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Articles 1 - 30 of 33
Full-Text Articles in Engineering
Noise Threshold And Normalization By Contrast Parameter For Atomization During Droplet Impingement, Alexander White, Julie Crockett
Noise Threshold And Normalization By Contrast Parameter For Atomization During Droplet Impingement, Alexander White, Julie Crockett
Journal of Undergraduate Research
The purpose of this report is to remind the reader of goals initially set in conjunction with the original ORCA Grant project proposal in October 2017, to discuss logistical difficulties in carrying out the original project and subsequent adjustments in scope and topic of work, to represent efforts toward obtaining results during the grant period, and to comment on the implications of the study for future research and the award’s impact on its recipient’s future.
Gas Detection System For Biomass Cookstove Emissions, Jeffery Smith, Cyera Bishop, Matthew Jones
Gas Detection System For Biomass Cookstove Emissions, Jeffery Smith, Cyera Bishop, Matthew Jones
Journal of Undergraduate Research
The purpose of this research project was to explore Peruvian social and cultural behaviors that typically prevent successful improved cookstove adoption in resource-limited settings as well as suggest ways to educate locals about the benefits of improved cookstoves. This will be done by a BYU Global Engineering Outreach (GEO) team, including ORCA recipients Cyera Bishop and Jeffery Smith, constructing a cost-effective, easy-to-use gas detection sensor system capable of measuring concentrations of harmful gases released from biomass cookstoves typically found in Peruvian communities.
Proof-Of-Concept Tremor Suppression Sleeve For Essential Tremor Patients, S. Adam Stringham, Dr. Steven K. Clarles
Proof-Of-Concept Tremor Suppression Sleeve For Essential Tremor Patients, S. Adam Stringham, Dr. Steven K. Clarles
Journal of Undergraduate Research
Essential Tremor (ET) is among the most common movement disorders. It is characterized by involuntary, rhythmic movement in the body, most often in the hands or head. The primary treatment options include deep brain surgery and/or medication, both of which can cause undesired side effects. The Neuromechanics Research Group at BYU is investigating alternative treatments by studying the effect of low-level electrical stimulation of affected extrinsic hand muscles on tremor in ET patients. While the research may prove promising, there are still several obstacles to overcome for this approach to be practical. To apply electrical stimulation, self-adhesive electrodes are placed …
Product Design For Children With Limb Defects, Cecilee Petersen, Richard Fry
Product Design For Children With Limb Defects, Cecilee Petersen, Richard Fry
Journal of Undergraduate Research
Congenital Limb Deficiency (CLD) occurs when a fetus’s upper or lower limbs do not form completely during pregnancy. This project analyzes how girls aged seven to thirteen years with upper-limb CLD adjust to daily tasks and supports the design of a mechanism to help them perform a specific activity independently. Early research became the foundation for a case study of an eight-year old girl named Ava. Ava was born with only one elbow-length cleft hand on her right side and one finger connected to her left shoulder joint . She learns to use her “nubs” effectively for most tasks, such …
Does Hypochlorous Acid Accelerate The Degradation Of Absorbable Sutures, Stephen Pinnock, Anton Bowden
Does Hypochlorous Acid Accelerate The Degradation Of Absorbable Sutures, Stephen Pinnock, Anton Bowden
Journal of Undergraduate Research
Patients who undergo surgery may experience infection in the surgical site due to bacteria with a biofilm phenotype. This biofilm can render the bacteria resilient to standard antibiotics and the wound must be disinfected with an antimicrobial solution. Hypochlorous acid (HOCl) is a commonly used surgical antimicrobial used to disinfect these surgical sites. However, there is uncertainty as to whether the HOCl affects the stiffness and strength of the remaining sutures. These sutures are typically absorbable and need to maintain their integrity for the wound to heal properly. The purpose of this mentored research was to determine the effects of …
Impact Of Micro- And Nano-Structured Surfaces On Condensation Heat Transfer Effectiveness, D. Jacob Butterfield, Dr. Brian Iverson
Impact Of Micro- And Nano-Structured Surfaces On Condensation Heat Transfer Effectiveness, D. Jacob Butterfield, Dr. Brian Iverson
Journal of Undergraduate Research
This paper reports observations from condensation heat transfer tests performed on superhydrophobic (water-repelling) surfaces. Condensation is used in heat transfer applications ranging from industrial power generation to desalination. Superhydrophobic surfaces have been discovered to increase the effectiveness of this heat transfer process by increasing water droplet mobility. This project was concerned with quantifying the ability of superhydrophobic surfaces to increase the rate of heat transfer, thus making the processes condensation is used in potentially much more efficient.
