U-M Solar Car’s second-place finish best in team history in Australia

October 12, 2017

The Michigan Solar Car Team celebrates second place in the 2017 Bridgestone World Solar Challenge, their best ever finish. Images credit: Evan Dougherty, Michigan EngineeringThe Michigan Solar Car Team celebrates second place in the 2017 Bridgestone World Solar Challenge, their best ever finish. Images credit: Evan Dougherty, Michigan Engineering

ADELAIDE, Australia—In an innovative, bullet-shaped car, the University of Michigan Solar Car Team took an historic second place today in the Bridgestone World Solar Challenge, an 1,800-mile race across the Australian Outback.

Not only was U-M the first American team to complete the race, the students are celebrating the most successful finish at this event in team history. U-M—the reigning North American champion—has come in third in this international race five times in the team’s 27-year history. Team members and alumni had taken to calling it “the curse of third.” It’s been broken.

“This is indescribable,” said team member Patrick Irving at the finish, as team members hugged, high-fived and even cried. “I’m so proud of everyone for doing something no other Michigan team has done. We had really high hopes for this car and doing something different. It was a big risk. We knew it was going to go either really well, or really not well. We’re all very happy with how things turned out.”

Novum, as the team named this year’s car, is the smallest and most aerodynamic vehicle U-M has ever built.

After five days of racing down the Stuart Highway and camping by the roadside, Novum crossed the finish line at 4:09 p.m. in Adelaide, South Australia—around 1:30 a.m. ET. Michigan arrived one hour and 59 minutes behind the Dutch winner, Nuon, from Delft University of Technology. Third place went to team Punch Powertrain, of Belgium, who came in around 30 minutes after U-M.

Michigan was one of only two top teams that raced a skinny, monohull car—a radical departure from the proven catamaran design that dominated the field. And future U-M teams may be thanking them, according to Neil Dasgupta, the team’s faculty adviser and assistant professor of mechanical engineering.

Novum zooms from Glendambo to Port Augusta on day five of the 2017 Bridgestone World Solar Challenge. Image credit: Evan Dougherty, Michigan EngineeringNovum zooms from Glendambo to Port Augusta on day five.

“We took a chance on going with a small car, and we’re going to be ahead of the curve for years to come because of that,” Dasgupta said. “I do believe that as the race continues to evolve, more and more teams will move towards a smaller car design.”

Dasgupta and a group of alumni, family and friends traveled to Australia to follow the team along the race route.

It wasn’t just innovative aerodynamics that earned Novum its prize. Clouds, high winds and overnight thunderstorms added to the challenge and excitement of this year’s cross-continental journey. Teams had to negotiate giant puddles at control stops and, at one stop, winds so high, they didn’t even lift and tilt their solar arrays to recharge.

Novum charges at the end of day four in Glendambo during the 2017 Bridgestone World Solar Challenge.Novum charges at the end of day four in Glendambo.

They successfully adjusted their race strategy in response to the weather, and that’s one of the most critical components to a solar race. For this campaign, lead strategist Alan Li created a custom machine learning weather prediction model based on a system they developed with IBM for the 2015 race.

“What’s important is that we were able to predict the entire day’s average radiation,” Li said. “It doesn’t matter if we get the energy earlier or later in the day. It’s also important to take every day of the race into consideration—to look ahead. It could be sunny one day and we drive really fast, but if it’s cloudy the next, we wouldn’t have enough energy.”

Eric Brown checks the angle of Novum's array relative to the sun at the end of day two.Eric Brown checks the angle of Novum’s array relative to the sun at the end of day two.

Every team member has individual roles and areas of expertise that must work together as an integrated machine. Before the first day of the race, project manager Jon Cha gave a pep talk.

“The best teams have confidence in themselves. They’re not focused on winning, they’re focused on what they’re doing—and they’re also very, very relaxed,” Cha said.

This advice was echoed by team leadership throughout the five-day expedition. And although there were tense moments, the crew stayed focused, stayed calm—and reaped the reward.


More information: