Novum goes in, valuable strategic data comes out.| Medium Read

Enlarge IMAGE: Team members prepare Novum for wind tunnel testing. Photo: Akhil Kantipuly

The team’s 14th vehicle, Novum, is roughly 34% narrower than it’s predecessor. By nature, a narrower car is less stable. To ensure it could handle the strong cross winds of the Australian Outback, the team has spent a lot of time refining Novum’s vehicle dynamics. Wind tunnel testing and software simulations check every angle and wind speed they might encounter. “From our previous experience, aerodynamics loss can reduce up to 85 percent of the car’s efficiency, says Jiahong Min, the team’s aerodynamics leader and graduate student studying mechanical engineering. He studied aerospace as an undergrad at Michigan Engineering and joined the team as a junior – racing with Aurum in 2015. The first wind tunnel tests took place on July 10th Ford’s Driveability Test Facility in Allen Park, MI.

Enlarge IMAGE: Novum undergoes a smoke test in the wind tunnel. Photo: Solar Car Team

Enlarge IMAGE: Jiahong Min, Andrew Dickinson, Chae Woo Lim and Clayton Dailey prepare Novum for wind tunnel testing. Photo: Akhil Kantipuly

“I was really nervous,” said Min. “Since Novum’s design is drastically different than previous vehicles, I had some doubts about our aerodynamics simulations. It is very hard to judge how good a simulation is without any experimental data, and the most controlled data we can get is from the wind tunnel.” Over the course of nine hours, Novum was tested against 65 miles per hour winds with up to 20 degrees of yaw angle. Like with most initial real world tests, not all the predicted simulation numbers matched up. “There are a lot of factors that can cause this,” said Min. “We would like to get real power consumption data when the car is fully built and can be tested on the course.”

Enlarge IMAGE: Novum undergoes a scan to quantify the exact frontal area of the car. Gif: Sarah Zoelick