During a severe accident (SA) in a nuclear power plant (NPP), there are several challenges that need to be faced. To coup with a containment overpressure, the venting action will lower the pressure but it will release radioactivity to the environment. In order to reduce the radioactivity released, a filtered containment venting system (FCVS) can be used to retain iodine and aerosols radioactive releases coming from the containment atmosphere. However, during a SA, large quantities of hydrogen can also be generated. Hydrogen reacts violently with oxygen and its combustion could impair systems, components, or structures. For this reason, to protect the integrity of the FCVS against hydrogen explosions, an inertization system is found necessary. This system should create an inert atmosphere previous to any containment venting that impedes the contact of hydrogen and oxygen. In this paper, the inertization system for Cofrentes NPP is presented. It consists of a nitrogen injection located in three different points. A computational model of the FCVS as well as the inertization system has been created. The results show that if the nitrogen sweeps and the containment venting are properly synchronized, the hydrogen risk could be reduced to a minimum and therefore, the integrity of the FCVS would be preserved.
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July 2018
Research-Article
Analysis of Inertization Strategies for the Filtered Containment Venting System in Cofrentes Nuclear Power Plant
Kevin Fernández-Cosials,
Kevin Fernández-Cosials
Energy Engineering Department,
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: kevin.fcosials@upm.es
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: kevin.fcosials@upm.es
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Gonzalo Jiménez,
Gonzalo Jiménez
Energy Engineering Department,
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: gonzalo.jimenez@upm.es
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: gonzalo.jimenez@upm.es
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César Serrano,
César Serrano
Iberdrola Generación Nuclear,
Madrid 28050, Spain
Madrid 28050, Spain
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Ángel Peinado
Ángel Peinado
Iberdrola Generación Nuclear,
Madrid 28050, Spain
Madrid 28050, Spain
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Kevin Fernández-Cosials
Energy Engineering Department,
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: kevin.fcosials@upm.es
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: kevin.fcosials@upm.es
Gonzalo Jiménez
Energy Engineering Department,
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: gonzalo.jimenez@upm.es
Universidad Politécnica de Madrid,
Madrid 28006, Spain
e-mail: gonzalo.jimenez@upm.es
César Serrano
Iberdrola Generación Nuclear,
Madrid 28050, Spain
Madrid 28050, Spain
Luisa Ibáñez
CT3,
Madrid 28050, Spain
Madrid 28050, Spain
Ángel Peinado
Iberdrola Generación Nuclear,
Madrid 28050, Spain
Madrid 28050, Spain
Manuscript received July 4, 2017; final manuscript received November 20, 2017; published online May 16, 2018. Assoc. Editor: Masaki Morishita.
ASME J of Nuclear Rad Sci. Jul 2018, 4(3): 031016 (13 pages)
Published Online: May 16, 2018
Article history
Received:
July 4, 2017
Revised:
November 20, 2017
Citation
Fernández-Cosials, K., Jiménez, G., Serrano, C., Ibáñez, L., and Peinado, Á. (May 16, 2018). "Analysis of Inertization Strategies for the Filtered Containment Venting System in Cofrentes Nuclear Power Plant." ASME. ASME J of Nuclear Rad Sci. July 2018; 4(3): 031016. https://doi.org/10.1115/1.4038595
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