|
|
Title | Date | Subject | Description |
126 |
|
Bitumen extraction and treatment and reuse of process water | 2009-04-13 | bitumen extraction; bitumen treatment; reuse of process water; produced water; crude oil production; gas production; pressure-assisted ozonation technology; oil removal from water; wastewater treatment; hydrocarbon removal | Produced water from gas and crude oil production is voluminous, requiring extensive treatment before it can be safely discharged or reused. This project has used a newly developed pressure-assisted ozonation technology to remove oil from water and prevent oil sheen at the water surface. The new proc... |
127 |
|
On-line, mass spectrometric determination of ammonia from oil shale pyrolysis using isobutane chemical ionization | 1988-03 | | Ammonia is the predominant nitrogen-containing species formed during the pyrolysis of oil shale. An on-line method of determining ammonia was developed to study kinetics and chemistry of formation and evolution. While fragmentation of water interferes with electron ionization mass spectrometry, chem... |
128 |
|
2012 Unconventional fuels conference introduction | 2012-05-15 | unconventional fuels; computational simulation and pilot-scale experiment; unconventional resources; emissions minimization; CO2 regulation; CO2 coal research | Presentation given at the 2012 Unconventional Fuels Conference. |
129 |
|
Policy analysis of the Canadian oil sands experience | 2011-03-10 | policy analysis; Canadian oil sands experience; oil sands; federal oil sands resources; oil sands development; unconventional fuels | The presentation goes over analyzing the relevance of the Canadian experience to U. S. oil sands development. This report focuses on federal oil sands resources, specifically potential development in the STSA's. No Current development on federal lands, despite leasing authorization under the Combine... |
130 |
|
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. |
131 |
|
Wild lands and wilderness - Implications for Utah's unconventional fuels industry | 2011-05-17 | unconventional fuels industry; order 3310; maintain wilderness resource inventories; BLM; FLPMA; land management | Presentation given at the 2011 Unconventional Fuels Conference. |
132 |
|
2011 Unconventional Fuels Conference - Welcome/opening remarks | 2011-05-17 | unconventional fuels; opening remarks; coal; oil shale; power generation; transportational fuel infrastructures; carbon capture; agenda | Presentation given at the 2011 University of Utah Unconventional Fuels Conference. |
133 |
|
On solar thermal processing and retorting of oil shale | 1988-05 | | The general concept and a recent paper on solar oil shale retorting are critically reviewed. It is concluded that a recent paper by Berber and Fletcher (Energy 13. 13, 1988) contains erroneously high oil yields and provides no new valid information related to solar oil shale process design or econom... |
134 |
|
Oil shale retorting in dense phase hot-solid recycle systems | 1988-06 | | Oil shale processing remains primitive despite more that a century of study and development. To expand the industry in China, and to develop an industry in the U.S.A., more efficient, environmentally acceptable oil shale retorting schemes are required. Rapid pyrolysis, solid-recycle retorts offer hi... |
135 |
|
Oil shale retorting processes: A technical overview | 1984-03 | | The challenge facing the oil shale industry is to devise a simple and efficient retorting process that operates at low cost. This will require a thorough understanding of the important physical and chemical processes that occur during retorting, mathematical modeling to analyze the complex interacti... |
136 |
|
Oil vapor coking kinetics over oxidized Colorado oil shale | 1991-10-22 | | A model for coking of shale oil vapors over porous oxidized recycle shale has been derived. This model includes mass transfer of the oil vapor through the gas film surrounding the shale particles with countercurrent flow of cracked low-molecular weight products, diffusion through the pore system, ad... |
137 |
|
Asphalt Wash 1 (U086) - Plate 9 | 2014 | Green River Formation; well log; core log; Asphalt Wash 1; plate 9 | |
138 |
|
Coyote Wash 1 Plate 5 | 2014 | Coyote Wash; plate 5; well log; core log; Green River formation | |
139 |
|
Red Wash 1 (U045) - Plate 8 | 2014 | plate 8; Red Wash 1; well log; core log; Green River Formation | |
140 |
|
Skyline 16 - Plate 7 | 2014 | well log; core log; Skyline 16; plate 7; Green River Formation | |
141 |
|
P4 Plate 6 | 2014 | well log; core log; plate 6; P4; White River Shale Project; Green River Formation | |
142 |
|
XRF data archive All cores | 2014 | dataset; all cores; XRF data | |
143 |
|
XRF cross plots all cores | 2014 | core plot; cross plots; XRF | |
144 |
|
West-East core-based cross section through the middle to upper Green River formation, Uinta Basin, Utah - Plate 1 | 2014 | well log; well log cross section; economic oil shale; Mahogany zone; Green River Formation | Conclusions/observations from west-east cross section: The top of economic oil shale was picked at the top of the lower R-8 zone (top of the Big Three rich oil shale beds). This zone was selected to avoid the abundant saline minerals found in the overlaying saline zone, which often contains high-TDS... |
145 |
|
SUB 12 XRF depth plots | 2014 | depth plots; South Uina Basin; SUB 12; Green River Formation | |
146 |
|
South Uinta Basin 12 core log - Plate 10 | 2014 | plate 10; well log; core log; Green River Formation | |
147 |
|
EX-1 Plate 3 | 2014 | plate 3; well log; Green River Formation; core log | |
148 |
|
Utah State 1 - Plate 4 | 2014 | oil yeild; Green River Formation; well log; core log | |
149 |
|
Redwash 1 XRF depth plots | 2014 | depth plots; Green River Formation; XRF | |
150 |
|
Asphalt Wash 1 XRF depth plots | 2014 | Asphalt Wash; depth plots | |