VARD is collaborating with the Norwegian University of Science and Technology in Alesund, Norway and other key stakeholders in the groundbreaking NuProShip I project, which explores nuclear propulsion for the maritime sector. 3 January 2025 The NuProShip project NuProShip, short for "Nuclear Propulsion in Shipping," will evaluate fourth-generation nuclear reactor technologies for their viability in commercial shipping applications. In this project, an extensive assessment of 99 companies developing advanced reactor technologies led to the selection of three promising reactor types: • Kairos Power (USA): Fluoride high-temperature molten salt reactor using TRISO fuel particles, designed for robust and efficient operation. • Ultrasafe (USA): Helium-cooled gas reactor, also employing TRISO fuel particles, known for their resilience and safety in extreme conditions. • Blykalla (Sweden): Lead-cooled reactor concept utilizing uranium oxide as fuel, offering high efficiency with advanced cooling mechanisms. TRISO fuel particles, noted for their durability and containment properties, play a crucial role in two of these reactor types, TRISO technology in fact, is renowned as one of the most resilient nuclear fuel types available today. 2629 nuclear 02 E ![]() Image by VARD. ![]() Image by VARD. Partners
NuProShip I, which concludes on December 31, 2024, will transition into the NuProShip II project, a two-year initiative to further refine solutions for nuclear propulsion in maritime applications. This second one will expand the consortium to include insurance companies, a critical step for evaluating the business viability of nuclear technology in the shipping industry. The NuProShip projects are funded by the Research Council of Norway, underscoring Norway’s commitment to innovation and sustainable solutions in maritime propulsion technology VARD - press release ![]() |