Chem-E-Car Team goes to AlChe Nationals in the fall – UTC News Releases
Chem-E-Car Team goes to AlChe Nationals in the fall
The UTC Chem-E-Car, the Chem-e-Leon.
Chem-E-Leon took on the Goliaths and came out as David.
The little car that could — designed and built by the UTC Chem-E-Car Team — came in 2nd place in the regional American Institute of Chemical Engineers (AIChE) Chem-E-Car Competition, hammering schools such as Georgia Tech, the University of Tennessee at Knoxville, the University of South Alabama and Auburn University.
With that win under its belt, in November the UTC team will be moving on to the national AlChE Chem-E-Car Competition in Minnesota.
“That’s pretty awesome, considering we’re a smaller school and we don’t have the kind of resources to devote to this that other larger schools do. For example, Georgia Tech funded two cars, and we only funded one, but ours hammer both of theirs,” said Dr. Bradley Harris , Assistant Professor of Chemical Engineering.
Each year, a student team from the College of Engineering and Computer Science designs and fabricates a car that can be powered and stopped by chemical reactions. And it must be so puny that, when disassembled, it will fit into a shoebox.
Chem-E-Leon got its name from a special chemical reaction, said Harris. “It’s called the ‘chameleon reaction,’” he explained.
“The car’s power reaction is a chemical battery using magnesium and copper with an acid solution. They have this very neat reaction that they use to stop the car that switches colors across this entire spectrum, and when it hits a certain color they want, that’s when the circuit stops.”
This year’s success matches the UTC team’s highest placement at regionals to date, having placed 2nd once before in two thousand fifteen . This will also be fourth time in seven years the team has qualified for nationals.
Armed with their various vehicles, college teams face off in regional competitions in spring. The top five teams go on to nationals in the fall.
Time is taut in the competition. An hour before it starts, the distance and the weight the cars must carry is determined at random. The teams then determine the detailed chemical processes required to stir their car the exact distance carrying the assigned stream. Each team has two runs, and the team that comes closest to the goals wins.
“So you have to have taken data for your car at different distances and different water weights and have everything calibrated,” Harris said.
The UTC team was responsible for all aspects of the competition, including planning, engineering, budgeting, construction, and learning to work together toward a common aim.
Team members: Peter Hills, Cohin Ruble, Braulio Ferrando, Drew McKinney, Ben Irvin, Ben Christie, Reed Boeger, Chris Purvis, Gabrielle Norton, Nick Peck, Evan Patrick, Ralph Foster, Nisarg Hansaliya, and Dr. Bradley Harris, Faculty Adviser.
“I’m truly proud of them, particularly the seniors,” Harris said. “We had indeed talented, dedicated students who are always working hard in the lab.
“The students are very independent. They treat everything themselves. They work on the car, pack out all the paperwork to get it registered, meet the deadlines. I don’t advise much on the specifics of the car, I just make sure they have the resources they need and the team is doing well.”
While other colleges have teams made up of nothing but chemical engineers, Harris attributes part of the UTC team’s success to its interdisciplinary members, which include chemical, mechanical, and electrical engineering students.
A mechanical engineer helps keep the Chem-e-Leon correctly aligned.
“So where other schools may mess up is, say, they may not have the car aligned, so when the car accelerates, it veers off, and if you go too far out of bounds, you’re disqualified,” Harris explained.
An electrical engineer, “knows how to program a circuit. That’s very helpful to get the car to stop exactly where you want it to.”
“I think that’s a big reason we’re successful every year,” Harris said.
With seniors graduating, the team will be down a few members when it comes back to competitions in the fall, but they’re up for the challenge of carrying on without them.
“You need members of the team who are juniors and sophomores who can keep carrying the torch. That helps us too. Some teams only have the minimum number of members, and if they’re seniors and they leave, then the next year’s team has no continuity,” explained Harris.
Not only will team members proceed perfecting their car for the national competition, they will at the same time begin work on the next year’s car. Once a team qualifies for nationals, it cannot run the same car again the following year in regionals; some aspect of the design must switch.
“They’ll sort of be on a dual track. They will have to make sure this car is ready for nationals, and also begin work on a fresh power or stopping reaction for the car for the following spring’s regional competition,” said Harris.
This year’s team is learning from last year’s mistakes. Like many other schools, the car used hydrogen fuel cells for power. But after placing 2nd in 2015, the team came up with its own chemical battery for the very first time in 2016.
But the battery was left it in its chemical solution during shipping so, when the team attempted to run it at regionals, corrosion kept it from moving.
“They learned that lesson,” Harris said.
“They have been perfecting this car for a year now. This time, they undoubtedly shipped the solutions separated and didn’t put the metal parts, the anode and the cathode, in contact with the solution until the car was ready to run.
