Floating power-generating unit with a KLT-40S reactor system for desalinating sea water

Kostin, V. I.; Panov, Yu.K.; Polunichev, V. I.; Shamanin, I. E.

doi:10.1007/s10512-007-0004-4

Cited by 20 publications

(2 citation statements)

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“…The Akademik Lomonosov could also be converted into a desalination plant [29] producing 240,000 m 3 of fresh water per day, an immensely interesting solution for seaside countries with scarce water resources located in Northern Africa and the Middle East. The Akademik Lomonosov, with a lifespan of 40 years and a 4 years construction period for the Nth-of-a-kind plant, will be re-fueled every three years and will have a 12 years service cycle, when the plant will be moved to undergo service and maintenance at a Baltic shipyard.…”

Section: Akademik Lomonosov (Russia)mentioning

confidence: 99%

Recent Advances in Ocean Nuclear Power Plants

et al. 2015

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Abstract:In this paper, recent advances in Ocean Nuclear Power Plants (ONPPs) are reviewed, including their general arrangement, design parameters, and safety features. The development of ONPP concepts have continued due to initiatives taking place in France, Russia, South Korea, and the United States. Russia's first floating nuclear power stations utilizing the PWR technology (KLT-40S) and the spar-type offshore floating nuclear power plant designed by a research group in United States are considered herein. The APR1400 and SMART mounted Gravity Based Structure (GBS)-type ONPPs proposed by a research group in South Korea are also considered. In addition, a submerged-type ONPP designed by DCNS of France is taken into account. Last, issues and challenges related to ONPPs are discussed and summarized.

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Section: Akademik Lomonosov (Russia)mentioning

confidence: 99%

Recent Advances in Ocean Nuclear Power Plants

et al. 2015

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“…The study related to the use of the KLT-40S system as a power plant and thermal energy supplier for seawater desalination has been done [6]. This study contained a feasibility test and an initial design of KLT-40S as a floating power plant for power generation and thermal energy for seawater desalination.…”

Section: Introductionmentioning

confidence: 99%

The Study of Floating Nuclear Power Plant Reactor Core Neutronic Parameters Using Scale 6.1 Code

Fajri¹,

Agung²,

Harto³

2020

Int. J. Adv. Sci. Eng. Inf. Technol.

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KLT-40S nuclear reactor is a small modular floating nuclear power plant made by Russia as a conventional light water reactor (LWR) problem solution nowadays, such as high overnight cost, long commissioning period, and lack of flexibility in supplying a small load of electricity and supplying electricity to isolated areas. With those characteristics, the KLT-40S is suitable to be applied to isolated areas with a small electrical load like archipelagic states such as Indonesia. Based on that reason, Indonesia needs to assess the KLT-40S floating nuclear power plant feasibility study through explorative research. One of those is assessing the reactor core neutronic parameter. In this research, the reactor core modelling is done by using the KENO VIA and T-6DEPL module in SCALE 6.1 code package. Several variations of reactor operating parameters such as fuel composition and configuration, fuel temperature, moderator temperature, and moderator void fraction had been done in this research. The aim was to get several neutronic parameters to confirm the core feasibility from operational and inherent safety perspectives. Those neutronic parameters are fuel cycle length and reactivity feedback coefficient of fuel temperature, moderator temperature, and moderator void fraction. Based on this research result, the fuel configuration that produces 28 months of cycle length is the fuel base of dispersed UO 2 in the silumin matrix with 18,6 % 235 U enrichment. Both of the two fuel bases used in this research have inherent safety characteristics, which are shown by the negative value of the reactivity feedback coefficient of fuel temperature, moderator temperature, and moderator void fraction. Dispersed UO 2 in the silumin matrix fuel base has better inherent safety characteristics than the UO 2 ceramic metal fuel base.

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