|
|
Title | Date | Subject | Description |
101 |
|
Retreat notes: 2014 (UUSAC) | 2014 | University of Utah staff | Communication and selection. |
102 |
|
PTO accrual tables - for HR use only (UUSAC) | 2012-03-21 | Exempt staff; Non-exempt staff; Paid leave; University of Utah staff | PTO bucket holds vacation, sick, holiday, and personal preference. Employees at .75 - .99 FTE will accrue at a pro-rated amount (.75 FTE will receive 15, 17.5, and 20 hours per month according to service years). Employees at .50 to .74 FTE will accrue a flat amount of 6 days per year, or four hour... |
103 |
|
Paid time off (PTO) explanation (UUSAC) | | Paid time off; University of Utah employees | An outline explanation of paid time off for University of Utah employees, including: what is paid time off, converting time, sick leave, holidays and pay out option. Also included is a graph showing years of service and PTO. |
104 |
|
WHESA (UUSAC) | | | Membership list of WHESA. |
105 |
|
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. |
106 |
|
President notes (UUSAC) | | University of Utah employees | Notes on committee seats and things done by the president. |
107 |
|
Votes (UUSAC) | | | A list of the number of applicants and votes. |
108 |
|
University of Utah Staff Advisory Committee (UUSAC) 1995-96 Cathey Eckart Chair | 1996 | | |
109 |
|
University of Utah Staff Advisory Committee (UUSAC) 1996-1997 | 1997 | Year end report; University of Utah staff; University of Utah employees | Year end report of UUSAC activities, membership and other committee work. |
110 |
|
University of Utah Staff Advisory Committee (UUSAC) 1997-1998 | 1998 | | |
111 |
|
University of Utah Staff Advisory Committee 1993-1994 | 1994 | | |
112 |
|
University of Utah Staff Advisory Committee (UUSAC) By-laws Revision, 1996 | 1996-05-22 | By-laws; University of Utah employees; University of Utah staff | Revision of the UUSAC By-laws |
113 |
|
University of Utah Staff Advisory Committee (UUSAC) presidential staff awards, 1996 | 1996 | University of Utah awards; Staff guidelines; University of Utah employees; Presidential awards | This is the "bible" for the Presidential Staff Awards. Everything you need to know about the process is contained in this binder. Annually the chair of the nominating and selection committees should each file a report, noting problems, recommendations, ideas. Then, this binder should be passed to ne... |
114 |
|
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... |
115 |
|
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... |
116 |
|
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... |
117 |
|
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... |
118 |
|
Atomistic modeling of oil shale kerogens and asphaltene along with their interactions with the inorganic mineral matrix | 2011-04 | atomistic modeling; oil shale kerogens and asphaltene; inorganic mineral matrix | The goal of this project is to obtain and validate three dimensional atomistic models for the organic matter in both oil shales and oil sands. In the case of oil shales the modeling was completed for kerogen, the insoluble portion of the organic matter; for oil sands it was for asphaltenes, a class ... |
119 |
|
Underground coal thermal treatment - Task 6 topical report, Utah Clean Coal Program - Reporting Period: October 2009 - September 2011 | 2012-01-11 | SNG; substitute natural gas; coal pyrolysis; in-situ; underground coal thermal treatment; UCTT; Geochemists Workbench; GWB | The long-term objective of this work is to develop a transformational energy production technology by in-situ thermal treatment of a coal seam for the production of substitute natural gas (SNG) while leaving much of the coal's carbon in the ground. This process converts coal to a high-efficiency, lo... |
120 |
|
Uinta Basin tar sand deposits | 1990 | Uinta Basin; Tar sand deposits; Utah | This report addresses an important need to the State of Utah; to define, tabulate, and document an economic resource which has aroused the interest of industry and academia and which is vastly undeveloped and little understood as to its potential. The need for this report has grown since the last ta... |
121 |
|
U.S. tar sand oil forecasts (1985-1995) | 1979-11 | Domestic tar sands; Oil production forecast; United States; 1985-1995 | This Technical Report forecasts production of oil from domestic tar sands through 1995 under low, medium and high world oil price scenarios. It also includes background information such as the extent, nature, and location of tar sands in the United States, as well as the status of technology and a f... |
122 |
|
Oil shale heat-capacity relations and heats of pyrolysis and dehydration | 1987-05-06 | Green River shale; Enthalpy changes; Kerogen pyrolysis; Bound-water dehydration; Devonian shales | New relations are developed for calculating enthalpy changes during heating, retorting, or cooling of raw, spent, or burned oil shales of various compositions. The relations describe the sensible heats of the minerals, kerogen, and char, and the reaction heats of kerogen pyrolysis and bound-water de... |
123 |
|
Overburden map and thickness determinations, Sunnyside oil-impregnated sandstone deposit, Carbon and Duchesne Counties, Utah | 1986 | Oil-impregnated sandstone; Sunnyside deposits; Carbon County; Duchesne County; Utah | This investigation into the overburden and oil-impregnated sandstone thicknesses within the Sunnyside deposits, Carbon and Duchesne Counties, Utah is done under Contract No. YA-553-CT0-1059 between the Utah Geological and Mineral Survey and the U.S. Bureau of Land Management. |
124 |
|
Organic and pyritic sulfur determination in oil shale | 1983-03-01 | H2S; Pyritic sulfur; Oil shale; Kentucky; Ohio; Colorado; Utah; Wyoming; Oil shale deposits; Sulfur | Sulfur forms in oil shale are defined according to their reduction rates to H2S in the presence of hydrogen-donor solvents. A linear increase in temperature with time is applied to a reaction system of oil shale and hydrogen-donor solvents. The different temperatures at which H2S is detected corresp... |
125 |
|
Oil-impregnated sandstone mapping project Nine Mile Canyon area Carbon and Duchesne Counties, Utah: A field examination for the Utah Geological Survey | 1971-10-04 | Tributaries; Nine Mile canyon; Argyle canyon; Uinta Basin; Deltaic facies; Green River Formation; Parachute Creek | A reconnaissance survey of tributaries to Nine Mile and Argyle canyons in the southern Uinta Basin showed widespread but erratic distribution of oil-impregnated sandstones. The occurrences are mainly in the Deltaic facies of the Green River formation. The bituminous material is believed to have been... |