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Fusion Energy: Why the Hardest Engineering Problem Is Getting Closer to Being Solved
Structure
•
Why Fusion Is Hard: The Plasma Confinement Problem Nobody Talks About Clearly
•
Tokamak History: From Soviet Labs to ITER's $22 Billion Bet
•
NIF Ignition in 2022: What It Actually Means (Energy Gain ≠ Commercial Viability)
•
Commonwealth, TAE, Helion, Zap Energy: Why the Private Fusion Boom Is Different This Time
•
The Tritium Problem: Fusion's Fuel Supply Challenge Nobody Discusses
•
What Commercial Fusion Actually Requires: From Q>1 to Plugging Into the Grid
Flow Structure
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nodes
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Fusion Energy: Why the Hardest Engineering Problem Is Getting Closer to Being Solved
#physics
#fusion
#energy
#engineering
#science
@garagelab
|
2026-05-16 20:14:12
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GET /api/v1/flows/64?fv=1
Version:
v1 (2026-05-16) (Latest)
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Nuclear fusion has been "30 years away" for 70 years. The joke has become so familiar it obscures something real: the engineering picture in 2024-2025 is genuinely different from what it was a decade ago. NIF achieved ignition. Private companies have raised billions and set specific timelines. The physics bottleneck has shifted to the engineering layer. This flow explains why fusion is hard, how far we've come, what the remaining challenges actually are, and what "closer" honestly means — without the hype that has plagued this field for decades.
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