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Articles 1 - 19 of 19
Full-Text Articles in Engineering
Combining Data From Multiple Sources Using The Cuahsi Hydrologic Information System (Invited), David G. Tarboton, Daniel Ames, Jeffery S. Horsburgh, J. L. Goodall
Combining Data From Multiple Sources Using The Cuahsi Hydrologic Information System (Invited), David G. Tarboton, Daniel Ames, Jeffery S. Horsburgh, J. L. Goodall
Civil and Environmental Engineering Faculty Publications
The Consortium of Universities for the Advancement of Hydrologic Science, Inc. (CUAHSI) has developed a Hydrologic Information System (HIS) to provide better access to data by enabling the publication, cataloging, discovery, retrieval, and analysis of hydrologic data using web services. The CUAHSI HIS is an Internet based system comprised of hydrologic databases and servers connected through web services as well as software for data publication, discovery and access. The HIS metadata catalog lists close to 100 web services registered to provide data through this system, ranging from large federal agency data sets to experimental watersheds managed by University investigators. The …
Advancing Cyberinfrastructure To Support High Resolution Water Resources Modeling (Invited), David G. Tarboton, F. L. Ogden, N. Jones, Jeffery S. Horsburgh
Advancing Cyberinfrastructure To Support High Resolution Water Resources Modeling (Invited), David G. Tarboton, F. L. Ogden, N. Jones, Jeffery S. Horsburgh
Civil and Environmental Engineering Faculty Publications
Addressing the problem of how the availability and quality of water resources at large scales are sensitive to climate variability, watershed alterations and management activities requires computational resources that combine data from multiple sources and support integrated modeling. Related cyberinfrastructure challenges include: 1) how can we best structure data and computer models to address this scientific problem through the use of high-performance and data-intensive computing, and 2) how can we do this in a way that discipline scientists without extensive computational and algorithmic knowledge and experience can take advantage of advances in cyberinfrastructure? This presentation will describe a new system …
Impact Of Sampling Frequency On Annual Load Estimation Of Total Phosphorus And Total Suspended Solids, Amber Spackman Jones, Jeffery S. Horsburgh, David King Stevens, Nancy O. Mesner, Ronald J. Ryel
Impact Of Sampling Frequency On Annual Load Estimation Of Total Phosphorus And Total Suspended Solids, Amber Spackman Jones, Jeffery S. Horsburgh, David King Stevens, Nancy O. Mesner, Ronald J. Ryel
Civil and Environmental Engineering Faculty Publications
The determination of sediment and nutrient loads is typically based on the collection and analysis of grab samples. The frequency and regularity of traditional sampling may not provide representation of constituent loading, particularly in systems with flashy hydrology. At two sites in the Little Bear River, Utah, continuous, high-frequency turbidity was used with surrogate relationships to generate estimates of total phosphorus and total suspended solids concentrations, which were paired with discharge to estimate annual loads. The high frequency records were randomly subsampled to represent hourly, daily, weekly, and monthly sampling frequencies and to examine the effects of timing, and resulting …
Flow Measurement Accuracies Of In-Service Residential Water Meters, Devin M. Stoker, Steven L. Barfuss, Michael C. Johnson
Flow Measurement Accuracies Of In-Service Residential Water Meters, Devin M. Stoker, Steven L. Barfuss, Michael C. Johnson
Civil and Environmental Engineering Faculty Publications
Water utility managers generally agree that water meters, especially mechanical water meters, experience a degradation of accuracy over time. This degradation is a function of several factors, such as wear, water quality, water velocities, throughput volumes, and installation and handling. Both a thorough understanding of the factors that affect meter accuracy and the ability to pinpoint, if possible, the optimal lifespan of any particular type of water meter in a residential distribution system are desirable for improved system management. The purpose of this article was to investigate the relationship between meter accuracy degradation and factors such as age, wear, and …
An Examination Of The Sensitivity Of The Great Salt Lake To Changes In Inputs, Ibrahim Nourein Mohammed, David G. Tarboton
An Examination Of The Sensitivity Of The Great Salt Lake To Changes In Inputs, Ibrahim Nourein Mohammed, David G. Tarboton
Civil and Environmental Engineering Faculty Publications
The Great Salt Lake is a closed basin lake in which level and volume fluctuate due to differences between inflows and outflows. The only outflow is evaporation, which depends directly on lake area and salinity, both of which depend on lake volume. The lake’s level, volume, and area adjust to balance, on average, precipitation and streamflow inflows by evaporation. In this paper, we examine the sensitivity of lake volume changes to precipitation, streamflow, and evaporation and the interactions among these processes and lake area and salinity related to volume. A mass balance model is developed to generate representative realizations of …
Hydroshare: An Online, Collaborative Environment For The Sharing Of Hydrologic Data And Models, David G. Tarboton, R. Idaszak, Daniel Ames, Jeffery S. Horsburgh, J. Goodall, L. Band, V. Merwade, A. Couch, J. Arrigo, R. Hooper, D. Valentine
Hydroshare: An Online, Collaborative Environment For The Sharing Of Hydrologic Data And Models, David G. Tarboton, R. Idaszak, Daniel Ames, Jeffery S. Horsburgh, J. Goodall, L. Band, V. Merwade, A. Couch, J. Arrigo, R. Hooper, D. Valentine
Civil and Environmental Engineering Faculty Publications
No abstract provided.
