A floating nuclear power plant is a floating power station that derives its energy from a nuclear reactor. Instead of a stationary complex on land, they consist of a floating structure such as an offshore platform, barge or conventional ship.
Since the reactors employed are smaller in size and power than most commercial land-based reactors, mostly derived from nuclear ship and submarine power plants, the power output is generally a fraction of a conventional nuclear power plant, usually around 100MWe, although some are planned to have as much as 800MWe.
The advantage of such power plants is their relative mobility and their ability to deliver in-situ electric power "on demand" even to remote regions, since they can be moved or towed to position with relative ease within large water bodies, and then docked with coastal facilities to transfer the produced power and heat to a land power grid. However, environmental groups are concerned that floating nuclear power plants are more exposed to accidents than onshore power stations and also pose a threat to marine habitats.[1]
History
edit20th century
editThe first floating nuclear power station was the MH-1A, using pressurized water reactor built in a converted Liberty ship, which achieved criticality in 1967. Proposals to build a floating nuclear power plants off the coast of New Jersey and off Jacksonville, Florida were considered in the 1970's but ultimately scrapped.
21st century
editIn the 21st century, Russia has led in the practical development of floating nuclear power stations. On 14 September 2019, Russia’s first-floating nuclear power plant, Akademik Lomonosov, arrived to its permanent location in the Chukotka region.[2] It started operation on 19 December 2019.[3]
In 2022, the United States Department of Energy funded a three-year research study of offshore floating nuclear power generation.[4] In October 2022, NuScale Power and Canadian company Prodigy announced a joint project to bring a North American small modular reactor based floating plant to market.[5]
Samsung and UK-based Core Power[6] are also looking into using compact molten salt reactor technology in floating platforms, with the former aiming at a modular power barge of up to 800MWe.[7][8]
Advantages
edit- Virtually no land or concrete is used.
- Earthquake resistant.
- Easily transported for relocation, refueling, refurbishment and decommissioning.
- Surrounded by water that can be used for active or passive cooling.
- Available to remote locations where a conventional power plant would be unfeasible.[9]
See also
editFootnotes
edit- ^ "Akademik Lomonosov Floating Nuclear Co-generation Plant". Power Technology. 2020. Retrieved 18 January 2023.
- ^ "Russia's first sea-borne nuclear power plant arrives to its base". Reuters. 14 September 2019. Retrieved 15 September 2019.
- ^ "Russia connects floating plant to grid". World Nuclear News. 19 December 2019. Retrieved 20 December 2019.
- ^ "US begins study of floating nuclear plants". Nuclear Engineering International. 1 September 2022. Retrieved 2 September 2022.
- ^ "NuScale and Prodigy conceptual design for marine-based SMR plant". World Nuclear News. 27 October 2022. Retrieved 31 October 2022.
- ^ "Japanese firms invest in maritime nuclear developer Core Power : New Nuclear". World Nuclear News. 24 May 2023. Retrieved 25 May 2023.
- ^ Prevljak, Naida Hakirevic (12 April 2022). "Samsung Heavy, Seaborg join forces to develop floating nuclear power plants". Offshore Energy. Retrieved 5 January 2023.
- ^ Mandra, Jasmina Ovcina (4 January 2023). "Samsung forges ahead with CMSR power barge development". Offshore Energy. Retrieved 5 January 2023.
- ^ Economist, The (25 April 2014). "Here Are The Advantages Of Floating Nuclear Power Stations". Business Insider. Retrieved 17 January 2023.