A Global Review of PWR Nuclear Power Plants

Nuclear energy is presented as a real option in the face of the current problem of climate change and the need to reduce CO2 emissions. The nuclear reactor design with the greatest global impact throughout history and which has the most ambitious development plans is the Pressurized Water Reactor (P...

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Bibliographic Details
Published in:Applied sciences 2020-07, Vol.10 (13), p.4434
Main Authors: Fernández-Arias, Pablo, Vergara, Diego, Orosa, José A.
Format: Article
Language:English
Subjects:
Analysis
Design and construction
Equipment and supplies
International aspects
Life cycle assessment
Methods
nuclear energy
Nuclear power plants
operating factor
power
pressurized water reactor
Pressurized water reactors
Varieties
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Summary:Nuclear energy is presented as a real option in the face of the current problem of climate change and the need to reduce CO2 emissions. The nuclear reactor design with the greatest global impact throughout history and which has the most ambitious development plans is the Pressurized Water Reactor (PWR). Thus, a global review of such a reactor design is presented in this paper, utilizing the analysis of (i) technical aspects of the different variants of the PWR design implemented over the past eight years, (ii) the level of implementation of PWR nuclear power plants in the world, and (iii) a life extension scenario and future trends in PWR design based on current research and development (R&D) activity. To develop the second analysis, a statistical study of the implementation of the different PWR variants has been carried out. Such a statistical analysis is based on the operating factor, which represents the relative frequency of reactors operating around the world. The results reflect the hegemony of the western variants in the 300 reactors currently operating, highlighting the North American and French versions. Furthermore, a simulation of a possible scenario of increasing the useful life of operational PWRs up to 60 years has been proposed, seeing that in 2050 the generation capacity of nuclear PWRs power plants will decrease by 50%, and the number of operating reactors by 70%.
ISSN:2076-3417
2076-3417
DOI:10.3390/app10134434