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Energy
Energy

U.S. Firm Advances Thorium Reactor Development With 3D-Printed Components

Florida-based AMPERA uses additive manufacturing to build next-generation molten salt reactor modules, advancing the U.S. push into advanced nuclear energy.

Florida-based advanced nuclear energy company AMPERA has achieved a significant milestone in reactor technology by successfully fabricating nuclear reactor modules using 3D printing techniques. The development represents a meaningful step forward in the commercialization of thorium-based nuclear power, a technology that has drawn increasing attention as the U.S. seeks to expand its advanced energy portfolio and compete globally in next-generation nuclear innovation.

The company's 3D-printed reactor components, including the nuclear core and pressure vessel, are designed to support a factory-built, mass-produced nuclear energy system that operates on subcritical and solid-state principles. This manufacturing approach aims to streamline production, reduce costs, and enable faster deployment compared to traditional reactor construction methods, positioning the technology as a potential game-changer in the broader effort to develop reliable, scalable clean energy solutions.

The advancement underscores America's growing emphasis on advanced reactor designs as a counterweight to international progress in molten salt and thorium reactor technology. By leveraging additive manufacturing to accelerate development and reduce manufacturing complexity, companies like AMPERA are working to establish the U.S. as a leader in next-generation nuclear innovation while supporting broader decarbonization goals.

Advanced NuclearThorium Energy3D PrintingClean EnergyNuclear Technology
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