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Articles 1 - 24 of 24
Full-Text Articles in Engineering
Effect Of Superhydrophobic Surface Microstructure On Transient Jet Impingement Cooling, D. Jacob Butterfield, John Morris
Effect Of Superhydrophobic Surface Microstructure On Transient Jet Impingement Cooling, D. Jacob Butterfield, John Morris
Utah Space Grant Consortium
Jet impingement is an effective method of rapid surface cooling, and is highly dependent on surface condition and properties. Here, silicon surfaces are modified by ion-etching different micropatterns (posts or holes) on one side and coated with Teflon to make them superhydrophobic (SH). The other side of the surface has a screen-printed resistance heater. Surfaces are heated to temperatures between 200 to 320 °C, and then impinged on by a pure water jet at room temperature with flow rates ranging from 6 to 18 mL/s. Results show that there is little effect of microstructure, although hole surfaces and shorter microstructures …
Assessing The Impact Of Drop Velocity And Spacing In Binder Jetting To Improve Printing In Novel Powders And New Environments, Trenton Colton
Assessing The Impact Of Drop Velocity And Spacing In Binder Jetting To Improve Printing In Novel Powders And New Environments, Trenton Colton
Utah Space Grant Consortium
Binder Jetting (BJ) is a low-cost Additive Manufacturing (AM) process that uses inkjet technology to selectively bind particles in a powder bed. The interaction of the binder droplets with the powder is essential to the process. This is a complex interaction in which picoliter-sized droplets impact powder beds at velocities of approximately 10 m/s. The binder partially fills the voids between the powders. The fraction of void space filled with binder is the saturation and is a key parameter in BJ. The effects of printing parameters such as droplet velocity, size, and spacing on saturation levels are unknown. This study …
An Examination Into The Defining Characteristics Of Flexible Solar Aircraft Configurations Through Optimization, Taylor Mcdonnell
An Examination Into The Defining Characteristics Of Flexible Solar Aircraft Configurations Through Optimization, Taylor Mcdonnell
Utah Space Grant Consortium
This paper examines the defining characteristics of various solar aircraft configurations through gradient-based multidisciplinary design optimization. We first present a general gradient-based solar aircraft optimization framework which accounts for nonlinear aeroelastic effects resulting from structural flexibility. We then apply this framework to several discrete SR-HALE aircraft geometric, structural, and propulsion system configuration choices to determine the defining characteristics of each configuration choice.
Comparison Of Wake Expansion Methods For Use In Wake Expansion Continuation Optimization, Jared J. Thomas
Comparison Of Wake Expansion Methods For Use In Wake Expansion Continuation Optimization, Jared J. Thomas
Utah Space Grant Consortium
This paper presents a comparison of three methods for expanding the wake for use with wake expansion continuation (WEC) optimization. A process related to continuation optimization methods for reducing multi-modality in the wind farm layout optimization problem. A reduction in multi-modality is achieved by starting with an increased wake spread, while maintaining normal velocity deficits at the center of the wakes, and then reducing the wake spread for each of a series of optimization runs until the standard wake spread is used. Three wake expansion methods were tested: (1) increasing the wake expansion angle, (2) multiplying the wake diameter, and …
Model Reference Predictive Adaptive Control For Large Scale Soft Robots, Phillip Hyatt, Curtis Johnson
Model Reference Predictive Adaptive Control For Large Scale Soft Robots, Phillip Hyatt, Curtis Johnson
Utah Space Grant Consortium
Past work has shown Model Predictive Control (MPC) to be an effective strategy for controlling continuum joint soft robots using rudimentary models, however the in-accuracies of these models often mean that an integration scheme must be combined with MPC. Presented in this work is a novel dynamic model formulation for continuum joint soft robots which is more accurate than the authors’ previous models yet remains fast enough for MPC. This model is based on the Piecewise Constant Curvature (PCC) assumption and a relatively new configuration representation and allows for computationally efficient simulation. Due to the difficulty in determining model parameters …
Influence Of Electrode Height On Carbon Nanotube Electrochemical Biosensors, Benjamin J. Brownlee
Influence Of Electrode Height On Carbon Nanotube Electrochemical Biosensors, Benjamin J. Brownlee
Utah Space Grant Consortium
High sensitivity of electrochemical sensors enables the detection of low concentrations of target analyte. Being able to quickly and accurately detect low concentrations of proteins at point-of-care allows for results to be analyzed more easily and effectively. Having high surface area allows for more analyte to be detected, possibly leading to increased sensitivity. Vertically-aligned carbon nanotubes (VACNTs) were patterned into interdigitated electrodes (IDEs) and then functionalized with the representative protein streptavidin to demonstrate sensing of biotin. Three electrode heights were investigated to determine the influence of electrode height on sensor sensitivity. Cyclic voltammetry and electrochemical impedance spectroscopy were used to …
Evolutionary Nonlinear Model Predictive Control On A Fixed-Wing And Multirotor, Jaron Ellingson, Matthew Haskell
Evolutionary Nonlinear Model Predictive Control On A Fixed-Wing And Multirotor, Jaron Ellingson, Matthew Haskell
Utah Space Grant Consortium
Real-time model predictive control (MPC) is limited to short time horizons and linear systems because the optimization complexity is too large with long time horizons and nonlinear systems. For this reason, MPC is typically accomplished using linearized models and convex optimization solvers. We seek to explore evolutionary algorithms allowing for nonlinear models and constraints, non-convex costs, and extended time horizons.
