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Articles 1 - 18 of 18
Full-Text Articles in Mechanical Engineering
Mechanically Advantageous Wheelchair, Katy Hagerty, Noah Dromgoole, Carlo Balleria, Andrew Orona
Mechanically Advantageous Wheelchair, Katy Hagerty, Noah Dromgoole, Carlo Balleria, Andrew Orona
Mechanical Engineering Design Project Class
This project will utilize a gear system to create a multispeed wheelchair. Multiple gears will allow users to adjust the speed of the wheelchair for appropriate scenarios. Our device will be modular and use a different gear mechanism than products currently in the marketplace.
An Improve Naked Mole Rat Trap, Group Iii, Spencer Egly, Ted Daley, Andrew Thompson
An Improve Naked Mole Rat Trap, Group Iii, Spencer Egly, Ted Daley, Andrew Thompson
Mechanical Engineering Design Project Class
This project attempts to improve on Dr. Stan Braude’s current Naked Mole Rat trap design. Dr. Braude currently uses his trap to catch and tag naked mole rats for his research. While Dr. Braude is happy with his current trap, he designed them himself over twenty years ago, and believes that they can be improved and modernized for increased ease and convenience. The key project goal is to deliver an improved trap to Dr. Braude that will meet his needs. The modifications that this project will attempt to deliver are a repeatable, solar powered trap that is compatible with his …
Building A Better Naked-Mole Rat Trap Mems 411- Senior Design Course, Alex Flammond, Lance Middleton, Andrew Chang
Building A Better Naked-Mole Rat Trap Mems 411- Senior Design Course, Alex Flammond, Lance Middleton, Andrew Chang
Mechanical Engineering Design Project Class
In this paper, we design, analyze, test, and construct an improved naked mole rat trap for Prof. Stan Braude of Washington University in St. Louis.
Four-Wheel Steering, Theodore Wisniewski, Andrew Sparrow, Phil Rowsell
Four-Wheel Steering, Theodore Wisniewski, Andrew Sparrow, Phil Rowsell
Mechanical Engineering Design Project Class
This prototype Four-Wheel Steering system is designed for a Formula SAE racecar. Multiple steering geometries can be applied to optimize the handling across a range of speeds. Ackermann steering geometry at low speeds improves the car’s agility in tight, technical race courses. At high speeds the steering transitions to parallel steering geometry, improving stability and giving the driver more precise control over the vehicle. The system fits seamlessly within the rear suspension packaging of the existing WashU Racing vehicle design and minimizes addition of weight by using compact and lightweight electronic linear actuators to steer the rear wheels. In testing …
Sanitation System For Underdeveloped Countries, Anish Agrawal, Mutian Tang, Dylan Lesher, Reid Schur
Sanitation System For Underdeveloped Countries, Anish Agrawal, Mutian Tang, Dylan Lesher, Reid Schur
Mechanical Engineering Design Project Class
Currently, there are over 2.5 billion people living in the world without having access to proper sanitation. This is primarily because of lack of access to water and/or their financial situation to afford a sanitation system. Therefore, there is a need for a sanitation system which can flush in less water and is inexpensive. This project involves the creation of a sanitation system for use in impoverished areas with little access to water or electricity.
Automatic Onion Peeler, William R. Luer, Matthew O. Clohisy, Craig A. Claire, Dylan L. Newcomb
Automatic Onion Peeler, William R. Luer, Matthew O. Clohisy, Craig A. Claire, Dylan L. Newcomb
Mechanical Engineering Design Project Class
Our senior design report encompasses the design selection, process, and fabrication of an automatic onion peeler. Our design is intended for the peeling of medium yellow onions in restaurant-scale applications. Our machine is easily cleaned and can be safely operated by one person.
