Indonesia
Indonesia is rapidly decarbonising. Its updated National Energy Policy targets 70-72% new renewable share by 2060, and a formal goal of net‑zero emissions by 2060. Significantly, Indonesia’s 2025-34 Power Plan (RUPTL) now includes nuclear: two SMRs (total 500 MW) on Sumatra and Kalimantan by 2034. A recent government decree even sets nuclear at 0.4% of generation by 2032 and 12.1% by 2060. These policies recognise the need for firm, clean baseload in the archipelago’s growing grids.
Thor Atomic's Solution
Thor Atomic’s flexible SMRs and medium reactors directly support Indonesia’s roadmap. Building on the planned 2×250 MW units, we can supply similar or larger reactors (e.g. 600-1,000 MW) tailored to Indonesia’s multi‑island system. In particular, advanced molten salt designs (already approved for site evaluation on Kelasa Island) align perfectly with our technology, utilizing local thorium. Our plants are engineered to Indonesia’s specifications – seismic stability, minimal cooling needs, and low water usage – ensuring they integrate smoothly into Sumatra, Kalimantan and beyond.
Strategic Impact
Clean Baseload for Islands
Reliable nuclear output means less reliance on coal or diesel generators in remote areas, improving supply to growing cities and industries.
Energy Sovereignty
Indonesia’s own thorium and uranium fuel eliminates future import needs, keeping energy dollars within the country.
Emissions Reduction
Achieving a 12.1% nuclear share by 2060 would offset millions of tonnes of CO₂ annually, accelerating the national decarbonization pathway.
Economic and Regional Leadership
Developing nuclear infrastructure catalyses high-tech jobs and positions Indonesia as a leader in advanced energy. It also unlocks local manufacturing opportunities for reactor components.
Thor Atomic stands ready to partner with Indonesia in realising its nuclear vision. By delivering proven nuclear solutions, we help ensure energy security and reliable growth across the archipelago – a critical step toward Indonesia’s clean‑energy future.