Student Competitions

Increase Accessibility to Healthcare CelluCov aims to provide sustainable solutions that are accessible to everyone, without sacrificing quality or performance of the device. While eco-friendlier manufacturing processes are often more…

Several problems are being addressed with the project at hand. The main one, however, is a heavily discussed and often times argued about problem: global warming. As of 2019, there are over 276 million vehicles registered in the United States alone. Those carbon emissions add up quickly. If people want to increase the longevity of the earth and allow it to continue long enough to support their kids and grandkids, then it might be time to make a change. This change comes in the form of renewable resources and renewable energy, and that is exactly what the drill powered cart team plans to show throughout the project.

Have you ever had a gourd and wanted it over there, but in a way that would inspire the masses? The Mechanical Engineering Department sure has, and has tasked our team with creating their submission to our ASME-hosted annual pumpkin launch.

With increasing concerns about the environmental impact of ground transportation, the industry needs alternative solutions that are safe, efficient, and environmentally friendly. One solution to the pollution problem is human-powered vehicles which emit zero greenhouse gas on the road. This project aims to implement a new material technology (fiberglass) into the design of a human-powered vehicle to make it more lightweight, functional, and safe. The test results concluded that fiberglass can indeed be used to manufacture the monocoque of a human-powered vehicle without compromises. The findings of this project will advance the engineering knowledge of fiberglass in this field and enable other engineering teams to use this technology in future designs.

Human-powered submarines are underwater vessels that are driven solely by the power of a human pilot. The Foundation for Underwater Research and Education (FURE) has put on the International Submarine Races (ISR) for several years. In the past, teams from around the world have traveled to the Naval Surface Warfare Center, Carderock Division to compete and race with their human-powered submarine designs. With an in-person event not possible this year, a virtual event (vISR) will be taking place instead. The Human Powered Submarine team set out to tackle specific design problems related to the hull, drivetrain, and propulsion system of a human-powered submarine in the spirit of the virtual event guidelines.

Our team, along with Drill Powered Carts A have built a fully functioning, energy-efficient, and sustainable vehicle, which will be powered by a single electric power drill. By doing this, each team hopes to not only show people that electric-powered transportation is possible, reliable, and easy but, whose cart is the best. The two teams will face off in an endurance race to see which cart can make the most laps around a race track at the University of Rochester River Campus. This will show which team has the most optimized mechanical design.