About
We are one of the very few startups worldwide with hands-on licensing experience for High-Temperature Gas-Cooled Reactors (HTGRs).
This unique position has enabled us to accumulate decades of practical knowledge, including:
How reactors behave under accident and off-normal conditions
How reactor cores respond physically and thermally
How operators actually act and make decisions in real operational environments
We provide end-to-end expertise across the entire nuclear plant lifecycle, excluding civil construction, supported by 20 years of cumulative experience in reactor design, operation, and safety analysis.
LET’S WORK TOGETHER!
Our Innovation
We have built a strategic intellectual property moat around our key technologies
• Core Design: Patented technology enabling operation with Low-Enriched Uranium.
• System Architecture: Patent applications filed for our innovative High-Temperature Gas Reactor concept and modular cluster design.
• Thermal Storage: Proprietary patents on world-leading graphite-based thermal energy storage and control systems.
• Simulation & Operation: Patented tools for reactor output optimization and safety analysis.
The Future of Energy: Next Gen HTGR
Why Us?
In our nuclear energy business, we have leveraged my background as a nuclear researcher to build a technology portfolio that improves economic performance without compromising safety.
Based on this portfolio, we are now developing original project structures and exploring new ways to deploy these technologies in practice.
In parallel, drawing on hands-on experience across many phases of next-generation reactor plant lifecycles—from design and safety analysis to operation—we are also evaluating opportunities to provide our technologies to existing nuclear projects, where they can be applied at various stages of the plant lifecycle.
We believe that the primary market for this nuclear business will be the United States.
Our Success Factor
In addition to our nuclear activities, we operate a thermal energy storage business that applies the same fundamental high-temperature gas reactor (HTGR) principles at a much smaller scale.
By reducing the system size to approximately one-thousandth of a nuclear reactor and replacing uranium fission with Joule heating generated from renewable electricity, we are able to store high-temperature heat and use it in a stable and controllable manner.
This approach allows us to accumulate high-quality experimental and operational data relevant to HTGR technologies, while simultaneously building a scalable business focused on industrial decarbonization.