Digital Commons Network^™

Boat-Lift Design And Analysis, Nathan Schick

Honors Theses

A current in production 6000 lb. rated boat-lift is being sold at “Great Lake Lifts”. The lift was tested experimentally and proved to hold at least 8000 lb. The design team successfully modeled the current lift on Ansys to help the customer understand where the weakest points in the design were. Following the creation of the initial lift design, the design team proposed and tested modifications that could be made in order to make the lift more structurally sound. The initial lift had a maximum deflection of 0.43846 inches, a maximum stress of 15880 psi, and a safety factor of …

Low-Cost Control Engineering Experiments, Megan Arduin

Honors Theses

The disciplines found within the area of motion and controls is a vital element of each engineer’s education. The ability to understand and then control dynamic systems is a fundamental skill required for many working engineers today. The aim of this project is to further develop the tools and methods available to teach and prepare engineering students to effectively design control system architecture, and then successfully implement their design into real world systems. The main goal is to design an apparatus that can be used to teach control system methods and has an affordable price. There are few experiments where …

A Comparative Analysis Of Professional Pilot Jobs, Ryan Snoeyink

Honors Theses

Professional Pilots fly aircraft for a living. Just like there are many different types of aircraft, there are many different types of professional pilot jobs. While it is an impossible task to describe every single job a professional pilot could have, there are four "groups" in which most jobs can be classified. These groups are Part 121 Scheduled Airline Service, Part 135 On-demand Charter, Part 91 Corporate/Private, and Part 61/141/142 Flight Instruction. The goal of this thesis is to examine the differences between these four groups; and by doing so, aid in the education and career decision making of those …

Design And Prototyping Of A Shape-Changing Rigid-Body Human Foot In Gait, Tanner N. Rolfe

Honors Theses

Traditional ankle-foot prostheses often replicate the physiological change in shape of the foot during gait via compliant mechanisms. In comparison, rigid-body feet tend to be simplistic and largely incapable of accurately representing the geometry of the human foot. Multi-segment rigid-body devices offer certain advantages over compliant mechanisms which may be desirable in the design of ankle-foot devices, including the ability to withstand greater loading, the ability to achieve more drastic shape-change, and the ability to be synthesized from their kinematics, allowing for realistic functionality without prior accounting of the complex internal kinetics of the foot. This work focuses on applying …

Improving Electrochemical Devices Via Increased Charge Density And Ceramic Nanoparticles, George Padavick

Honors Theses

Challenges posed by climate change in conjunction with increasing global energy demand necessitate improved energy systems in both transportation and power delivery. These systems will require more advanced energy storage than current commercially available options. To enhance energy storage capabilities, supercapacitors were investigated to discover new mechanisms, materials, and fabrication techniques for developing electrochemical devices. In particular, methods for improving electrolyte performance were explored to enhance capacitance and conductivity. The results indicate that increasing charge density in the electrolyte via higher salt concentration or higher ionic charge of the solvated ions significantly increases capacitance. Specifically, a 0.1M solution of magnesium …

Design And Prototyping Of A Shape-Changing Rigid-Body Human Foot In Gait, Tanner N. Rolfe

Honors Theses

Traditional ankle-foot prostheses often replicate the physiological change in shape of the foot during gait via compliant mechanisms. In comparison, rigid-body feet tend to be simplistic and largely incapable of accurately representing the geometry of the human foot. Multi-segment rigid-body devices offer certain advantages over compliant mechanisms which may be desirable in the design of ankle-foot devices, including the ability to withstand greater loading, the ability to achieve more drastic shape-change, and the ability to be synthesized from their kinematics, allowing for realistic functionality without prior accounting of the complex internal kinetics of the foot. This work focuses on applying …

Triboelectric Turbines: Design And Construction Of A Multi-Rotor Counter-Rotating Wind Turbine Utilizing Direct-Current Triboelectric Nanogenerators, Adam Forti

Honors Theses

Direct-current triboelectric nanogenerators (DC-TENG) harness the friction generated between dissimilar rotating materials and convert it to useable electrical power. One of the many potential applications of this technology is in small scale renewable energy. A wind turbine was designed in which multiple DC-TENG generators would be attached to turbine blades of varying dimensions. This project involved the design and construction of several rotating DC-TENG prototypes, followed by measuring the electrical output of each nanogenerator at various rotational speeds.

