Manufacturing the TNPP in a factory setting, e.g., in a shipyard, and bringing the power plant to site fully-assembled, dramatically reduce capital costs and project delivery schedule when compared to a traditional site-constructed nuclear build. These cost savings translate to more cost competitive energy prices for customers.

Customers and utilities can tailor the TNPP by SMR design, i.e., power output and energy type (e.g., for high heat applications), based on end use requirements. Multiple SMR modules can be packaged within the facility to reach target capacity ranging from ~5MWe to ~1GWe.

Minimum land requirement, and avoidance of significant on-site construction and land clearing reduce burdens on the local environment and biota.

Prodigy’s TNPP design leverages proven practices used in Oil & Gas to develop the toughest structures on earth, while ensuring qualification to meet existing nuclear safety, security and safeguards requirements. Our facilities’ civil structures prevent the release of radioactive materials, and work with and protect the SMR’s Defence in Depth features against external challenges and threats. Purpose-designed site infrastructure supporting the TNPP adds another ring of safeguards.

Add more SMR modules over time to meet growing power demand.

While typical nuclear plants develop an approach for waste management once a specific site is selected, Prodigy incorporates provisions for waste prevention, waste minimization and efficient decommissioning into the TNPP design upfront, providing early evidence to regulators, operators and end-users as to “how” hazardous waste would be mitigated and managed.