Hydroshare: An Online, Collaborative Environment For The Sharing Of Hydrologic Data And Models, David G. Tarboton, R. Idaszak, Daniel Ames, J. Goodall, Jeffery S. Horsburgh, L. Band, V. Merwade, C. Song, A. Couch, D. Valentine, R. Hooper, J. Arrigo, D. Maidment, T. Whiteaker
Hydroshare: An Online, Collaborative Environment For The Sharing Of Hydrologic Data And Models, David G. Tarboton, R. Idaszak, Daniel Ames, J. Goodall, Jeffery S. Horsburgh, L. Band, V. Merwade, C. Song, A. Couch, D. Valentine, R. Hooper, J. Arrigo, D. Maidment, T. Whiteaker
Civil and Environmental Engineering Faculty Publications
No abstract provided.
Montana Flume Flow Corrections Under Submerged Flow, Ryan P. Willeitner, Steven L. Barfuss, Michael C. Johnson
Montana Flume Flow Corrections Under Submerged Flow, Ryan P. Willeitner, Steven L. Barfuss, Michael C. Johnson
Civil and Environmental Engineering Faculty Publications
A Montana flume is a Parshall flume without a diverging downstream section and is used to measure open channel flow. Under free-flow conditions, the Parshall flume and the Montana flume have the same calibration characteristics, but under submerge flows, their calibrations significantly differ. Tests were conducted at the Utah Water Research Laboratory on an acrylic 15.2-cm (6-in.) Montana flume to determine the effects of submergence on the flow readings. This type of investigation has not been previously analyzed. It was found that a standard Parshall flume rating curve overpredicted flow rates in the submerged Montana flume, up to 48%. Parshall …
Plants For Stormwater Pollution Removal: Greenhouse Research And Field-Study At Green Meadows Subdivision Logan, Ut, Ryan Dupont, Margie Rycewicz-Borecki
Plants For Stormwater Pollution Removal: Greenhouse Research And Field-Study At Green Meadows Subdivision Logan, Ut, Ryan Dupont, Margie Rycewicz-Borecki
Civil and Environmental Engineering Faculty Publications
Much of the stormwater protection in Cache Valley is done with respect to prevention of TSS contamination during construction activities. Preventing contamination of stormwater from construction activities is critical, but stormwater can still be highly polluted
Estimating And Verifying Household Potential To Conserve Water, Francisco J. Suero, Peter W. Mayer, David E. Rosenberg
Estimating And Verifying Household Potential To Conserve Water, Francisco J. Suero, Peter W. Mayer, David E. Rosenberg
Civil and Environmental Engineering Faculty Publications
Behavior and technological impacts on residential indoor water use and conservation efforts in the United States are identified. Preexisting detailed end-use data was collected before and after toilets, faucets, showerheads, and clothes washers were retrofitted in 96 owner-occupied, single-family households in Oakland, California; Seattle, Washington; and Tampa, Florida, between 2000 and 2003. Water volume, duration of use, and time of use were recorded and disaggregated by appliance for two weeks before and four weeks after appliances were retrofitted. For each appliance, observed differences in water use before and after retrofits are compared to water savings predicted by simple analytical, regression, …
Effects Of Particulates On Water Meter Accuracy Through Expected Life, B. Skyler Buck, Michael C. Johnson, Steven L. Barfuss
Effects Of Particulates On Water Meter Accuracy Through Expected Life, B. Skyler Buck, Michael C. Johnson, Steven L. Barfuss
Civil and Environmental Engineering Faculty Publications
Many factors can influence the accuracy of water meters, including age, throughput, water quality, and the presence of particulates in the metered water. These factors can affect various types of meters quite differently depending on the meter's design. This article examines the effects of particulates on various types of meters over their estimated life in a controlled environment. The intent of this study was to assess the effect of particulates on new meter performance and identify trends that may typify meter performance and longevity after being subjected to a slug of particulates. Oscillating-piston (displacement-piston) meters were most affected by a …