Electronic Dive Mask: A Heads Up Display For Deep Diving, David Fishman

Honors Theses

The top five dangers in diving are marine life, malfunctioning equipment, asphyxiation, pulmonary embolism, and nitrogen narcosis. These risks exist even with the current standards of diving equipment. Most of these risks can be attributed to a lack of information, either due to inattention or because the information is not accessible to the diver. The current solution to these risks are dive computers, wearable devices around the diver's wrist which provides numeric displays of various information. One value the devices do not display is orientation. These devices also have insufficient methods of warning the user. As such a device is …

Design Of A New Ice Thermal Energy Storage System, Andrew Fontaine

Honors Theses

Over the past 30 years, alternative energy sources and concepts have been researched and desired as current energy resources are diminishing. One such alternative energy concept is an Ice Thermal Energy Storage system (ITES). ITES systems both store and create ice that helps them serve as a cold sink that can be used to cool down buildings using only the ice in the system. This project explores a new and more complex type of ITES system that decreases the heat transfer into the system, lengthens the amount of time the ice in the system stays frozen, and lessens the amount …

Design And Manufacture Of A Tick Collecting Robot, Jeremy Manus

Honors Theses

The overall goal of this research project is to fully design, manufacture, and test a robot for tick collection. The robot will be designed to collect ticks in regions with thickly branched vegetation, specifically including shrubs, trees, and leaf liter. The robot will be useful to biologists who collect ticks for research or disease control purposes, because it will reach areas that are inaccessible to human-powered collection methods and thus provide them with a more accurate estimate of the tick density in a given region. Obtaining a more precise tick density is crucial, because it provides more detailed information about …

Computational Fluid Dynamic Modeling And Analysis Of Small Scale Horizontal Axis Wind Turbines, Madeline Samuell

Honors Theses

As the demand for wind power grows the technology used to research and further develop wind power must become more sophisticated. Experiments are expensive and require high end test facilities; a commonly used alternative to experimentation are computational fluid dynamic (CFD) models of wind turbines. For this project Star- CCM+ a CFD software was used to determine the power generated by small scale horizontal axis wind turbines. The Reynolds-Averaged Navier Stokes (RANS) equations were applied to the models in order to solve for the average flow. Though a variety of different types of simulations were used the focus was on …

Design Of Three And Four Link Suspensions For Off Road Use, Benjamin Davis

Honors Theses

This thesis outlines the process of designing a three link front, and four link rear suspension system. These systems are commonly found on vehicles used for the sport of rock crawling, or for recreational use on unmaintained roads. The paper will discuss chassis layout, and then lead into the specific process to be followed in order to establish optimal geometry for the unique functional requirements of the system. Once the geometry has been set up, the paper will discuss how to measure the performance, and adjust or fine tune the setup to optimize properties such as roll axis, antisquat, and …

Dual-Purpose Air Conditioner, Bo Dubois

Honors Theses

A dual-purpose air conditioner was designed to cool the air in the sunroom at my house in New York State while simultaneously heating the water in my pool. During the summer, the air in the sunroom reaches temperatures over 120°F, which has damaged electronic equipment in the room and makes the room undesirable to use. The proposed system utilizes a stainless-steel tube-fin cross flow exchanger to transfer heat from the air in the sunroom to the water in the pool. The system was designed to use a 115V fan kit to circulate the air at 520 CFM and a 2/25 …

Co-Flow Jet (Cfj) Airfoils Practicality In Engineless Airplanes, Kathleen Matthews

Honors Theses

This paper investigates the co-flow jet (CFJ) airfoils ability to further current aviation designs to be more environmental. With high cost and large contribution to carbon footprints, aeronautical designers look to drag reduction to decrease dependencies on fuel. Primary research on CFJ airfoils is led by Dr. Zha at the University of Miami. Through various forms of analysis, CFJ airfoils use a jet stream to create movement of air in the boundary layer region that helps create more lift reduce flow separation, thereby increasing stall margin and creates a thrust force. However, with further investigation, the magnitude of thrust created …

