Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident

Vilela, Guilherme Trindade

Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident

Bibliographic Details
Main Author:	Vilela, Guilherme Trindade
Publication Date:	2023
Format:	Master thesis
Language:	eng
Source:	Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB)
Download full:	https://www.repositorio.mar.mil.br/handle/ripcmb/846441
Summary:	Marine nuclear reactors, especially when powering submarines, take most of the benefits which this technology can provide. Due to their high power density, small fuel storage volume required, and the long or even dismissed interval of refueling, marine reactors provide good applicability of nuclear technology. However, the cladding of the reactor fuel elements employs materials that can generate hydrogen posing combustion risks and threats to the containment integrity. Space is limited in a marine reactor containment, and a small amount of hydrogen released can become a potential combustion source. In this study, a computational simulation using the commercial multi-purpose code ANSYS Fluent was performed to provide local distributions of temperature, pressure, hydrogen, and steam concentrations in a reactor containment. These parameters were used for the assessment of hydrogen combustion risk during an accidental scenario. The utilization of a multipurpose code presented the inconvenience of the absence of in-built phase change models for condensation modeling. The condensation phenomenon was modeled in the code through the implementation of external subroutines to introduce steam mass sinks and water mass sources on the domain cells. The magnitude of these sources was calculated based on empirical condensation correlations. During the progression of an accident, condensation plays an important role in limiting pressure increase and increasing heat removal in the containment structures. Moreover, condensation also affects the hydrogen combustion risk as it reduces the volume fraction of steam in the containment atmosphere and allows the expansion of the flammable hydrogen cloud. Hydrogen combustion risk and the possibility of slow deflagration, flame acceleration, and deflagration to detonation transition were assessed from the utilization of the Sigma and Lambda criteria. A theoretical zero-dimensional model has been proposed for the validation of the simulation results, due to the absence of experimental data.