Our contributions include extending nonlinear evolutionary MPC to flight vehicles, fixed-wing and multirotor UAVs, as well as enhancing the evolutionary algorithm. We also intend to parameterize the design space of the optimization to reduce solve times. These contributions validate the …
Aerodynamic Interactions Of Synchronized Propellers, Nathan Welker, Samuel Johnson
Aerodynamic Interactions Of Synchronized Propellers, Nathan Welker, Samuel Johnson
Utah Space Grant Consortium
Emerging advances in electric-propulsion technology are enabling aircraft to use distributed electric propulsion (DEP) to increase efficiency and maneuverability. Distributed electric propulsion can also provide unique take-off and landing abilities which are not commonly found on traditional aircraft. The implementation of DEP effectively decreases the spacing between propellers, introducing complex aerodynamic interactions that are not well understood. This study aims to obtain experimental measurements of the flow fields of synchronized propellers at close-proximity in a side-by-side configuration using particle image velocimetry (PIV) in a wind tunnel. The results of this work will be focused on identifying the impact closely-spaced propellers …
Monte-Carlo Methods And The Step-Back Kalman Filter For Orbital State Estimation, Louis Tonc
Monte-Carlo Methods And The Step-Back Kalman Filter For Orbital State Estimation, Louis Tonc
Utah Space Grant Consortium
This research assesses the performance of filtering schemes for tracking uncooperative satellites through space-based optical measurements, and identifies a simple and numerically stable methodology that ameliorates the poor performance of standard filtering schemes at a substantially reduced cost in comparison to nonlinear particle filter-based remedies. Traditional filtering schemes, such as the extended Kalman filter (EKF) and unscented Kalman filter (UKF), both diverge when tracking a resident space object (RSO) in geosynchronous orbit (GEO) when there is a long time duration between measurements. This divergence is identified as a consequence of nonlinearity in the dynamics and nonlinearity in the optical measurements, …
Ensuring Extramobile And Intramobile Motion On Cylindrical Developable Mechanisms, Jared Butler
Ensuring Extramobile And Intramobile Motion On Cylindrical Developable Mechanisms, Jared Butler
Utah Space Grant Consortium
Developable mechanisms offer the ability to deploy to perform tasks then return to a hidden position along or interior to a predetermined developable surface. It is often advantageous for these mechanisms to not penetrate the surface along which they conform. This paper presents the limits of extramobile and intramobile motion (motion exterior to and interior to a developable surface). Three conditions are identified that determine a limit of extramobile and intramobile behavior. It is shown that the more difficult of these conditions to predict is never reached prior to the more simple cases. This is demonstrated for all possible Grashof …
A97 Electrostatic Precipitator (Esp) Waste Elimination, Brian Acosta, Alyssa Young, Austin Straw
A97 Electrostatic Precipitator (Esp) Waste Elimination, Brian Acosta, Alyssa Young, Austin Straw
Scholar Week 2016 - present
This project focuses on the development of a waste elimination system. the Kankakee BASF site produces a waste known as acid ester waste through their air pollution system in area 97; this waste is highly corrosive and is causing damage to their process sewer. A waste elimination system had to be developed in order to remove the acid ester was from the process sewer without compromising the operation of the BASF Kankakee site.