Synthesis Of Electrically Conductive Polylactic Acid Composites For 3d Printing, Zhixin Kang

Honors Theses

3D printing technology is a process of synthesizing an object by slicing a three-dimensional object into two-dimensional layers. It is making its mark as it reshapes product development and manufacturing industry in which everyone can participate in the process of 3D printing.The demand for various types of materials is increasing as customers become more innovative with designs. The overarching goal of this project was to create innovative 3D printing materials for a conventional 3D printer. Conductive filaments allow us to 3D print electrically conductive components using almost any commercially available desktop 3D printer. The electrically conductive filament for this research …

Implementing Spatial Symmetry In The Tensor Contraction Engine, Kevin Hartline

Honors Theses

No abstract provided.

Creating A Zero + Energy Building Model, Ashley N. Thompson

Honors Theses

The goal of this project was to create an accurate representation of a zero + energy home both for physical experimentation and for numerical modeling. This means that the home does not rely on power from the grid, but only on alternative energy sources such as solar. The project consists of two major subcategories. The electrical portion of the project consists of implementing the energy source and control system, and the mechanical portion of the project consists of thermal analysis, thermal flow simulations, and physical construction. A 50 W solar panel was chosen as an energy source, which directs power …

Biogas Separator And Storage Tank, Brandon Nimtz

Honors Theses

The general concept of this project is to design, simulate, and build a biogas separator system that will also store the separated methane and carbon dioxide within pressure vessels. This system is constructed of many subcomponents that will combine to separate the biogas and store the methane (CH4) and carbon dioxide (CO2). The components included in the project consist of a liquid-gas separator vessel, two heat exchangers, one methane gas compressor, and one pressure vessel each to hold methane and carbon dioxide each. While the base goal in this project was to design and simulate the necessary parts to theoretically …

Sensory Interfaces: Intelligent Surgical Box Trainer, Krystal York

Honors Theses

The Fundamentals of Laparoscopic Surgery (FLS) box trainer currently offers medical students the opportunity to practice their dexterity with laparoscopic surgical tools and accustom themselves to the disconnect between their actions and their visible frame of reference. However, at this stage the box trainer offers few ways to test, practice, or improve upon important factors in laparoscopic surgery including disturbance of and pressure applied to patient tissue. The purpose of this project was to add sensory interfaces to the FLS box trainer to offer more concrete feedback for medical students practicing the required tasks, consolidate the information gathered by the …

New Work Center Optimization, Clarissa Stanton

Honors Theses

No abstract available.

Torsion Element Test Bench Design, Trevor Gick

Honors Theses

A test apparatus has been designed to apply a torque to a range of suspension products developed and sold by ROSTA USA Corporation (ROSTA). The products tested here are used in industrial applications, including vibration damping and suspension for industrial machines.

The designed device takes several specifications into account. To withstand the forces applied to it, the structure of this device is created from steel with bracings to support heavily loaded areas. The device is designed with a “sled” type design so that a forklift will be able to move the sled if needed. To apply torque to the elements, …

Design Of A Cubesat Separation Mechanism, Ross Hiller

Honors Theses

CubeSats are compact, relatively inexpensive satellites that are often used for space research. In order to perform research related to electric propulsion devices, the Western Aerospace Launch Initiative (WALI) requires a medium-sized CubeSat capable of separating into two bodies while in orbit. Intentional separation is not common in CubeSats, so two original concepts were designed and simulated using 3D CAD and finite element analysis software. These designs were compared based on factors including weight, cost, size, and their potential to fail due to creation of debris or binding between components, in order to determine which will more effectively execute the …

Reprinter, Christian Brower

Honors Theses

Additive manufacturing (3D printing) is a rapidly growing technology, though, expensive printing filament and wasted material make it less affordable and an unsustainable process. The RePrinter combats these issues by recycling scrap 3D printed plastic parts and household plastics, such as pop bottles, and creates filament for fused deposition modeling (FDM). This product is a fully automated system which grinds, extrudes, and spools the filament for immediate use in FDM. The RePrinter works to control the extrusion speeds and tensions to optimize precise filament dimensions for quality 3D printing, while delivering the product in a timely cost effective manner.