The Cuahsi Community Hydrologic Information System, David G. Tarboton, D. R. Maidment, I. Zaslavsky, Daniel Ames, J. L. Goodall, R. P. Hooper, Jeffery S. Horsburgh
The Cuahsi Community Hydrologic Information System, David G. Tarboton, D. R. Maidment, I. Zaslavsky, Daniel Ames, J. L. Goodall, R. P. Hooper, Jeffery S. Horsburgh
Civil and Environmental Engineering Faculty Publications
No abstract provided.
Papaya (Carica Papaya) Seed As A Low-Cost Sorbent For Zinc Removal, Siew-Teng Ong, Shiau-Ping Yip, Pei-Sin Keng, Siew-Ling Lee, Yung-Tse Hung
Papaya (Carica Papaya) Seed As A Low-Cost Sorbent For Zinc Removal, Siew-Teng Ong, Shiau-Ping Yip, Pei-Sin Keng, Siew-Ling Lee, Yung-Tse Hung
Civil and Environmental Engineering Faculty Publications
The potential of using papaya seed as a sorbent for the removal of Zn from aqueous solution was investigated. The sorption characteristics of the sorbent was studied under various experimental conditions, such as pH, contact time, concentration of Zn(II), agitation rate and sorbent’s particle size. The equilibrium data have been studied using Langmuir, Freundlich and Brunauer-Emmett-Teller equations. The best correlation was obtained using Langmuir isotherm with the regression coefficient value of 0.9799 and maximum sorption capacity of 19.88 mg/g. The effective pH for the maximum uptake of Zn(II) was at pH 5.0. An increase in percentage uptake of Zn(II) can …
Canopy Radiation Transmission For An Energy Balance Snowmelt Model, Vinod Mahat, David G. Tarboton
Canopy Radiation Transmission For An Energy Balance Snowmelt Model, Vinod Mahat, David G. Tarboton
Civil and Environmental Engineering Faculty Publications
To better estimate the radiation energy within and beneath the forest canopy for energy balance snowmelt models, a two stream radiation transfer model that explicitly accounts for canopy scattering, absorption and reflection was developed. Upward and downward radiation streams represented by two differential equations using a single path assumption were solved analytically to approximate the radiation transmitted through or reflected by the canopy with multiple scattering. This approximation results in an exponential decrease of radiation intensity with canopy depth, similar to Beer's law for a deep canopy. The solution for a finite canopy is obtained by applying recursive superposition of …
Simple Optimization Method To Determine Best Management Practices To Reduce Phosphorus Loading In Echo Reservoir, Utah, Omar Alminagorta, Bereket Tesfatsion, David E. Rosenberg, Bethany T. Neilson
Simple Optimization Method To Determine Best Management Practices To Reduce Phosphorus Loading In Echo Reservoir, Utah, Omar Alminagorta, Bereket Tesfatsion, David E. Rosenberg, Bethany T. Neilson
Civil and Environmental Engineering Faculty Publications
This study develops and applies a simple linear optimization program to identify cost effective Best Management Practices (BMPs) to reduce phosphorus loading to Echo Reservoir, Utah. The optimization program tests the feasibility of proposed Total Maximum Daily Load (TMDL) allocations based on potential BMP options and provides information regarding the spatial redistribution of loads among sub-watersheds. The current version of the TMDL for Echo reservoir allocates phosphorus loads to existing non-point phosphorus sources in different sub-watersheds to meet a specified total load. Optimization results show that it is feasible to implement BMPs for non-point sources in each sub-watershed to meet …
Interfacing Building Response With Human Behavior Under Seismic Events, Z. Liu, Mehdi Jalalpour, C. Jacques, S. Szyniszewski, J. Mitrani-Reiser, James K. Guest, T. Igusa, B. W. Schafer
Interfacing Building Response With Human Behavior Under Seismic Events, Z. Liu, Mehdi Jalalpour, C. Jacques, S. Szyniszewski, J. Mitrani-Reiser, James K. Guest, T. Igusa, B. W. Schafer