Item metadata

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spelling	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accidentengenharia nuclearacidente de perda de refrigeração do núcleo reatorrisco de combustão de hidrogêniocondensação na presença de gases não-condensáveisEngenharia nuclearMarine nuclear reactors, especially when powering submarines, take most of the benefits which this technology can provide. Due to their high power density, small fuel storage volume required, and the long or even dismissed interval of refueling, marine reactors provide good applicability of nuclear technology. However, the cladding of the reactor fuel elements employs materials that can generate hydrogen posing combustion risks and threats to the containment integrity. Space is limited in a marine reactor containment, and a small amount of hydrogen released can become a potential combustion source. In this study, a computational simulation using the commercial multi-purpose code ANSYS Fluent was performed to provide local distributions of temperature, pressure, hydrogen, and steam concentrations in a reactor containment. These parameters were used for the assessment of hydrogen combustion risk during an accidental scenario. The utilization of a multipurpose code presented the inconvenience of the absence of in-built phase change models for condensation modeling. The condensation phenomenon was modeled in the code through the implementation of external subroutines to introduce steam mass sinks and water mass sources on the domain cells. The magnitude of these sources was calculated based on empirical condensation correlations. During the progression of an accident, condensation plays an important role in limiting pressure increase and increasing heat removal in the containment structures. Moreover, condensation also affects the hydrogen combustion risk as it reduces the volume fraction of steam in the containment atmosphere and allows the expansion of the flammable hydrogen cloud. Hydrogen combustion risk and the possibility of slow deflagration, flame acceleration, and deflagration to detonation transition were assessed from the utilization of the Sigma and Lambda criteria. A theoretical zero-dimensional model has been proposed for the validation of the simulation results, due to the absence of experimental data.Texas A&M UniversityHassan, Yassin A.Vilela, Guilherme Trindade2023-11-28T12:23:18Z2023-11-28T12:23:18Z2023info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttps://www.repositorio.mar.mil.br/handle/ripcmb/846441info:eu-repo/semantics/openAccessengreponame:Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB)instname:Marinha do Brasil (MB)instacron:MB2024-04-15T14:42:23Zoai:www.repositorio.mar.mil.br:ripcmb/846441Repositório InstitucionalPUBhttps://www.repositorio.mar.mil.br/oai/requestdphdm.repositorio@marinha.mil.bropendoar:2024-04-15T14:42:23Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB) - Marinha do Brasil (MB)false
dc.title.none.fl_str_mv	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
title	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
spellingShingle	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident Vilela, Guilherme Trindade engenharia nuclear acidente de perda de refrigeração do núcleo reator risco de combustão de hidrogênio condensação na presença de gases não-condensáveis Engenharia nuclear
title_short	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
title_full	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
title_fullStr	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
title_full_unstemmed	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
title_sort	Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident
author	Vilela, Guilherme Trindade
author_facet	Vilela, Guilherme Trindade
author_role	author
dc.contributor.none.fl_str_mv	Hassan, Yassin A.
dc.contributor.author.fl_str_mv	Vilela, Guilherme Trindade
dc.subject.por.fl_str_mv	engenharia nuclear acidente de perda de refrigeração do núcleo reator risco de combustão de hidrogênio condensação na presença de gases não-condensáveis Engenharia nuclear
topic	engenharia nuclear acidente de perda de refrigeração do núcleo reator risco de combustão de hidrogênio condensação na presença de gases não-condensáveis Engenharia nuclear
description	Marine nuclear reactors, especially when powering submarines, take most of the benefits which this technology can provide. Due to their high power density, small fuel storage volume required, and the long or even dismissed interval of refueling, marine reactors provide good applicability of nuclear technology. However, the cladding of the reactor fuel elements employs materials that can generate hydrogen posing combustion risks and threats to the containment integrity. Space is limited in a marine reactor containment, and a small amount of hydrogen released can become a potential combustion source. In this study, a computational simulation using the commercial multi-purpose code ANSYS Fluent was performed to provide local distributions of temperature, pressure, hydrogen, and steam concentrations in a reactor containment. These parameters were used for the assessment of hydrogen combustion risk during an accidental scenario. The utilization of a multipurpose code presented the inconvenience of the absence of in-built phase change models for condensation modeling. The condensation phenomenon was modeled in the code through the implementation of external subroutines to introduce steam mass sinks and water mass sources on the domain cells. The magnitude of these sources was calculated based on empirical condensation correlations. During the progression of an accident, condensation plays an important role in limiting pressure increase and increasing heat removal in the containment structures. Moreover, condensation also affects the hydrogen combustion risk as it reduces the volume fraction of steam in the containment atmosphere and allows the expansion of the flammable hydrogen cloud. Hydrogen combustion risk and the possibility of slow deflagration, flame acceleration, and deflagration to detonation transition were assessed from the utilization of the Sigma and Lambda criteria. A theoretical zero-dimensional model has been proposed for the validation of the simulation results, due to the absence of experimental data.
publishDate	2023
dc.date.none.fl_str_mv	2023-11-28T12:23:18Z 2023-11-28T12:23:18Z 2023
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv	info:eu-repo/semantics/masterThesis
format	masterThesis
status_str	publishedVersion
dc.identifier.uri.fl_str_mv	https://www.repositorio.mar.mil.br/handle/ripcmb/846441
url	https://www.repositorio.mar.mil.br/handle/ripcmb/846441
dc.language.iso.fl_str_mv	eng
language	eng
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	application/pdf
dc.publisher.none.fl_str_mv	Texas A&M University
publisher.none.fl_str_mv	Texas A&M University
dc.source.none.fl_str_mv	reponame:Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB) instname:Marinha do Brasil (MB) instacron:MB
instname_str	Marinha do Brasil (MB)
instacron_str	MB
institution	MB
reponame_str	Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB)
collection	Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB)
repository.name.fl_str_mv	Repositório Institucional da Produção Científica da Marinha do Brasil (RI-MB) - Marinha do Brasil (MB)
repository.mail.fl_str_mv	dphdm.repositorio@marinha.mil.br
_version_	1830671576887984128

Study of hydrogen risk in a marine nuclear reactor during a loss of coolant accident

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