Passive Cubesat Probes For Affordable, Low-Risk Inspection Of Space Vehicles, Josh Cannon, Brian Iverson
Passive Cubesat Probes For Affordable, Low-Risk Inspection Of Space Vehicles, Josh Cannon, Brian Iverson
Journal of Undergraduate Research
Effective fault detection is vital for safe and reliable spacecraft performance. Traditionally, developers have relied almost exclusively on on-board instrumentation to detect faults in spacecraft performance. Remote inspection can provide a holistic complement to on-board instrumentation, but it is seldom incorporated into spacecraft missions due to its cost and risk. As a result, multiple spacecraft have been lost due to unchecked faults in areas without instrumentation.
Secondary Atomization During Droplet Impingement Of Water-Glycerol Admixtures On Heated Superhydrophobic Surfaces, Alexander White, Dr. Julie Crockett
Secondary Atomization During Droplet Impingement Of Water-Glycerol Admixtures On Heated Superhydrophobic Surfaces, Alexander White, Dr. Julie Crockett
Journal of Undergraduate Research
The purpose of the given document is to remind the reader of goals initially set in conjunction with the ORCA Grant project proposal in October 2016, to present experimental findings obtained during the grant period, and to discuss the results of the work and their implications for future investigations. As stated in the proposal, the main purpose of this ORCA project was to compare the droplet atomization (expulsion of a fine spray) of various water-glycerol mixtures upon impact on superheated, superhydrophobic surfaces. The major goal to that end was to use a certain unique experimental procedure in quantifying the data …
Functional Optimization Of Carbon Nanotubes, Taylor Davis, Sr. Brian Iverson
Functional Optimization Of Carbon Nanotubes, Taylor Davis, Sr. Brian Iverson
Journal of Undergraduate Research
The objective of this project was to create, characterize, and optimize carbon nanotube (CNT) films as a surface functionalization strategy through modifying the growth, infiltration, and patterning during fabrication.
Carbon nanotubes have drawn attention in various disciplines in the scientific community because of their incredible strength, hardness, wettability (hydrophobicity), as well as their kinetic and electrical properties. At BYU specifically, they are being used in diverse applications including fabrication of superhydrophobic surfaces and interdigitated electrode biosensors.
Carbon nanotubes can be delicate with a diameter of only a few nanometers when grown. However, the process of carbon infiltration can be used …
Estimating Joint Configuration For Soft Robots, Jacob Olson, Dr. Marc Killpack
Estimating Joint Configuration For Soft Robots, Jacob Olson, Dr. Marc Killpack
Journal of Undergraduate Research
Soft robotics are still a relatively new technology. As seen in Figure 1, they are made entirely from compliant materials that use pressurized fluid for both structure and actuation. These robots have great potential in the world of robotics. Soft robots can excel in many areas where rigid robots fall short due to their incredible compliance and low inertia. As soft robotic technologies develop, robots will be much less limited in the scope of what they can do without risk of human injury. They will be able to do tasks working more closely with humans in current industries, and be …
Static And Dynamic Obstacle Avoidance For Small Uav, Michael Farrell, Dr. Tim Mclain
Static And Dynamic Obstacle Avoidance For Small Uav, Michael Farrell, Dr. Tim Mclain
Journal of Undergraduate Research
Unmanned aerial vehicles (UAV) are becoming increasingly prevalent in society today. One of the most important problems for such vehicles is obstacle avoidance. Common applications for small UAV require them to navigate through an environment containing many obstacles, both static and dynamic. As part of the 2017 SUAS-AUVSI undergraduate competition, this common problem was simulated with several virtual stationary and moving objects that were to be avoided during flight. The purpose of this research project was to develop a robust obstacle avoidance algorithm to be demonstrated during the mission demonstration of the 2017 SUAS-AUVSI competition.
Sunflowers, Solar Panels, And Beeswax: Improving Solar Power For The Developing World, Ivyann Oveson Running, Dr. John Salmon
Sunflowers, Solar Panels, And Beeswax: Improving Solar Power For The Developing World, Ivyann Oveson Running, Dr. John Salmon
Journal of Undergraduate Research
Inspired by the mechanics of how sunflowers follow the sun, we designed a system to increase output from solar panels by only using simple mechanics and beeswax. Solar power is becoming increasingly popular even in developing countries. We wanted to create a way to increase the power output of solar panels in such areas that lack technical support for current panel rotating mechanisms. When temperatures increase, beeswax expands, and we harness the motion by filling a piston with the beeswax. We use this motion to cause solar panels to turn, following the sun throughout the day and increasing electrical output.