Ceas Student Center Expansion, Turner Solterman

Honors Theses

Western Michigan University has had a long-standing tradition of engineering excellence. To keep up with the modern culture and to maintain that Western will be on the forefront of universities providing an excellent engineering education, an expansion to the current CEAS building on the Parkview campus is necessary. Aptly named the CEAS Student Center Expansion, this project will be a space exclusively for student engineering groups to work in a space where collaboration across different engineering disciplines will be as easy as walking across the floor to talk to someone else. Through the floor plans of the different alternatives …

Quantitative Analysis Of High Pressure Hazards In Oil And Gas Field Operations, Giuseppe Feo

Honors Theses

No abstract provided.

Evaluation Of Protection Of Frp Wrap On Bridge Piers From Corrosive Effects Of Snow And Ice Chemicals, Lizzie Miller

Honors Theses

Highway bridge components, such as decks and piers, are structures that are often exposed to chlorine-heavy chemicals. Corrosion of rebar, one of the main contributors to structural deficiencies in highway bridges, is largely caused by chloride contamination from exposure to deicing salts and chemicals. Current forms of external protection to highway bridge piers include paint coatings, shells, and wraps. This thesis will focus on the protective capabilities that Fiber Reinforced Polymer (FRP) wraps could provide to bridge piers. ASTM C666 was utilized to recreate environmental conditions, during which concrete samples were exposed to calcium chloride. ASTM C1760-12 was utilized to …

Biomass Cookstoves: An Empirical Study Into The Relationship Between Thermal Efficiency And Tending Practices For The Developing World, Erin Peiffer

Honors Theses

More than 2 billion people in the world use biomass stoves for cooking and heating their homes. Due to incomplete combustion, toxic byproducts such as soot, nitrous oxides and carbon monoxide gasses form. These toxic substances contribute to pollution and can lead to serious health issues over time if inhaled leading to approximately 4 million premature deaths each year. The formation of these toxic substances can be mitigated, in part, through the introduction of increased turbulence intensity allowing for the so-called “well-stirred combustion regime”. Here we will be exploring the health, environmental, and social effects of biomass combustion in the …

Design Of An Opposed-Piston, Opposed-Stroke Diesel Engine For Use In Utility Aircraft, Luke Kozal

Honors Theses

The objective of this thesis was to determine the feasibility of using an opposed-piston, opposed-stroke, diesel engine in utility aircraft. Utility aircraft are aircraft that have a maximal takeoff weight of 12,500lbs. These aircraft are often used for transportation of cargo and other goods. In order to handle that weight, many of the aircraft are powered by turboprop engines. Turboprop engines are a style of jet engine with power capabilities ranging from 500 to several thousand horsepower (hp). They are expensive engines, and in the case of the Piper Mirage, substituting the piston engine with a turboprop engine can increase …

The Impact Of A Dynamic Environment On Deposition And Cellular Response To Silver Nanoparticles, Robert F. Uhrig

Honors Theses

Silver nanoparticles (AgNPs) are utilized in many different applications, such as an antibacterial agents or as protective coating against ultraviolet light. However, these AgNPs are known to cause potentially harmful biological effects, including toxicity, induction of stress, and immune activation. In this study, the effects of AgNPs on a human lung cell model were examined within both a static and dynamic environment. Most NP-based research is carried out in static environments, but do not accurate reflect dynamic physiological conditions. Dynamic fluid movement was introduced to the cell culture through the use of a multi-channel peristaltic pump. To further characterize the …

The Effects Of Light Intensity On The Growth Kinetics Of The Cyanobacteria Synechococcus Elongatus And Synechocystis Sp., Aleshia Lexus Hector

Honors Theses

No abstract provided.