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- 2017 (2)
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- Vortrag (2) (entfernen)
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- Monte-Carlo (2) (entfernen)
Eingeladener Vortrag
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Der Vortrag stellte kurz die Abteilung vor und wo der Arbeitsbereich Druckgefäße einzuordnen ist. Er weist auf die Verwendung von Wasserstoff und auf unsere Kompetenz in der Beurteilung von Sicherheit, unsere Beratung und Forschung hin.
Darüber hinaus werden die in der BAM auf Wasserstoffspeicher angewendeten Prüfverfahren dargestellt und als ein Schwerpunkt die hydraulische Prüfung erläutert.
Über die Monte-Carlo-Simulation zur Beurteilung von Vorschriften führt er zum probabilistischen Sicherheitsansatz.
This presentation provides general data about BAM, the structure of department 3 and a short impression of the application of pressure vessels for hydrogen in stationary use, supply chain and onboard storage.
It guides to the actions of BAM as competent authority on this area and shows a lot different methods for testing operated at BAM. Based on this additional research has been detected as necessary for a competent tackling of the tasks as competent authority. After having mentioned several important research projects a figure is presented that compares the development of regulations with relevant re-actions of BAM. The outcome was a concept of a risk based definition of accepted failure rates in combination with probability-oriented safety assessment over entire service life.
The second aspect raised at INERIS is the issue of advising the BMVI concerning pressure vessels for hydrogen. Since the pressure is high for saving material consumption and weight there is still high interest in changing regulatory requirements. Therefor we developed an approach for the display of minimum requirements of regulations in diagrams (sample performance charts; SPC) and the probabilistic analysis for these deterministic requirements. This is done by Monte-Carlo simulation and the analysis of acceptance rate and survival rate of basic populations all over the SPC.
This finally provide same knowledge of non-approvable but safe ranges of parameters and even approvable but non-safe constellations. In addition, this analysis allows to optimise deterministic requirements in regulations to the intended level of safety for approved populations of pressure vessels, which is shown on the example of the GTR#13.