Refining Statistical Magnesium Models Via Machine Learning, Andrew Orme, Dr. David Fullwood
Refining Statistical Magnesium Models Via Machine Learning, Andrew Orme, Dr. David Fullwood
Journal of Undergraduate Research
Magnesium is a potential replacement for steels and aluminum in strength applications. Despite desirable strength and weight properties, magnesium is costly to manufacture. To reduce manufacturing costs, extensive research has been done on is a phenomenon called twinning, where a large group of magnesium atoms collectively reorient from a base orientation to a new orientation. This reorientation caused by twinning has the potential to enable easier material deformation, allowing for less costly manufacturing. Our research group pursued a novel approach to twinning research by using data mining and machine learning algorithms. Data collected from samples of magnesium using a scanning …
Rigidly Foldable Origami Flashers Based On Curved-Fold Model, Jacob Badger, Dr. Larry Howell
Rigidly Foldable Origami Flashers Based On Curved-Fold Model, Jacob Badger, Dr. Larry Howell
Journal of Undergraduate Research
The purpose of my research was to explore the application of curved folding in designing rigid-foldable deployable mechanisms. In recent years, origami fold patterns known as “flashers” have been investigated for their ability to efficiently pack deployable surfaces. While many patterns have been investigated, none are capable of folding surfaces composed of rigid panels that bend only along crease lines. We hoped to identify one such rigid-foldable flasher by basing it on a curved-fold pattern known as a logarithmic spiral flasher.
Carbon Nanotube Filtration Device: Separating Oil From Fracking Waste, Phillip Ng, Dr. Anton Bowden
Carbon Nanotube Filtration Device: Separating Oil From Fracking Waste, Phillip Ng, Dr. Anton Bowden
Journal of Undergraduate Research
Pyrolytic Carbon Infiltration Carbon Nanotubes (CI-CNTs) can isolate water and oil molecules due to its superhydrophobic and oleophilic properties, unique cylindrical nanostructure, and functional groups1. Because the waste produced from fracking is nonreusable due to the molecular oil droplets contained in it, the waste is typically injected back underground, which pollutes safe drinking water2. This can be avoided with an inexpensive and efficient oil and water filter. The mentored research project revolved around a CI-CNT filter used to salvage waste created from fracking.
The design of a CI-CNT device was approached by three main considerations: a …
Gas Detection System For Biomass Cookstove Emissions, Cyra Bishop, Jeffery Smith, Dr. Matthew Jones
Gas Detection System For Biomass Cookstove Emissions, Cyra Bishop, Jeffery Smith, Dr. Matthew Jones
Journal of Undergraduate Research
The purpose of this research project is to explore Peruvian social and cultural behaviors that typically prevent successful improved cookstove adoption in resource-limited settings as well as suggest ways to educate locals about the benefits of improved cookstoves. This will be done by constructing a cost-effective, easy-to-use gas-detection sensor system capable of measuring concentrations of harmful gases released from biomass cookstoves typically found in Peruvian communities.
Above Knee Prosthetic Socket For Developing Countries, Colton Graham, Dr. Mark Colton
Above Knee Prosthetic Socket For Developing Countries, Colton Graham, Dr. Mark Colton
Journal of Undergraduate Research
Due to a civil war in Sierra Leone many have been left with amputated limbs. In order to provide the required prosthetic limbs for victims who have above the knee amputations they need a quality custom fit socket. Custom fit sockets are very expensive so we created a universal socket meant to comfortably fit everyone. This socket is also designed to be affordable and able to be manufactured in Sierra Leone. For a functional socket, it is to be custom fitted, durable, affordable, adjustable and comfortable for the amputee. Due to varying changes to the volume of the residual limb, …
Economic Returns To Clean Water: Evidence From Us Historical Records., Joseph Price
Economic Returns To Clean Water: Evidence From Us Historical Records., Joseph Price
Journal of Undergraduate Research
The purpose of this project was to use linked census records to evaluate the long-run effects of access to clean water. By linking individuals across census years we can specifically determine where they lived during their childhood and also have information about their educational attainment and earnings later in life (using the 1940 census). The project was designed to use a time period when the US was a developing country and beginning to use chlorination to clean its water to assess the economic returns to clean water.
