Preparations for Next Moonwalk Simulations Underway (and Underwater)
A scale model of Boeing’s Subsonic Ultra Green Aircraft Research concept undergoes testing in a 5-meter wind tunnel operated by the company QinetiQ in December 2025.
QinetiQ
NASA and Boeing have completed wind tunnel testing to study an innovative advanced aircraft design intended to improve aerodynamic efficiency.
A truss-braced wing configuration, involving a long, thin wing with aerodynamically shaped structural supports, has the potential to reduce fuel and operational costs for future airliners, which is why NASA has collaborated with Boeing to advance the design.
But this kind of wing would be much more than a simple tweak to existing designs – for an aircraft the size of a passenger jet, it would be a revolutionary redesign, requiring extensive study from NASA and Boeing.
The most recent round of testing used a complex wind tunnel model to collect data on how air flows around a truss-braced wing model and the forces that would be exerted on such a wing in flight.
The test used a semispan model – essentially half an aircraft mounted on a wind tunnel floor. The model has features built in to simulate the mechanisms that increase the amount of lift a wing produces. By adjusting the model’s slats, flaps, and other moving control surfaces, the team can configure it to the low speed, high-lift settings of takeoff and landing conditions.
The model is part of a collaboration to test what’s known as Boeing’s Subsonic Ultra Green Aircraft Research (SUGAR) concept.
In December, teams completed testing of the model wind tunnel operated by the company QinetiQ in Farnborough, England. This large wind tunnel uses pressurized conditions to predict airplane behavior in takeoff and landing conditions.
The large size of the tunnel gives the model fidelity to better predict the behavior of a plane in flight. This capability allowed the team to confidently assess aerodynamic performance.
NASA and Boeing research teams analyzed data in real time to ensure the model performed as expected. Researchers are still reviewing the full results, but the test has already added valuable information to a growing body of research aimed at reducing fuel use in future aircraft designs.
The testing was just the latest stop for this research. NASA and Boeing have tested the concept at multiple NASA facilities to collect data as they work to build a comprehensive understanding of this advanced airframe concept.
This collaboration serves as an example of how NASA serves as an incubator for breakthrough technology with profound commercial applications. The transonic truss-braced wing concept originated from NASA aeronautics-supported research and NASA and Boeing engineers have worked together, test-by-test, to move this wing design from an idea to a practical reality.
The work began in NASA’s Advanced Air Vehicles Program and continues as part of the Subsonic Flight Demonstrator project under the Integrated Aviation Systems Program in the agency’s Aeronautics Research Mission Directorate.
Preparations for Next Moonwalk Simulations Underway (and Underwater)
NASA’s X-59 quiet supersonic airplane sits parked in front of its new hangar home at the agency’s Armstrong Flight Research Center in California. The facility originally was constructed in 1968 and for nearly 60 years has hosted a number of research aircraft and programs.
NASA/Christopher LC Clark
There’s no sign reading “home sweet home” in the hangar where the X‑59 now sits, but the sentiment is unmistakable among those tending to the quiet supersonic aircraft.
Located at NASA’s Armstrong Flight Research Center in Edwards, California, the X-59 hangar was built in 1968 but looks like new thanks to a full renovation and modernization. While the X-59 was being assembled in Palmdale, California, workers at NASA Armstrong gutted the hangar, adding new electrical wiring, a fire suppression system, office space, air conditioning, and other safety features.
“The whole team is incredibly proud of what we’ve accomplished in preparing this new home for the X-59,” said Bryan Watters, the NASA project manager at Armstrong who led the renovation effort. “The fact we could take a 1960s hangar and modernize it for use by a 2020’s X-plane is very special.”
The X-59 is the centerpiece of NASA’s Quesst mission to enable a new era of commercial supersonic air travel over land by reducing the sound of typically loud sonic booms to a much quieter sonic thump.
From the beginning of the program, knowing the X-59 would eventually need a new residence at NASA Armstrong, Quesst managers were on the hunt for somewhere to house the quiet supersonic demonstrator.
Like anyone looking for the ideal place to call home, the team made sure there would be enough space for the airplane and all its support equipment. But with the experimental jet measuring at just under 100 feet long and 30 feet wide, there were few options.
“We had to find a hangar that was long enough so that part of the X-59 wouldn’t hang outside, exposed to the elements,” Watters said.
Building 4826, as the hangar is officially designated, turned out to be the choice spot. “It was basically stripped down and gutted so that essentially it was just structural steel with siding. From that state it was rebuilt,” Watters said.
The feature they are perhaps most proud of is the hangar’s new floor. Covering more than 32,000 square feet, it is coated with epoxy that prevents any spills from seeping into the concrete.
From the hangar’s office windows, the view of the hangar floor can include the F-15 research jets that will be used as chase planes to support X-59 flights in the coming months. The renovation faced challenges along the way, chief among them being supply chain issues stemming from the COVID-19 pandemic. But there were some incredible, unforgettable moments too.
