Old Wind Turbines Are Being Used In Ways That Totally Would Surprise You






While wind turbines continue to improve in both efficiency and power generation, recycling them has been more of a challenge. And with the amount of waste expected to rise as wind power continues to garner more popularity, the situation calls for solutions. In 2025, New York’s first wind farm was torn down, with some of its components potentially ending up in a landfill. 

Fortunately, in addition to conventional recycling methods, one part of these machines (the nacelle) has found a new purpose as a tiny home. The project, “The Nestle Tiny House,” is the first of its kind by Superuse Studios and a European energy company, Vattenfall. Perhaps more of these homes could be on the way.

The nacelle (the large housing adjacent to the blades at the top of the structure) can apparently transform into modern living quarters once retired from service. The 376-square-foot structure includes a kitchen and bathroom with functional plumbing, along with a living room that presumably doubles as a bedroom when the sitting furniture is folded out. It also includes heating and a water heater, which are powered via solar panels on the roof. Jos De Krieger, a key member of both the company behind the project (Blade-Made) and a partner at design firm Superuse Studios, told CNN.com, “Everything in the built environment — everything that you see around you — has an end of life. And we need solutions besides waste or landfill, incineration, or something without value.”

Wind turbine blades remain a problem in terms of recycling

The average lifespan of wind turbines may surprise you: they typically have a service expectancy of up to 25 years. However, some units are failing sooner due to things like heavier-than-expected operational loads, blade erosion, and severe weather, to name a few. By far, the blades themselves remain the most difficult to recycle because of their exceptionally robust polymer construction. Jeremiah A. Johnson, an MIT Chemistry professor, explained regarding the blade material, “It’s essentially one giant molecule. Every atom is connected through a 3D network,” per Climate.MIT.edu. Due to this molecular structure, these blades can’t be heated to a liquid and repurposed like other less resilient polymers.

Without a straightforward way to recycle or reuse wind turbine blades, they can end up in large-scale heaps, such as one found in Sweetwater, Texas. This small town has been dealing with decommissioned wind turbine blades that, in 2023, covered an area north of thirty acres, with stacks several feet high.

Fortunately, efforts are underway to develop new ways to recycle these materials. Researchers at the University of Tennessee and Carbon Rivers have developed a method to break down the stout fiberglass from decommissioned blades so it can be reused to make new ones, per the U.S. Department of Energy. In addition, news of a self-repairing material could allow cars, planes, and wind turbines to last for hundreds of years, which could go a long way toward reducing waste.





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A 100-year-old World War II veteran was recently reunited with the tank he drove during the Battle of Iwo Jima. The tank was an M4 Sherman, and the veteran was Marine Corporal Leighton Willhite. The M4 Sherman was America’s most common tank during that war, with about 50,000 produced before the war’s end. It dominated the battlefield long after WWII.

The detective work behind the reunion of the soldier and the tank was performed by Jonathan Bernstein, Arms and Armor Curator at the National Museum of the Marine Corps. Bernstein did extensive research at the National Archives into the unique aspects of the tanks of the 5th Tank Battalion that served on Iwo Jima. It turns out that this specific tank, named “Lucky,” had countermeasures designed to minimize the effects of Japanese magnetic anti-tank mines. This included nails welded point-up onto its upper surfaces to prevent the mines from being placed flush against its upper body, where they would cause major armor damage. While the nails were gone, the weld scarring remained from where they’d been attached. Photographs shot during the battle confirmed that “Lucky” was present there on March 1, 1945. According to Bernstein, it is very rare to be able to put a specific crew together with the tank they operated, but it definitely happened here.

Corporal Willhite, who was 18 at the time, also demonstrated immense bravery when he and his commander left the tank to rescue another tank crew who became trapped. Willhite received the Bronze Star with Valor.

What role did Sherman tanks play in the Battle of Iwo Jima?

The M4 Sherman tanks, as exemplified by “Lucky,” played a key role in the Battle of Iwo Jima, where their biggest strengths and weaknesses were displayed. The volcanic sand terrain was difficult for the tanks to negotiate, causing many transmission failures for the Shermans. It’s also where three U.S. Marine divisions went up against a heavily fortified Japanese force that had no qualms about sacrificing itself to slow the Marines’ advance. 

A favorite Japanese tactic was to attack the Marines’ tanks with satchel charges strapped to their backs, detonating their charges after sliding underneath the tanks, where the armor was not as strong. Magnetic mines that stuck to the tanks’ bodies were also used by the Japanese. This led to a variety of “adaptations” made to the Sherman tanks. 

These included the welded-on nails, plus wooden planks along the sides of the tanks that protected the tanks’ suspensions and reduced the effects of shaped charges. In addition, there were other adaptations, including spraying sand onto freshly painted areas of the tank to prevent Japanese magnetic mines from adhering to it. Sections of the tanks’ tread, known as track blocks, were also spot-welded onto vulnerable parts of the tanks, such as the front and the turret, where they offered additional protection and could be accessed if spare parts were needed. According to a report from the 5th Tank Battalion on the subject of Iwo Jima, “The all-around performance of the M4A3 tank was exceptionally good.” During the five-week battle that ended in victory, 7,000 Marines died, and 20,000 were injured.

What happened to Lucky between Iwo Jima and its recovery at Camp Lejeune in 2002?

Following the victory at the Battle of Iwo Jima, “Lucky” went back to Hawaii, where it was refitted for its next planned role, showing how tanks shaped the course of WWII. Along with 71 other tanks, “Lucky” was converted into a flame-thrower tank, which replaced around 60% of its ammunition storage capacity with tanks capable of holding 300 gallons of napalm. The event that these 72 tanks were being prepared for was the invasion of Japan, which ended up not happening, thanks to the atomic bombs “Little Boy” and “Fat Man” being dropped on Hiroshima and Nagasaki, Japan, in August of 1945. This, combined with the concurrent Soviet invasion of Manchuria, led to Japan’s formal surrender in September of that year. 

Later, “Lucky” was used as a training tank for an indeterminate period, after which it was sent to Camp Lejeune, the Marine base in North Carolina. It was left in a wooded area of the base until it was discovered by some Marines in 2002, who sent it to the National Museum of the Marine Corps. And the rest is history.

The story of “Lucky” and Corporal Willhite is just one small piece of the vast World War II panorama of events that stretched across the entire world by the time it ended. It exemplifies how millions of American and other Allied soldiers were engaged in bloody battles across many different locations, fighting for a cause they truly believed in. There’s a reason that this cohort is known as “The Greatest Generation.”





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