Rebuilding Kidneys, Alonzo D. Cook, Deverly L. Roeder, Jonathan J. Wisco
Rebuilding Kidneys, Alonzo D. Cook, Deverly L. Roeder, Jonathan J. Wisco
Journal of Undergraduate Research
The motivation for this work was the tremendous need for replacement kidneys. End-stage renal disease (ESRD) affects over 500,000 patients in the U.S. and costs Medicare $30 Billion annually for dialysis and transplant procedures. Our overall objective was to engineer kidneys from decellularized porcine extracellular matrix (DPECM) scaffolds and cell cultures grown from human progenitor cells. The primary reason for using human cells was to develop non-immunogenic kidneys that can be used to treat the more than 100,000 chronic kidney disease (CKD) patients awaiting a transplant, thus obviating the need for post-transplant immunosuppressive therapy and the associated risks of acute …
Vertical Axis Wind Turbine Wake Model Development, Andrew Ning
Vertical Axis Wind Turbine Wake Model Development, Andrew Ning
Journal of Undergraduate Research
The objective of this research was to develop an aerodynamic wake model for a vertical axis wind turbine (VAWT), and to better understand vertical axis wind turbine performance. We were successful in developing a wake model. Additional work went in to understand trade-offs in power performance with acoustic constraints. The results were two conference papers, two journal papers, and open-source data and code. Additional work in ongoing to extended the wake mode’s usefulness for wake interactions and closely-spaced turbines.
A Handy Underwater Solution, Benjamin Murdoch, Matt Ricks, Ales Ball, Jacob Olson, Ethan Durrant, Connor Monson, Lars Watts, Mark Killpack
A Handy Underwater Solution, Benjamin Murdoch, Matt Ricks, Ales Ball, Jacob Olson, Ethan Durrant, Connor Monson, Lars Watts, Mark Killpack
Journal of Undergraduate Research
Hod Lipson once asked an audience at TED, “Where are the robots?” We’ve been waiting for them a long time now and modern robotics still hasn’t caught up with our hopes and dreams. Through our research we hope to address one of the major topics in robotics: movement (or kinematics), and use this moment of exploration to build a new low cost robotic hand capable of use within the exciting realm of aquatics.
Autonomous Identification And Classification Of Targets Using An Unmanned Aerial System, Taylor Mcdonnell, Tim Mclain
Autonomous Identification And Classification Of Targets Using An Unmanned Aerial System, Taylor Mcdonnell, Tim Mclain
Journal of Undergraduate Research
Commercial applications of unmanned aerial systems (UAS) are expected to grow significantly in the coming years [1]. Applications of unmanned aerial vehicles in the commercial market include agricultural and infrastructure monitoring, aerial photography, package delivery, fire monitoring, wildlife tracking, and search and rescue operations. One of the purposes of the AUVSI-SUAS competition is to train undergraduates for the growing UAS industry. In this competition a team’s UAS must autonomously identify and locate several targets, which are geometric shapes with a given shape, shape color, letter, letter color, geolocation, and orientation. The focus of this project is to develop the image …
Large Body Influence In Internal Wave Generation, Austin Maxwell, Julie Crockett
Large Body Influence In Internal Wave Generation, Austin Maxwell, Julie Crockett
Journal of Undergraduate Research
Internal waves are three dimensional waves that propagate within a stratified fluid. They are able to propagate in all directions within our atmosphere and the oceans which are both stratified fluids of continuously changing densities. Internal waves are much larger than surface waves, having wavelengths of hundreds of kilometers and amplitudes more than a kilometer in height. Due to their large size they can be difficult to study in nature, and there is still much to be learned about these waves and their impact on the environment. My research has focused on the generation of internal waves by the motion …
Crispr-Cas9 Directed Pdgf-Β Transcriptional Activation In Fibroblast Cell, Lia Gale, Brian Jensen
Crispr-Cas9 Directed Pdgf-Β Transcriptional Activation In Fibroblast Cell, Lia Gale, Brian Jensen
Journal of Undergraduate Research
Chronic wounds, particularly in the lower limb, represent a huge physical, financial, and social burden to 50 million people worldwide. In 2014, Americans paid an estimated $25 billion for simple wound care for patients. Despite these efforts, traditional methods of trying to heal wounds from the outside via surgical debridement, anti-inflammatory medications, moisture correction, etc. often fail to close wounds (Demidova-Rice et al., 2012). If wound closure does not occur, infection will cause localized tissue death and can lead to sepsis and death. Unfortunately, this leaves amputation as the only resort when wounds don’t close. If primary amputation occurs, …
Triggering The Solar Revolution, Justin Halversen, John Salmon
Triggering The Solar Revolution, Justin Halversen, John Salmon
Journal of Undergraduate Research
The sun’s energy emissions are significantly higher than other alternative energy sources. All other energy sources combined would not provide even one percent of the potential collectible energy from the sun. The amount of potential solar power available is well over 5000 times the current world consumption. Indeed, there is a very large and renewable reservoir of untapped potential solar energy which could be made more directly available to more people.
