Published: April 22, 2019 By

CU Boulder capstone Siemens Gamesa team

Siemens Gamesa Renewable Energy capstone design students at CU Boulder. Back row left to right: Aiden Zheng, Eric Rocilez, Chad Sloan, Ben Setterquest, Al Dayn, Austin Napier. Front row left to right: Richard Poulson, Alex Jaros, David Molitor

CU Boulder engineering students are finalizing an infrared imaging system that will allow a user to monitor subsurface features in wind turbine blades, an invention that could make wind turbine repair safer, faster and more cost-efficient.

Members of the capstone design team, sponsored by Siemens Gamesa Renewable Energy, said their greatest accomplishment has been turning an idea into a useful product that is accepted by an experienced team of engineers in industry.

“This is real engineering,” said David Molitor, a mechanical engineering BS/MS student. “It’s physical, real and it works.”

On April 26, this team, along with roughly 145 others, will present their design at the 2019 Engineering Projects Expo.

Given the complexity of the Siemens Gamesa project, undergraduate and graduate students in mechanical engineering, electrical engineering and computer science joined forces on one team. Al Dayn, Alexandra Jaros, David Molitor, Austin Napier, Richard Poulson, Eric Rocilez, Ben Setterquist, Chad Sloan and Aiden Zheng worked together to design a better way to monitor the condition of wind turbine blades.

“Wind turbine blades have an expected lifetime operation of 20 years or longer,” said Molitor. “Over time, a blade might be affected by frequent lightning strikes or heavy rainfall. The imaging system we developed allows us to check for subsurface features, such as structural cracks to ensure the blade remains in good condition throughout its operational life.”

Siemens Gamesa CU Boulder capstone design drone and infrared camera

Ben Setterquest, CAD Engineer for the Siemens Gamesa Renewable Energy Capstone Design team prepares to test their device along with his team members. 

Current test methods for studying subsurface features require large amounts of manpower and take roughly four hours per blade. Rope access technicians rappel from the tops of wind turbine towers and survey the area with heat-sensitive cameras.  

“It’s very time-consuming and expensive,” said Alexandra Jaros, a senior studying mechanical engineering. Jaros said these methods are especially costly when wind turbines are located offshore or when evaluating hundreds of wind turbines at a time.

With this challenge in mind, the team succeeded in creating a solution requiring only three minutes per scan and far less manpower.

To do so, the team mounted an infrared camera to a drone, allowing them to detect differences in temperature. Because subsurface features like cracks are filled with air, they cool at a slower pace, making them stand out in a different color when viewed through a heat-sensitive camera. This allows the team to identify features invisible to the naked eye.

Behind the scenes, students studying computer science like Richard Poulson have added metadata so the operator can tell which section of the blade is being shown.

“Using time stamps to organize information from the GPS unit, inertial measurement unit and magnetic sensors which track absolute position, tilt and orientation, we have been able to map the infrared images of the blade to the blade’s location in 3D space,” Poulson said.

This project allowed students to further their experience in systems engineering, providing them with opportunities to build skills in CAD, manufacturing, hardware debugging, electronics debugging, intersystem communication and integrated circuits. It also gave students the chance to use project management tools, practice communication and talk about functional requirements with a client.

To future capstone design students, the team said they recommend taking ownership of individual roles while also trusting the efforts of teammates.

“Trust can be hard at first,” said Molitor, “but it’s amazing how proud you can be of what you accomplish together.”  ­­

Project Video