Circa 1990
Nov. 2025
On loan to NASA from the Air Force, an F-15 Eagle fighter jet was the focus of the Short Takeoff and Landing/Maneuver Technology Demonstrator research program, which concluded in 1991. The aircraft is seen here inside Building 4826, a hangar at NASA’s Armstrong Flight Research Center that was renovated and began use in 2025 as home for the X-59 quiet supersonic technology demonstrator.
NASA
NASA’s X-59 quiet supersonic technology demonstrator aircraft is seen parked inside its new hangar home at the agency’s Armstrong Flight Research Center in California.
NASA/Christopher LC Clark
On loan to NASA from the Air Force, an F-15 Eagle fighter jet was the focus of the Short Takeoff and Landing/Maneuver Technology Demonstrator research program, which concluded in 1991. The aircraft is seen here inside Building 4826, a hangar at NASA’s Armstrong Flight Research Center that was renovated and began use in 2025 as home for the X-59 quiet supersonic technology demonstrator.
NASA
NASA’s X-59 quiet supersonic technology demonstrator aircraft is seen parked inside its new hangar home at the agency’s Armstrong Flight Research Center in California.
NASA/Christopher LC Clark
Circa 1990
Nov. 2025
past and present
Hangar Updated to Continue Hosting Historic Research
This NASA hangar at Armstrong Flight Research Center originally was constructed in 1968 and since then has hosted a number of history-making programs. Compare the two images above to see how the hangar looked during the late 1980s when it hosted an F-15 research aircraft (left), and beginning in 2025 after it had been renovated and modernized to host the X-59 quite supersonic technology demonstrator aircraft.
Moved in
With X-59 now flying regularly and comfortably settled into its new digs, the Quesst team is gauging its performance on the way to quiet supersonic flight.
“This is truly a great time for Quesst and the X-59,” said Cathy Bahm, NASA’s project manager for the Low Boom Flight Demonstrator. “It’s also still a little surreal to be able to just walk down from your office and see the airplane in our hangar.”
For more than a year, the hangar refurbishment team worked through every detail of the X-59’s new home to make sure it would be safe and sound. But actually seeing the aircraft occupy that space is an adjustment for them, too.
“We’ve looked at X-59 models on our desk for years and then, you know, there’s the real thing right in front of us, in a hangar that we renovated,” Watters said.
A real thing in the hangar – and streaking across the California desert sky. The X-59’s transition from an idea into a working aircraft is a testament to the teams that help build out every aspect of its infrastructure.
NASA’s X-59 is supported under the agency’s Aeronautics Research Mission Directorate.
About the Author
Jim Banke
Managing Editor/Senior Writer
Jim Banke is a veteran aviation and aerospace communicator with more than 40 years of experience as a writer, producer, consultant, and project manager based at Cape Canaveral, Florida. He is part of NASA Aeronautics' Strategic Communications Team and is Managing Editor for the Aeronautics topic on nasa.gov. In 2007 he was recognized with a Distinguished Public Service Medal, NASA's highest honor for a non-government employee.
In this episode of The Quiet Crew, you’ll meet civil engineer Bryan Watters and learn about his role on the Quesst mission. Bryan has been supporting the mis...
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Preparations for Next Moonwalk Simulations Underway (and Underwater)
For 10 years, a NASA initiative has helped the agency produce breakthrough aeronautical innovations while fostering the aviation workforce of tomorrow – and the University Leadership Initiative (ULI) is still flying high, making awards with the potential to change 21st century air travel.
Through ULI, NASA has supported more than 1,100 students at 100 schools, allowing them to pursue advancements in top priority areas for U.S. aviation, including high-speed flight, advanced air mobility, future airspace management and safety, and electrified propulsion.
Many of those students have used their ULI experience as a springboard to careers in aviation. And many of their ideas — such as designing more efficient wings or building supersonic aircraft that can change shape in flight — are either being investigated further by industry or the technologies adopted outright.
As it celebrates a decade of success, NASA’s ULI team is looking forward to leveraging student innovations with new awards in 2026 and beyond.
“Through ULI we’re building the workforce of the future and fostering the skill sets we so desperately need to compete globally,” said John Cavolowsky, director of NASA’s Transformative Aeronautics Concepts Program at NASA Headquarters in Washington.
Through ULI we're building the workforce of the future and fostering the skill set we so desperately need to compete globally.
john cavolowsky
Director, Transformative Aeronautics Concepts Program
What makes ULI unique from other NASA research projects, and especially appealing to universities, is that it provides the opportunity for university students and faculty to propose what research to conduct.
Usually, NASA determines the research it needs and then does the work itself or through partnerships and contracts. But with ULI, the agency shares its goals and universities consider how they can best help realize them.
