Patrick Ryan, ABS Senior Vice President and Chief Technology Officer, stated: “Floating nuclear power facilities show promise in supporting power grids, microgrids, industrial and port operations, data centers, and other uses. Additionally, today’s advanced nuclear technology has a different risk profile from traditional reactor technology with state-of-the-art designs and with lower enrichment fuels, making commercial offshore and maritime applications more viable.”
An HD KSOE official remarked: “The floating nuclear power plant is expected to play a key role in building a future powered by clean energy. We will remain fully committed to developing the necessary technologies and ensuring its successful realization.”
This AIP marks HD KSOE’s second approval for a floating nuclear power barge design, reflecting ongoing collaboration with ABS on nuclear technology projects. These include another power barge concept and a 15,000 TEU nuclear-powered containership design. The partnership underscores efforts to advance sustainable energy solutions for maritime and coastal applications.
In related developments, ABS collaborated with Herbert Engineering Corp (HEC) to publish a study on floating nuclear-powered data centers, addressing design considerations for facilities supporting the growth of artificial intelligence, cloud computing, and cryptocurrencies. Additionally, ABS issued a report exploring the potential of nuclear technology in the maritime sector, focusing on the integration of an SMR on a standard liquefied natural gas (LNG) carrier.
The floating SMR design represents a significant step toward clean energy innovation, with potential to enhance energy supply reliability for diverse industrial and community needs.
