Data requirements for improving the Quantitative Risk Assessment of liquid hydrogen storage systems

Quantitative Risk Assessment (QRA) supports the development of risk-informed safety codes and standards which are employed to enable the safe deployment of hydrogen technologies essential to decarbonize the transportation sector. System reliability data is a necessary input for rigorous QRA. The lac...

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Vydané v:International journal of hydrogen energy Ročník 47; číslo 6; s. 4222 - 4235
Hlavní autori: Correa-Jullian, Camila, Groth, Katrina M.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Ltd 19.01.2022
Predmet:
Hydrogen safety
Liquid hydrogen storage
Quantitative risk assessment
Safety codes and standards
System safety
Liquid hydrogen storage
System safety
Safety codes and standards
Hydrogen safety
Quantitative risk assessment
ISSN:0360-3199
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Abstract Quantitative Risk Assessment (QRA) supports the development of risk-informed safety codes and standards which are employed to enable the safe deployment of hydrogen technologies essential to decarbonize the transportation sector. System reliability data is a necessary input for rigorous QRA. The lack of reliability data for bulk liquid hydrogen (LH2) storage systems located on site at fueling stations limits the use of QRAs. In turn, this hinders the ability to develop the necessary safety codes and standards that enable worldwide deployment of these stations. Through a QRA-based analysis of a LH2 storage system, this work focuses on identifying relevant scenario and probability data currently available and ascertaining future data collection requirements regarding risks specific to liquid hydrogen releases. The work developed consists of the analysis of a general bulk LH2 storage system design located at a hydrogen fueling station. Failure Mode and Effect Analysis (FMEA) and traditional QRA modeling tools such as Event Sequence Diagrams (ESD) and Fault Tree Analysis (FTA) are employed to identify, rank, and model risk scenarios related to the release of LH2. Based on this analysis, scenario and reliability data needs to add LH2-related components to QRA are identified with the purpose of improving the future safety and risk assessment of these systems. •Employed FMEA to identify failure scenarios for an on-site LH2 storage system.•Developed Event Sequence Diagram models of Liquid Hydrogen release scenarios.•Assessed LH2 storage system reliability with Fault Tree Analysis and generic data.•Identified data needs to add LH2 scenarios and components to QRA.
AbstractList Quantitative Risk Assessment (QRA) supports the development of risk-informed safety codes and standards which are employed to enable the safe deployment of hydrogen technologies essential to decarbonize the transportation sector. System reliability data is a necessary input for rigorous QRA. The lack of reliability data for bulk liquid hydrogen (LH2) storage systems located on site at fueling stations limits the use of QRAs. In turn, this hinders the ability to develop the necessary safety codes and standards that enable worldwide deployment of these stations. Through a QRA-based analysis of a LH2 storage system, this work focuses on identifying relevant scenario and probability data currently available and ascertaining future data collection requirements regarding risks specific to liquid hydrogen releases. The work developed consists of the analysis of a general bulk LH2 storage system design located at a hydrogen fueling station. Failure Mode and Effect Analysis (FMEA) and traditional QRA modeling tools such as Event Sequence Diagrams (ESD) and Fault Tree Analysis (FTA) are employed to identify, rank, and model risk scenarios related to the release of LH2. Based on this analysis, scenario and reliability data needs to add LH2-related components to QRA are identified with the purpose of improving the future safety and risk assessment of these systems. •Employed FMEA to identify failure scenarios for an on-site LH2 storage system.•Developed Event Sequence Diagram models of Liquid Hydrogen release scenarios.•Assessed LH2 storage system reliability with Fault Tree Analysis and generic data.•Identified data needs to add LH2 scenarios and components to QRA.
Author Groth, Katrina M.
Correa-Jullian, Camila
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Issue 6
Keywords Liquid hydrogen storage
System safety
Safety codes and standards
Hydrogen safety
Quantitative risk assessment
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SubjectTerms Hydrogen safety
Liquid hydrogen storage
Quantitative risk assessment
Safety codes and standards
System safety
Title Data requirements for improving the Quantitative Risk Assessment of liquid hydrogen storage systems
URI https://dx.doi.org/10.1016/j.ijhydene.2021.10.266
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