Group H: Expandable Brush, Aaron Hall, Michael Roznik
Group H: Expandable Brush, Aaron Hall, Michael Roznik
Mechanical Engineering Design Project Class
This is an overview of our project to design an expandable brush. This brush is designed to be versatile and able to clean a variety of vessels with narrow necks, wide bases, and complex geometries. Our prototype consisted of two parts: an outer sleeve with a deflector and a handle with a head piece to hold our bristle filaments. This design allows the user to insert the brush into a vessel and then control how far outward the bristles expand for easy cleaning.
Asme Student Design Challenge, James Mitchell, Ean Murnan, Alex Wirtz
Asme Student Design Challenge, James Mitchell, Ean Murnan, Alex Wirtz
Mechanical Engineering Design Project Class
The Olympic Summer Games test the abilities of people throughout the world in a wide variety of athletic challenges. The athlete that wins the Olympic decathlon or heptathlon is referred to as the world’s greatest male or female athlete. The 2017 Student Design Competition challenges your technical design skills to create a robot that is fast, strong, and agile. Your team must build a remotely controlled device to compete against others in five different events – a robot pentathlon. Scores from each of the events will be combined to determine the overall champion. Our team will attempt to design a …
Group F: Cell Phone Forearm Holder, Jacob Aley, Emily Groth, Sinclair Hodge
Group F: Cell Phone Forearm Holder, Jacob Aley, Emily Groth, Sinclair Hodge
Mechanical Engineering Design Project Class
Design a forearm device that stores cell phones while traveling and provides an easy access apparatus for one handed use on the go. A compression sleeve will be the main feature as it will be the way in which our device will stay on the users arm. An adjustable apparatus that securely holsters the cellphone will be another feature so that our device will be viable for cellphones of varying dimensions. A swivel apparatus that will allow users to select horizontal or vertical viewing of the cellphone while connected to our device. A track system that allows for the movement …
Reinventing The Dishwasher, Caryn Devaney, Carter Fraser, Aaron Walters
Reinventing The Dishwasher, Caryn Devaney, Carter Fraser, Aaron Walters
Mechanical Engineering Design Project Class
Most people aren’t excited to do the dishes. Still, washing cookware like pots and pans is an unavoidable task - and even those who own dishwashers typically choose to handwash them after use. After conducting a wide-ranging market survey, we designed a standalone device which can fill the existing gap between handwashing and dishwashing. We successfully built a single pan dishwasher which simulates hand washing to clean nonstick frying pans.
Universal Pitter, Angelica Price, Rachel Venn
Universal Pitter, Angelica Price, Rachel Venn
Mechanical Engineering Design Project Class
Fruits with pits in them have been cumbersome to eat due to the delicate quality of the fruit and the rigid structure of the pits that must be removed. Many types of pitters already exist, but any are for small pits such as cherries and olives or involve to much manual action. This pitter will remove the pit out of multiple types of fruit while holding the fruit in a manner that does not damage the fruit. This projected was initiated by Rachel Venn, an engineering student at Washington University in St. Louis, who took a pole amongst family and …
Autonomous Shopping Cart, John Gutsch, Steven Taschner, Asim Zaidi
Autonomous Shopping Cart, John Gutsch, Steven Taschner, Asim Zaidi
Mechanical Engineering Design Project Class
In shopping centers across the United States, customers must return shopping carts after they used them by themselves. For a variety of reasons, a significant number of shopping carts are left in parking lots after being used. This results in expenses to the store in the form of damaged carts, man hours required to return each one, and law suits from customers whose cars are damaged by free carts. This project is an add-on mechanism by which allows shopping carts to return to the shopping center autonomously. The cart should be able to locate a preset track that is set …
Telescoping Cup Holder, Richard Kristian O. Pajarillo, Eric Nehrbas, Charlie Morrow
Telescoping Cup Holder, Richard Kristian O. Pajarillo, Eric Nehrbas, Charlie Morrow
Mechanical Engineering Design Project Class
