U.S. Windpower installs the world’s first wind farm in New Hampshire

Story: 1980 C.E.  |  Last updated: January 1, 1980

On the north slope of Crotched Mountain, in a small New Hampshire town, a company born from a university research program planted 20 turbines in the ground and connected them to the electrical grid. It was late 1980 C.E. Nothing like it had existed anywhere on Earth before.

Key facts

• World’s first wind farm: U.S. Windpower built the Crotched Mountain Wind Farm in late 1980 C.E. on land owned by the Crotched Mountain Rehabilitation Center, a hospital and school serving individuals with disabilities.
• Wind turbine output: Each of the 20 turbines produced just 30 kilowatts at full capacity — roughly 100 times less than modern turbines — but the array fed power directly into the grid, making it a functioning wind farm rather than a demonstration unit.
• UMass-Amherst wind program: The farm grew directly out of the wind energy research program at the University of Massachusetts Amherst, whose early graduates founded U.S. Windpower and developed the WF-1 turbine — now preserved in the Smithsonian Institution.

What Crotched Mountain actually was

By modern standards, the farm was a technical struggle from the start. The towers stood only 60 feet tall. The most common wind speed recorded was 13 mph — barely above the turbines’ functional minimum. Blades broke off in high winds. On any given day, most of the turbines weren’t spinning at all, waiting for parts or repair crews.

It lasted a year or two before being quietly dismantled. Today, a few concrete slabs in the brush are all that remain of the towers.

But none of that diminishes what it was: a proof of concept. The grid connection was real. The ambition was real. And the people who built it — engineers fresh from a university program, alongside hospital staff and, as later accounts revealed, hired “wind farm watch” workers who sat in a trailer on the mountain among the turbines — were genuinely pioneering something.

From a New Hampshire hillside to the modern wind industry

After Crotched Mountain, U.S. Windpower moved to California, later rebranding as Kenetech. The company’s technology eventually passed to General Electric, which became the largest wind turbine manufacturer in the United States. A direct line runs from those 20 struggling turbines on a New Hampshire hillside to the massive installations that now power millions of American homes.

The more immediate next step was Altamont Pass Wind Farm in California, which launched the commercial wind industry in the early 1980s C.E. Altamont Pass was, in significant part, a product of the same UMass-Amherst lineage that produced Crotched Mountain.

It’s worth pausing on how that lineage worked. A public university research program trained engineers. Those engineers founded a company. That company built an experimental farm on the land of a disability services nonprofit in rural New Hampshire. The farm failed commercially but proved the concept and trained the next generation of practitioners. The knowledge moved west and scaled. This is how many foundational technologies actually develop — not in a single dramatic breakthrough, but through a chain of incremental, often unglamorous steps.

The Smithsonian Institution recognized the significance early enough to preserve a WF-1 turbine from the UMass-Amherst program — the direct ancestor of the Crotched Mountain machines.

A note on what came before

The source material is careful to draw a distinction: the world’s first wind *turbine* was erected on Grandpa’s Knob in Castleton, Vermont, in 1940 C.E. — decades earlier. Crotched Mountain’s claim is specifically to the world’s first wind *farm*: a multi-turbine, grid-connected array designed to function as a power station. That distinction matters. Single turbines had existed for 40 years. The farm concept — aggregated generation, shared infrastructure, commercial-scale ambition — was genuinely new in 1980 C.E.

It is also worth noting that wind power as a concept is ancient. Windmills ground grain and pumped water across Persia, China, the Netherlands, and the Americas for centuries before electricity existed. The engineers at UMass-Amherst were not inventing wind energy. They were translating a very old idea into a new context — the electrical grid — at a moment when the 1970s oil crisis had made the urgency of that translation impossible to ignore.

Lasting impact

The wind energy sector that exists today — the International Renewable Energy Agency estimates that wind now accounts for roughly 2,000 gigawatts of installed capacity worldwide — traces a direct intellectual and industrial lineage to the UMass-Amherst program and the Crotched Mountain experiment. General Electric’s wind division, Vestas, Siemens Gamesa, and others all build on foundational engineering concepts that were being tested in New Hampshire in 1980 C.E.

Beyond the technology, Crotched Mountain mattered as a demonstration that wind farms could exist at all — that the regulatory, logistical, and engineering challenges of connecting multiple turbines to a grid could be solved. Every wind farm built since has inherited that proof.

The Crotched Mountain Rehabilitation Center, for its part, continues operating today with a workforce of around 800, running a special education school and a rehabilitation hospital. Its hiking trails — built around where the turbines once stood, and among the longest wheelchair-accessible trails anywhere in the world — remain open to the public for free. The turbines are gone. The mission that hosted them is still very much alive.

Blindspots and limits

The historical record on Crotched Mountain is thin. Most of what exists comes from a single journalist’s 2013 C.E. retrospective, supplemented by recollections from center staff. Independent scholarly documentation is limited, and the “world’s first” designation — while widely accepted and consistent with the known history of the UMass-Amherst program — has not been exhaustively verified against international records. It is possible that smaller or less-documented grid-connected multi-turbine installations existed elsewhere, particularly in Europe, during the same period. The early wind industry also had real environmental costs at some sites, most notably bird mortality at Altamont Pass, which became a serious problem the industry spent decades working to address.

Read more

For more on this story, see: Granite Geek / Concord Monitor

For more from Good News for Humankind, see:

• Renewables now make up at least 49% of global power capacity
• Indigenous land rights: 160 million hectares secured ahead of COP30
• The Good News for Humankind archive on renewable energy

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