Origami: Numerical Solutions Of Apparent Absorptivity In Origami Folds, Michael Farnsworth, Brian Iverson
Origami: Numerical Solutions Of Apparent Absorptivity In Origami Folds, Michael Farnsworth, Brian Iverson
Journal of Undergraduate Research
There are three major types of heat transfer: conduction, convection, and radiation. In many cases, radiation is ignored due to the fact that the amount of heat transferred by this method tend to be small compared to conduction and convection. However, in space and in some settings on earth, radiation is dominant and important. Absorptivity is a measure of an object’s ability to absorb radiation, and apparent absorptivity is a measure of how the shape of an object affects the amount of radiation that it absorbs. For example, if you were to shine a flashlight on a mirror, the light …
Design And Comparison Of Variable-Stiffness Compliant Joints For Haptic Devices, David Usevitch, Mark Colton
Design And Comparison Of Variable-Stiffness Compliant Joints For Haptic Devices, David Usevitch, Mark Colton
Journal of Undergraduate Research
Haptic interfaces or devices are computercontrolled robotic systems that seek to replicate the touch experience of a human user1. The purpose of this research is to develop a viable variable-stiffness compliant joint for haptic interfaces that eliminate rotation joints or screw mechanisms that induce friction, increase weight and cost, and make devices more complex and prone to failure. The resulting compliant haptic device was designed with both affordability and dependability in mind, and hopes to result in research knowledge leading to realistic touch experiences as users interact with virtual or remote environments. The joint may also be applicable …
Safety Of Tubular Nylon Webbing: The Effect Of Wet And Cold Environments, Caleb Duncan, Landon Wright, John Salmon
Safety Of Tubular Nylon Webbing: The Effect Of Wet And Cold Environments, Caleb Duncan, Landon Wright, John Salmon
Journal of Undergraduate Research
Tubular nylon webbing is an effective and relatively inexpensive anchoring solution for search and rescue groups, fire departments, canyoners, and rock climbers. As an anchoring solution nylon webbing is vital to the safety of anyone who uses it. Serious injury or death will often occur if an anchor fails.
All commercially available webbing is labeled with a breaking strength so that the end user is aware of its limits. This breaking strength value is obtained by the manufacture after running many tensile pull tests of dry webbing. While the dry breaking strength is reported by the manufacture no information, other …
Effect Of Thickness On Fatigue Life On Creased Thin Pla, Peter Schleede, Larry Howell
Effect Of Thickness On Fatigue Life On Creased Thin Pla, Peter Schleede, Larry Howell
Journal of Undergraduate Research
Origami-based engineering creates products that solve problems inherent in other designs. For example, they can compress into smaller volumes, achieve new and unique motions, and lessen or mitigate numbers of welds, fasteners, or other joining methods. However, a weakness of these designs is the necessity of folding them and seams that result from that folding. If viable, 3D printing these designs would eliminate the need for complicated folding machinery or adhesives to close the seams. Since origami is, by its nature, dynamic, this research aims to help designers predict fatigue lives (number of cycles until failure) of thin, printed PLA …
Droplets Rolling On Superhydrophobic Inclines Simulating Real World Application Environments, Braquel Burnett, Julie Crockett
Droplets Rolling On Superhydrophobic Inclines Simulating Real World Application Environments, Braquel Burnett, Julie Crockett
Journal of Undergraduate Research
Superhydrophobic surfaces offer unique characteristics such as extreme water repellency, drag reduction and enhanced condensation rates. These effects are possible due to a combination of micro/nano-texturing and a hydrophobic chemical coating. With the advent of micro/nano-fabrication, research and development on superhydrophobic surfaces has sky-rocketed due to the potential advantages across multiple industries including lab-on-a-chip technology, micro-electronic cooling and anti-icing applications.