TerraPower's advanced nuclear reactor design can use depleted uranium—currently treated as waste—as fuel. The amount of this material already stored in a single U.S. facility is sufficient to meet the entire planet's energy needs, carbon-free, for hundreds of years.
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Today's nuclear energy boom is propelled by strong commercial demand from AI data centers and defense, not government R&D. This market-driven "demand pull" for energy is finally creating the business case for advanced and small modular reactors.
The massive energy consumption of AI has made tech giants the most powerful force advocating for new power sources. Their commercial pressure is finally overcoming decades of regulatory inertia around nuclear energy, driving rapid development and deployment of new reactor technologies to meet their insatiable demand.
Facing immense electricity needs for AI, tech giants like Amazon are now directly investing in nuclear power, particularly small modular reactors (SMRs). This infusion of venture capital is revitalizing a sector that has historically relied on slow-moving government funding, imbuing it with a Silicon Valley spirit.
Contrary to popular imagery, spent nuclear fuel is a solid that is initially stored in deep pools of water. Water is such an effective radiation shield that trained divers can safely swim in the pools for maintenance. This highlights the managed safety of nuclear waste.
The 40-year plateau in nuclear power wasn't driven by public fear after incidents like Chernobyl, but by the soaring costs of building massive, one-off reactors. The modern push for Small Modular Reactors (SMRs) aims to solve this fundamental economic problem through factory-based production.
Public perception of nuclear power is skewed by highly visible but rare disasters. A data-driven risk analysis reveals it is one of the safest energy sources. Fossil fuels, through constant air pollution, cause millions of deaths annually, making them orders of magnitude more dangerous.
Despite nuclear power's poor public image based on fission, significant advances in fusion technology are positioning it as a potential solution for clean, abundant energy. We may look back on 2026 as the year this shift became viable.
After massive cost overruns on traditional nuclear projects, no utility will build a Small Modular Reactor (SMR) alone. The only viable path forward is for a tech giant to provide both a purchase agreement for the power and direct equity investment in the SMR manufacturer to fund capital expenditures.
TerraPower's breeder reactor simplifies a complex process by functioning like a candle. An initial reaction "melts" the abundant U-238 fuel, making it usable. This allows the reactor to continuously prepare its own fuel as it runs, just as a candle wick draws up melted wax.
For decades, electricity consumption was flat. Now, the massive energy demands of AI data centers are making clean, reliable, baseload power like nuclear an essential component of the energy grid, not just an option.