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Title | Creator | Description | Date |
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Hydrogen Fuel Cell Vehicle: ME 4010 Engineering Design 2 Final Report 2016 | Cuandon, Braulio, Hurlbut, Andrew, Landes, Chris, Mattison, Nate, Villata, Jeremy | | 2016 |
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Hydrogen Fuel Cell Vehicle Report 2017 | Cuandon, Braulio, Hurlbut, Andrew, Landes, Chris, Nattison, Nate, Villata, Jeremy | | 2017 |
3 |
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University of Utah LCA Hand Dryers Analysis Presentation Spring 2016 | Richardson, Avyette A., Hansen, Lauryn C. | | 2016 |
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Wasatch Experience Impact Summary | University of Utah Sustainability Office | | |
5 |
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Greening of Eccles Library: a Case Study | Le Ber, Jeanne M.; Gregory, Joan M. | Define greening and sustainability. Outline the issues for libraries. Describe the greening process at Eccles Library. Applying the Four R's. What does it take? The future. | 2001-10-26 |
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Modeling Temporal Variation in Externalities Related to Electricity Purchases for Buildings | Pleve, Kaden; Smith, Amanda D. | Presented at the Global Change and Sustainability Center Research Symposium | |
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Pilot study on how indoor environmental and physiological variables affect human thermal confort | Thomas, Jermy V.; Smith, Amanda D. | Poster presented at GCSC Research Symposium, 2019. | |
8 |
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How does climate change affect combined sewer overflow in a system benefiting from rainwater harvesting systems? | Tavakol-Davani, Hessam; Goharian, Erfan; Hansen, Carly H.; Tavakol-Davani, Hassan; Apul, Defne; Burian, Steven J. | Variability in precipitation caused by climate change can have a large impact on the performance of a water system, and therefore is an important input in hydrologic modeling. As part of a Long Term Control Plan, a model was developed in the US Storm Water Management Model based on data from the Cit... | 2017 |
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Evaluating the efficacy of regression and machine learning models to predict prehistoric land-use patterns | Yaworsky, Peter | Predictive modeling in archaeology is critical to making informed land management decisions and answering key anthropological research questions. However, archaeological predictive modeling su#30;ers from several theoretical, empirical, and analytical problems. To address these shortcomings, we buil... | 2019 |
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Results of the Great Salt Lake dust plume study (2016-2018) | Perry, Kevin; Crosman, Erik T.; Hoch, Sebastian W. | | 2019 |
11 |
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University of Utah Commuter Survey Report 2022 | | | |
12 |
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How to Cut the Cost of Accurate and Reliable Surface Level Atmospheric Observations by an Order of Magnitude | DeFord, Alexis | The building temperature energy monitoring system (BTEMS) project addresses the need for low-cost devices to measure ambient air temperature, humidity, and surface temperature. These sets of data are key in studying heat transfer between a building and its surroundings and in increasing the area ove... | |
13 |
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The History of Red butte Canyon | Heritahe Associates W. Dee Halverson | | 1995 |
14 |
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Air Quality Literacy: A Guide for the University of Utah | Global Change and Sustainability Center | The Air Quality Literacy document aims to inform the University of Utah community about air quality issues along the Wasatch Front and provide the community with knowledge about how to make positive changes around this issue. | 2014 |
15 |
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University of Utah Climate Resilience Assessment Matrix | Brunvand, Amy | | 2021 |
16 |
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The Red Butte Canyon Ozone Network: leveraging existing infrastructure to probe background concentrations, canyon flows and stratospheric oxidant exchange | Mitchell, Logan; Bares, Ryan; Trejo, Erica | The Salt Lake Valley (SLV) experiences frequent prolonged pollution episodes impacting the health of the ~1 million residents of the valley. These health effects include an array of respiratory and pulmonary problems, chiefly among susceptible populations and those participating in outdoor activitie... | 2021 |
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Energy and environmental stewardship initiative: 2010 climate action plan | Young, Michael K. | From the desk of President Michael K. Young: It has never been an easy task to meet the practical needs of the present without the risk of compromising our delicate relationship with the environment. The dramatic effects of climate on the world have forced us to reassess our way of living and com... | 2010 |
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Greening the library, greening the campus | Nichols, Karren E. | This poster provides an overview of various sustainability related projects implemented by the J. Willard Marriott Library as the result of the library's 2008 Green Task Force Report. | 2012 |
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Sustainability in the collection: an MLS student internship experience | Bullough, Emily E. | This poster provides an overview of a sustainability internship conducted at the Marriott Library from May to October 2012. Two library science students, Emily Bullough and Jessica Breiman, worked with two librarians and an English PhD student to develop a collection development policy for the subje... | 2013 |
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Green Team Flyer | Patterson, Ashley | A flyer advertising ways of greening a department on the University of Utah campus | 2011 |
21 |
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Full-scale composting financial feasibility study | Morris, Cindy | In June 2005, the University's trash audit estimated 720 tons of compostable food, which was 11% of the overall waste. This study investigated collection of this organic waste. The study focused on 3 areas, since 69% of the food waste came from these: the Heritage Center Cafeteria, the Student Union... | 2011-08 |
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2010 recycling and solid waste report | | A presentation of the 2010 recycling and solid waste report for the University of Utah. This presentation includes the accomplishments for the year as well as areas of improvement. | 2010 |
23 |
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University of Utah Green Teams | | Green Teams were started to help the University of Utah reach a goal of climate neutrality as soon as possible. | 2010 |
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Become a sustainable Ute! | | A brochure on becoming sustainable on the University of Utah campus. | 2011 |
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Sill center sustainability assessment: creating a template for future use on campus buildings | Gaines, Emily; Swanepoel, Will | In the United States, 80% of electricity consumption is by buildingsi. Nationwide, over 7 billion gallons of water is used each day for landscape irrigationii. The University of Utah main campus contains approximately 300 buildings on 1,500 acres of land. There is currently little data available reg... | |