Highlights
- Europe’s net-zero future is critically dependent on rare earth minerals.
- Nearly 90% of the wind turbine magnet supply chain is controlled by China.
- By 2050, retired turbines could potentially yield 300 tons of rare earths annually.
- Recycled rare earths could meet a third of domestic demand if recycling is optimized.
- The EU risks losing wind industry sovereignty without decisive investment in:
- Mining
- Refining
- Recycling
- Magnet innovation
As Europe races toward its net-zero future, a stark reality looms beneath the spin of every wind turbine: the continent’s clean energy transition is tethered to a brittle chain of critical minerals it does not control. A new report from the European Commission’s Joint Research Centre (JRC), led by Samuel Carrara and colleagues, delivers a meticulously researched and deeply troubling picture of the EU’s dependency on rare earths—especially neodymium, praseodymium, dysprosium, and terbium—for wind power technologies.
Key Critical Minerals/Rare Earth Elements
At the heart of the crisis is the NdFeB permanent magnet—the silent workhorse in modern wind turbines. These magnets are essential for high-performance direct-drive generators, particularly offshore. Yet nearly 90% of the entire global supply chain for these rare earth magnets—from oxide to final component—is controlled by China. Europe, by contrast, has no active rare earth mining, only one processing facility (in Estonia), and a fledgling recycling sector just beginning to scale. The rest of the supply chain—magnets, motors, generators—is overwhelmingly foreign, and increasingly vulnerable to price shocks, trade disruptions, and political leverage.
European Problems
The study maps out this risk in compelling detail: even if all known EU rare earthprojects went online tomorrow, permitting, processing, and marketintegration challenges would leave the bloc years—if not decades—behind. And the problem is not limited to rare earths. Balsa wood, used in turbine blades, is almost entirely sourced from Ecuador. Global demand for balsa and heavy rare earths is set to exceed current supply by 2030, even under conservative growth scenarios.
What Europe Resilience? Circular Economy Decades Away?
The report does not stop at diagnosis. It lays out the raw arithmetic of the future: by 2050, Europe’s retired turbines could yield over 300 tons of rare earths annually, enough to meet a third of domestic demand—if recycling is optimized. Yet today, Europe lacks the infrastructure, regulation, and industrial incentive to recover these metals at scale. The EU’s Critical Raw Materials Act and Net-Zero Industry Act set bold targets, but the systems to meet them remainskeletal.
Critically, the report warns of a narrowing window. China is not only maintaining dominance—it is greening and standardizing its wind sector, scaling circular economy solutions, and exporting cheaper, high-quality turbines globally. If the EU fails to act decisively—by investing in rare earth mining, refining, recycling, and magnet innovation—it risks ceding the wind industry itself.
This isn’t just a race for materials. It’s a race for sovereignty.
Source: Carrara et al., “Deep Dive on Critical Raw Materials for Wind Turbines in the EU (opens in a new tab),” JRC, European Commission, 2025.
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