Cup holders are a beloved feature of the modern automobile because they keep your drink stable and close, ensuring that minimal work is needed to grab it. Our mission is to provide a cup holder for everyday use outside of vehicles. Our device will hold drinks of most sizes, and will keep them cool. Motion activation will raise the drink to a convenient height using a telescoping motion, and then lower to a sturdy position that is out of the way. The finished product will minimize the amount of work required to retrieve the drink, and grab some attention as …
Compact Furniture Dolly, Gary Hu, Jieun Yim, Jason Xie, Jiayi Hou
Compact Furniture Dolly, Gary Hu, Jieun Yim, Jason Xie, Jiayi Hou
Mechanical Engineering Design Project Class
One problem faced by people during moving is how to move large pieces of furniture, i.e. sofa, mattress, table, refrigerator, etc., conveniently without damaging them. A typical small dolly is incapable of carrying such large pieces, and a bulky dolly is inappropriate for an indoor use because it can damage the furniture and the floor. Besides, in either case, the user should lift up and put the load on the dolly. People who want to change positions of their furniture regularly to get a fresh look for the house, it is cumbersome to call a moving company every time. Our …
Maneuverable Backpack Scooter Attachment, Andrew Goldfield, Alex Roesch, Cosmo Centanni, Nina Nepa
Maneuverable Backpack Scooter Attachment, Andrew Goldfield, Alex Roesch, Cosmo Centanni, Nina Nepa
Mechanical Engineering Design Project Class
A mechanical device that will aid in the collaboration between a scooter and a backpack. Due to the weight of typical backpack, our device will aid the consumer to carry less weight on their backs, and create a device to fold into the scooter so that it nicely fits in a classroom setting. This device will be detachable so that the scooter can be operated without the attachment.
Mems 411 Design Report Group O: Naked Mole Rat Trap, Drew Pikey, Adam Glassl, Sam Nadell
Mems 411 Design Report Group O: Naked Mole Rat Trap, Drew Pikey, Adam Glassl, Sam Nadell
Mechanical Engineering Design Project Class
Naked mole-rats are mouse size rodents that live in underground colonies in East Africa. They are best known for having a queen and workers like bees. Prof Stan Braude has been studying them in Kenya and Ethiopia for over 25 years and has trapped over 10,000 of these animals, marked and released them. He is the world’s expert at trapping naked mole-rats and yet, he still needs a better trap. Prof. Stan Braude is looking forward to working with a team of real engineers and designers who can help him complete this project.
Computational Fluid Dynamics Modeling And Simulations Of Fluidized Bed Reactors For Chemical Looping Combustion, Subhodeep Banerjee
Computational Fluid Dynamics Modeling And Simulations Of Fluidized Bed Reactors For Chemical Looping Combustion, Subhodeep Banerjee
McKelvey School of Engineering Theses & Dissertations
Chemical looping combustion (CLC) is a next generation combustion technology that shows great promise as a solution for the need of high-efficiency low-cost carbon capture from fossil fueled power plants. To realize this technology on an industrial scale, the development of high-fidelity simulations is a necessary step to develop a thorough understanding of the CLC process. Although there have been a number of experimental studies on CLC in recent years, CFD simulations have been limited in the literature.
In this dissertation, reacting flow simulations of a CLC reactor are developed using the Eulerian approach based on a laboratory-scale experiment of …
Semi-Empirical Modeling Of Two-Dimensional And Three-Dimensional Dynamic Stall, Ramin Modarres
Semi-Empirical Modeling Of Two-Dimensional And Three-Dimensional Dynamic Stall, Ramin Modarres
McKelvey School of Engineering Theses & Dissertations
Helicopters are generally limited in their performance by the phenomenon of dynamic stall. The purpose of this work is to develop a method for modeling dynamic stall that is appropriate to preliminary design and flight simulator applications. Unlike other semi-empirical dynamic stall models, the model developed in this thesis, not only counts for the well-known, three-dimensional flow effects on the stalled loads but also captures the secondary vortex-shedding phenomenon that has been seen in experiments. The fundamental physics that modify dynamic-stall behavior and that have been extended from two-dimensional to three-dimensional flow are, namely: 1.) yawed flow, 2.) time-varying velocity, …