Olivet Robotics, Caroline Orndorff, Allann Davidson, Jared Haworth, Nicholas Mills
Olivet Robotics, Caroline Orndorff, Allann Davidson, Jared Haworth, Nicholas Mills
Scholar Week 2016 - present
The VEX Robotics Competition is a challenging event series for elementary to university students. Each year, VEX creates thought provoking games with goals that must be accomplished via robotics. The question ONU Robotics Team must answer is “how can one create the most effective strategies in order to win?” during the 2019-2020 Tower Takeover Game. The ONU Robotics Senior Design Team (ORSeT) will work to answer this question with principles from Electrical Engineering, Mechanical Engineering, and Computer Science. ORSeT will use this opportunity to not only create a winning robot, but also to challenge team members’ creative abilities and engineering …
Fish Farming Aerator, Kylie Johnson, Therese Rosalez, Jordan Hendricker, Ryan Froidcoeur
Fish Farming Aerator, Kylie Johnson, Therese Rosalez, Jordan Hendricker, Ryan Froidcoeur
Scholar Week 2016 - present
Designing, building and installing a functional and efficient aerator prototype suitable for small pond intensive aquaculture use in El Faro, Guatemala. The project’s purpose is to provide a solution for farming tilapia. A successful project outcome will help impoverished families to raise tilapia for food and income The team will install the aeration system on-site in El Faro, Guatemala.
Nucor Steel Storage Rack Design, Mac Hanson, Hannah Cataldo, Jason Ziganto, Robert Wozek
Nucor Steel Storage Rack Design, Mac Hanson, Hannah Cataldo, Jason Ziganto, Robert Wozek
Scholar Week 2016 - present
The goal of this design project was to build effective steel storage racks for Nucor Steel Kankakee. The important criteria that the design team needed to meet was that the rack was adjustable, could fit all of the manufactured products that Nucor makes, and could fit various lengths of product. Nucor needs a new rack system because their current process makes the shipping process very inefficient.
Basic Utilities Vehicle (Buv) Milk Transportation, Brian D. Reynolds, Sean Patrick Bayless Galligar, Emmitt Hanner, Joshua T. Pitts
Basic Utilities Vehicle (Buv) Milk Transportation, Brian D. Reynolds, Sean Patrick Bayless Galligar, Emmitt Hanner, Joshua T. Pitts
Scholar Week 2016 - present
In developing countries, a need exists for the transportation of raw foods to communities without spoilage. Traditional methods of transporting goods don’t meet the needs of the consumer, and often times food is wasted due to the harsh climate and time constraints. Food often becomes salvage under the heat, causing a hurt to the profitability of vendors and family needs for fresh produce. In particular milk transportation has become difficult, due to the lack of cold storage in standard transit. As a response to the need for affordable raw food transport, our sponsor Basic Utilities Vehicle (BUV) has tasked us …
Sae Baja Drivetrain, Troy Von Gillern, Kaitlyn Elmer, Nathan Tabor
Sae Baja Drivetrain, Troy Von Gillern, Kaitlyn Elmer, Nathan Tabor
Scholar Week 2016 - present
A project to optimize the drivetrain on the ONU SAE Baja Team vehicle.
Angle-Iron Feed Measuring Device, Jason Robertson, Alex Welling, Jacob Burns
Angle-Iron Feed Measuring Device, Jason Robertson, Alex Welling, Jacob Burns
Scholar Week 2016 - present
Steel and iron are the building blocks with which we construct our world. From buildings to machines to transportation the use of these materials can be found in all aspects of life. In their crude form they do not have much use, so manufacturers standardize various shapes and sizes to create usable resources. These include bars, rods, beams, sheet, and angle iron. The team made up of three engineering students Jake Burns, Jason Robertson, and Alex Welling is working with a company called Peddinghaus. Peddinghaus produces equipment and machines to process steel and iron in their standard forms, such as …
Itw Deltar Model Factory, Bri Hollowell, Tyler Rogers, Jake Klingelsmith
Itw Deltar Model Factory, Bri Hollowell, Tyler Rogers, Jake Klingelsmith
Scholar Week 2016 - present
The project given to the design team was a request from ITW Deltar to improve their packaging system for some production machines in cell C. The primary goal of the project is to optimize the safety and workflow of the packaging systems in cell C. The safety of the packaging system will be determined using the REBA risk assessment number. The workflow improvement is determined through analysis of the packaging time and the walking distances of the workers.