“There are no better ways in my mind to help develop that talent within the students than to engage them in identifying big problems and then give them the resources they need to use their creativity to solve them,” Cavolowsky said.
ULI history
NASA’s relationship with academia and reliance on its research proficiency is written into NASA’s DNA going back to the days of the National Advisory Committee for Aeronautics, from which NASA was formed in 1958.
“For more than a century we have leaned on the brilliance and the capabilities of universities to help us think,” Cavolowsky said. “With ULI we can ensure they continue to bring their fresh ideas and young energy to the work we do at NASA Aeronautics.”
ULI evolved from an earlier project called Leading Edge Aeronautics Research for NASA (LEARN). NASA selected five LEARN teams in 2015 to pursue truly outside of the box ideas that showed promise but needed additional study.
One of those teams, for example, sought to take a cue from migrating flocks of birds by asking if airliners could save fuel by cruising in a giant ‘V’ formation. The numbers were intriguing and simple flight tests proved the concept, although the idea never made it to practice.
One of the earliest selected ULI teams was led by James Coder, who at the time was an aerospace engineering professor at the University of Tennessee in Knoxville. His team worked on technology that would smooth the airflow around a wing to make it more efficient.
Technically known as slotted natural laminar flow (SNLF) wings, Coder has called the idea a potential game changer for commercial airliners. The more efficient wing would mean less drag on an airplane, which in turn could help airlines save money on fuel.
Coder credits ULI for not only helping to prove the technology’s effectiveness – with the aid of wind tunnel testing at NASA’s Ames Research Center in California – but for providing students with an experience they couldn’t get elsewhere.
Three University of Tennessee/Knoxville students and co-investigator Dan Somers (in red jacket) prepare a slotted laminar flow wing section for testing in a wind tunnel at NASA’s Ames Research Center in California.
University of Tennessee/Knoxville
“After 10 years industry remains interested in the SNLF technology and I am optimistic for good reason about its future,” Coder said. “And project alumni have gone on to do many wonderful things and leverage what they did and learned through the ULI.”
With ULI experience prominent on their resumes, several of the students on Coder’s team wound up with jobs in industry – such as Boeing and Lockheed Martin – and government labs. One is currently a NASA Pathways intern working on his PhD.
Now at Pennsylvania State University, Coder remains a strong advocate for ULI.
“It goes above and beyond simple workforce development,” he said. “We recognized early on the value-add of ULI is the students themselves. While we could have just trained students en masse, we wanted to put them in the front seat of technical leadership on the project. I think this was a very successful strategy that benefited the project and the students as they embarked on their careers.”
Mighty morphing
Forrest Carpenter is another example of a student whose ULI support led to work after graduation – in this case at NASA.
“Working on the ULI project was an incredible experience, one I will always be thankful for and will remember fondly,” Carpenter said. “I think the project challenged me to be something more than ‘just an engineer;’ really helping my professional development and giving me a clearer focus on my passion.”
As a student at Texas A&M, he was part of a team selected by NASA in 2017 to research a novel idea in which a supersonic aircraft could alter its shape to fly more efficiently based on the atmospheric conditions in real time. Dimitris Lagoudas, now the university’s interim department head for aerospace engineering, led the team.
Members of a University Leadership Initiative round one team led by Texas A&M University participate in a status update meeting with NASA prior to their final review in 2022.
Texas A&M University / Jonathan Weaver-Rosen
A laser shooting out ahead of the aircraft would take measurements of the oncoming air and then the aircraft’s computer would command patches of shape memory alloys and other mechanisms to morph the aircraft’s outer shape.
One possible application of the technology could be in contributing to the reduction of the loudness of a sonic boom, expanding on the science behind NASA’s X-59 quiet supersonic technology demonstrator that seeks to reduce the sonic boom to a sonic thump.
“My main research role on the team was performing Computational Fluid Dynamics simulations of the various geometries we were looking at, including a pre-production version of X-59,” Carpenter said.
His work on the idea continues. A follow-on NASA project, GoSWIFT, will flight test the core technologies Carpenter and his ULI team worked on at Texas A&M. Only this time, Carpenter is the co-lead for the tests, which are targeted to take place at NASA’s Armstrong Flight Research Center in California in the near future.
Carpenter’s enthusiasm for his work and gratitude for how ULI led to his career with NASA resonates with many other ULI alumni.
“The number of students impacted, and how they were impacted, by a long-term project like ULI is huge,” Carpenter said. “NASA’s involvement in this kind of activity can only strengthen the research done in this country and to help inspire and develop the next generation of our workforce.”
Jim Banke is a veteran aviation and aerospace communicator with more than 40 years of experience as a writer, producer, consultant, and project manager based at Cape Canaveral, Florida. He is part of NASA Aeronautics' Strategic Communications Team and is Managing Editor for the Aeronautics topic on nasa.gov. In 2007 he was recognized with a Distinguished Public Service Medal, NASA's highest honor for a non-government employee.
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