Civil and Environmental Engineering Faculty Publications
The goal of this paper is to model the interaction of humans with their built environment during and immediately following a natural disaster. The study uses finite element simulations to evaluate the response of buildings under input ground motions and agent-based dynamic modeling to model the subsequent evacuation of building occupants in the study area immediately following the seismic event. The structural model directly captures building damage and collapse, as well as floor accelerations and displacements to determine nonstructural damage, injuries and fatalities. The goal of this research is to make connections between building damage and occupant injuries, with geographic …
Structural Topology Optimization: Moving Beyond Linear Elastic Design Objectives, James K. Guest, Reza Lotfi, Andrew T. Gaynor, Mehdi Jalalpour
Structural Topology Optimization: Moving Beyond Linear Elastic Design Objectives, James K. Guest, Reza Lotfi, Andrew T. Gaynor, Mehdi Jalalpour
Civil and Environmental Engineering Faculty Publications
Topology optimization is a systematic, free-form approach to the design of structures. It simultaneously optimizes material quantities and system connectivity, enabling the discovery of new, high-performance structural concepts. While powerful, this design freedom has a tendency to produce solutions that are unrealizable or impractical from a structural engineering perspective. Examples include overly complex topologies that are expensive to construct and ultra-slender subsystems that may be overly susceptible to imperfections. This paper summarizes recent tools developed by the authors capable of mitigating these shortcomings through consideration of (1) constructability, (2) nonlinear mechanics, and (3) uncertainties.
Estimation Of Evapotranspiration And Water Budget Components Using Concurrent Soil Moisture And Water Table Monitoring, Mandana Rahgozar, Nirjhar Shah, Mark Ross
Estimation Of Evapotranspiration And Water Budget Components Using Concurrent Soil Moisture And Water Table Monitoring, Mandana Rahgozar, Nirjhar Shah, Mark Ross
Civil and Environmental Engineering Faculty Publications
Simultaneous measurements of soil moisture profiles and water table heads, along a flow path, were used to determine evapotranspiration (ET) along with other components of the water budget. The study was conducted at a small-scale (~0.8 Km2) hydrologic monitoring field site in Hillsborough County, Florida, from January 2002 to June 2004. Frequency Domain Reflectometry soil moisture probes, installed in close proximity to water table monitoring wells were used to derive changes in the soil water storage. A one-dimensional transect model was developed; changes in the soil water storage and water table observations served as input to determine all vertical and …
Optimizing Reservoir-Stream-Aquifer Interactions For Conjunctive Use And Hydropower Production, Hala Fayad, Richard C. Peralta, Ali Forghani
Optimizing Reservoir-Stream-Aquifer Interactions For Conjunctive Use And Hydropower Production, Hala Fayad, Richard C. Peralta, Ali Forghani
Civil and Environmental Engineering Faculty Publications
Conjunctive management of water resources involves coordinating use of surface water and groundwater resources. Very few simulation/optimization (S-O) models for stream-aquifer system management have included detailed interactions between groundwater, streams, and reservoir storage. This paper presents an S-O model doing that via artificial neural network simulators and genetic algorithm optimizer for multiobjective conjunctive water use problems. The model simultaneously addresses all significant flows including reservoir-stream-diversion-aquifer interactions in a more detailed manner than previous models. The model simultaneously maximizes total water provided and hydropower production. A penalty function implicitly poses constraints on state variables. The model effectively finds feasible optimal solutions …