ADES reactors use liquid thorium salt fuel, which operates at ambient pressure (no meltdown risks) and produces <1% of the long-lived waste of uranium reactors. They’re modular, scalable, and designed to integrate seamlessly with renewables.

Absolutely. CALstore™ captures excess renewable energy and waste heat, converting both into stable power. It’s a perfect buffer for cloudy days or monsoon season.

An ADES module delivers 20 years of uninterrupted, CO₂-neutral energy—powering up to 10,000 households continuously with minimal maintenance.

CALstore™ converts waste heat or excess renewable energy into electricity using eco-friendly, modular components, cutting CO₂ emissions.

CALstore™ stabilizes renewable energy by storing excess power as heat for on-demand use while capturing industrial waste heat—ideal for grid operators, data centers, SMEs, and factories needing 24/7 emission-free power.

ADES is extremely safe as its particle accelerator uses thorium fuel (no chain reactions) with a passively safe ON/OFF control unit.

CALstore uses an anhydrous salt mixture that poses no risk of vapor pressure or explosion.

Yes. ADES reactors are passively safe—their liquid fuel naturally drains into containment vessels if disrupted, requiring no human intervention.

Contact our team for an on-site assessment. We’ll analyze your energy needs, costs, and decarbonization potential.