Energy transition technologies
Gas-to-nuclear conversion, geothermal integration, and grid-ready solar programs that decarbonize existing assets while keeping them earning. Rapid cutover without stranded sites or downtime.
Emissions impact
-80% vs legacy
Hybrid uptime
99%+
Grid stability
AI-optimized
Gas-to-nuclear conversion
Transition gas peakers into nuclear-backed resiliency nodes using existing interconnects and transmission rights.
Hybrid geothermal grids
Blend geothermal baseload with SMR heat for higher capacity factors and dispatchable flexibility.
Grid-ready solar orchestration
Integrate solar with SMR backup, battery storage, and AI dispatch to stabilize renewables-heavy grids.
Brownfield acceleration
Repower retired coal or gas sites with modular reactors to reuse permits, cooling, and workforce.
Outcomes
Transition, without downtime
Keep revenue flowing while carbon intensity falls and resilience rises.
Carbon drop-in
Decarbonize legacy assets without waiting for new grid infrastructure.
Resilience uplift
Hybrid stacks deliver firm capacity during peak demand and extreme weather.
Faster approvals
Leverage existing sites and rights-of-way to compress regulatory timelines.
Economic reuse
Preserve jobs, transmission corridors, and balance sheets while greening output.
Method
How we phase legacy assets
Practical, step-by-step transition plans that reuse corridors, interconnects, and workforces while cutting emissions.
Assess and model
- Grid and thermal audits of legacy assets, corridors, and rights-of-way.
- Digital twins that simulate cutover, ramp rates, and reserve margins.
- Environmental and stakeholder baselines with rapid permitting pathways.
Hybridize and cut over
- Parallel build with SMR modules, geothermal tie-ins, and storage buffers.
- AI dispatch that balances renewables, nuclear, and legacy assets without outages.
- Brownfield-first civil scopes that reuse cooling, roads, and transmission.
Operate and localize
- Local workforce training, simulator time, and certification tracks.
- Fuel, maintenance, and OEM spares plans sized to sovereign timelines.
- Performance dashboards for regulators, lenders, and community stakeholders.
Detailed scope
What the hybrid platform delivers
Everything needed to design, build, and operate hybridized assets with sovereign alignment.
Assessment & design
- Grid and thermal audits of existing plants and substations.
- Repower options with SMR, geothermal, and solar-hybrid stacks.
- Interconnect and protection studies to keep uptime high.
Execution & cutover
- Parallel build while legacy units taper to avoid downtime.
- Modular balance-of-plant and storage to absorb intermittency.
- Operator training and grid-code compliance baked in.
Commercial & policy
- IPP and utility contracting models that avoid stranded assets.
- Policy alignment for incentives, wheeling, and offsets/attributes.
- Industrial offtake strategies for heat, power, and hydrogen.
Proof
Representative transition playbooks
Scenario-tested reference plays that can be adapted to sovereign regulators, utilities, and industrial anchors.
Repower of a retired coal site into a 200 MWe hybrid SMR + solar + battery node without new corridors.
Conversion of two gas peakers into load-following SMR/solar hybrids to supply a green industrial zone.
Geothermal + SMR pairing that lifted capacity factor above 85 percent while keeping downtime below 1 percent.
Solar orchestration pilots that reduced curtailment by 30 percent while adding fast frequency response.