The design team identified the functional requirements and design constraints that need to be met. These functional requirements include the packaging system …
Olivet Nazarene University Telescope Vibration, Jake Butterfield, Kamil Michorczyk, Nathan Eckerle
Olivet Nazarene University Telescope Vibration, Jake Butterfield, Kamil Michorczyk, Nathan Eckerle
Scholar Week 2016 - present
Our project entails the use of vibration analysis to come up with a solution to the vibrational issues the ONU Telescope on top of Reed Hall of Science is currently experiencing. In its current state, the telescope produces images that are shaky and unclear; thus, rendering it useless for its intended research purposes. This shaky image is a result of excessive vibrations on and around the telescope. Within this project we diagnosed the source of the vibrations, brainstormed different design possibilities, chose the best one that is most feasible and meets the client’s needs, and proposed a detailed final design …
Reverse Osmosis; Addressing Freshwater Shortage With Sustainable Desalination, Jessica Savage
Reverse Osmosis; Addressing Freshwater Shortage With Sustainable Desalination, Jessica Savage
Sustainability Conference
Water security is an imperative part of high-functioning societies. Currently, large populations of the globe live in water-impoverished or water-stressed areas. With climate change and growing global populations, projections show more people being impacted by issues of water shortage.
One solution to water security is the implementation of desalination, specifically with reverse osmosis systems. This presentation walks through the history, capabilities, future work, and explanations on how reverse osmosis systems work. With continued research on improving desalination, communities in both developed and developing nations around the world can work towards total water security.
Solar District Cup Competition, Qi Jiang, Kristen A. Holman, Benjamin F. Aulenbab, Adi Alharbi, Chenge Liu
Solar District Cup Competition, Qi Jiang, Kristen A. Holman, Benjamin F. Aulenbab, Adi Alharbi, Chenge Liu
Sustainability Conference
The Solar District Cup is a two-semester design competition sponsored by the U.S. Dept. of Energy in which teams from across the nation compete to design the most efficient and cost effective solar plus storage system for a unique district case. The Embry Riddle team was tasked with designing such a system for New Mexico State University in Las Cruses, NM.
Residential Thermal Storage And Cooling, Joao Marcelo Rocha Belmonte, Jacob Anderson, Andrew Clarke, Daphne Forester, Bianca Hardtke, Josh Hartman, Marc D. Compere
Residential Thermal Storage And Cooling, Joao Marcelo Rocha Belmonte, Jacob Anderson, Andrew Clarke, Daphne Forester, Bianca Hardtke, Josh Hartman, Marc D. Compere
Sustainability Conference
No abstract provided.
Adaptable Clean Energy Laboratory, Joao Marcelo Rocha Belmonte, Marc D. Compere
Adaptable Clean Energy Laboratory, Joao Marcelo Rocha Belmonte, Marc D. Compere
Sustainability Conference
The Adaptable Clean Energy (ACE) Lab is a real-world, long term, test platform that will guide the courses of the Energy Systems track. The lab will provide realistic electrical and HVAC loads that mimic a solar powered office. The lab is a 20’ high cube shipping container modified with a door, windows, lights computers, air conditioner and appliances. The lab is Net-Zero and powered entirely from the sun. Two insulation test sections expose the exterior walls for research access to real external heat loads in a real building
Solar Powered Parking Lot Lights, Jordyn Taylor
Solar Powered Parking Lot Lights, Jordyn Taylor
Sustainability Conference
Solar energy is a renewable resource growing exponentially around the country over the past few decades. Solar energy works through the use of photo-voltaic cells, which work to convert energy from sunlight into electricity. This is done within solar panels, which are then connected to batteries for energy storage to use as needed. As production has increased over past decades, the cost for solar panel hardware and installment has thus fallen to meet consumer need. While most common implementations include solar panels attached to one’s home or solar panel ‘fields’ for charging entire towns, there has been a steady rise …