unconventional Fuels Conference: Oil shale and oil sands development in the western U. S. - Agenda | 2013-05-07 | unconventional fuels; oil shale development; oil sands development; agenda | Presentation given at the 2013 Unconventional Fuels Conference. |
| 197 |
 |
Underground coal thermal treatment - Task 6 topical report, Utah Clean Coal Program | 2015-01 | transformational energy production; insitu thermal treatment of a coal seam; coal reserves; underground coal thermal treatment; Utah Clean Coal Program; coal resources | The long-term objective of this task is to develop a transformational energy production technology by in situ thermal treatment of a coal seam for the production of substitute natural gas and/or liquid transportation fuels while leaving much of the coal's carbon in the ground. This process converts ... |
| 198 |
 |
Underground coal thermal treatment research at the University of Utah | 2011-03-23 | underground coal; thermal treatment research; University of Utah; underground coal pyrolysis; SNG yeilds; UCTT | 6th Annual International Conference & Workshop on Underground Coal Gasification, 23rd - 24th March 2011 |
| 199 |
 |
University of Utah and Utah Geological Survey Green River coring project summary | 2015-07 | Green River coring project; Skyline 16; oil shale deposits; Green River Formation | The University of Utah's Institute for Clean and Secure Energy and the Utah Geological Survey teamed up to drill 1000 feet of 4-inch diameter core in the upper Green River Formation oil shale deposits in the eastern Uinta Basin, Utah. The purpose was to recover nearly the entire oil shale zone (Para... |
| 200 |
 |
Utah Clean Coal Center: Gasification research activities | 2009-09 | clean coal center; gasification research; UC3; gasification; low CO2 production; electric power from coal; entrained-flow gasification; simulation tools for coal gasifiers | The Utah Clean Coal Center (UC3) was established at the University of Utah through a cooperative agreement from the U.S. DOE / NETL. The center had five thrust areas critical for successful development of advanced technologies for power production from coal with minimal environmental impact. One of ... |