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- 3.5 Sicherheit von Gasspeichern (37) (entfernen)
Eingeladener Vortrag
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The presentation starts with the first agreement of making a national attempt for the introduction of a pV-limit for hydrogen transport. It explains aspects of the technical development, provides an impression of catastrophic incidents, and explains the difference between risk control and consequence limitation. Then the process of determining consequences and the result from the discussion at the UN-WG are explained. The next part summarises the approach for counting the number of impacted persons as a function of the model of pressure wave, the pressure peak, the limits of injured persons and the population density. Finally, the latest state of the discussion and the subsequent recommendations for a pV-value and the adequate phrases for explanation are introduced.
Ein Aspekt des Gefahrguttransportes, der an Bedeutung in den letzten Jahren zugenommen hat, ist die Versorgung von Wasserstofftankstellen und anderen H2-Großverbrauchern über die Schiene aber insbesondere über die Straße.
Mit Blick auf die primäre Form der Speicherung wird der Begriff der Sicherheit über den Aspekt der Häufigkeit eines definierten Ereignisses erläutert und auf die Besonderheiten der Druckgefäße aus Verbundwerkstoffen hingewiesen, wie auch den regulatorischen Hintergrund der Lebensdauerüberprüfung nach 15 Jahren nach den Vorgaben der zuständigen Behörde. In Deutschland sind diese Vorgaben in der BAM-Gefahrgutregel 021 geregelt, die in der GGR 022 durch eine Regelung zur Wiederkehrenden Prüfung dieser Umschließungen ergänzt wird.
Beide BAM-Gefahrgutregeln basieren auf einem probabilistischen Ansatz und einer Konsequenzabschätzung über das Druck-Volumen-Produkt der Druckgefäße. Die neu im Recht verankerte EN 17339 ist die erste Norm, die speziell fest montierte Compositespeicher für den Wasserstofftransport regelt. Sie ermöglicht eine erhebliche Gewichtreduktion und führt eine Obergrenze für das Druckvolumen ein.
Es wird kurz erläutert, dass gerade mit Blick auf Wasserstofftransporte über eine Arbeitsgruppe der Vereinten Nationen eine Begrenzung des Konsequenzpotentials in das internationale Recht eingeführt werden soll und welche Kriterien bei der systematischen Ermittlung des akzeptierten Wertes von 1.5 Mio bar Liter Einfluss haben.
Mit Blick auf die Energiewende sieht es die BAM als besonders wichtig an, die Transportkosten zu senken, indem der Prüfaufwand reduziert und gleichzeitig die Erkenntnistiefe aus der betrieblichen Überwachung verbessert wird. Hierzu muss die Datenbasis für die probabilistische Bewertung der Lebensdauer von zerstörenden Prüfungen auf zerstörungsfreie Prüfungen umgestellt werden und idealerweise die 100% Prüfung zumindest in der ersten Hälfte des sicheren Lebens auf Stichproben reduziert werden.
Dies und andere Aufgaben, die wichtig für eine sichere und attraktive Wasserstoffwirtschaft sind werden von dem Kompetenzzentrum H2Safety@BAM bearbeitet, dass in seinen Grundzügen kurz vorgestellt wird.
The presentation reflects the questions that have been raised by member states and NGOs.
As background information details on the question how to choose a suitable salvage pressure receptacle (SPR) are provided. This leads to the need for deleting the volume limitation for SPRs and to the discussions in 2014 and 2016 on this issue.
As an adequate substitution for deleting the volume limit for SPRs it is proposed to limit the pressure receptacles to be stored in by a maximum pressure-volume-value of 1.5 Mio bar-litres.
After some explanations to standardisation projects currently also tackling this pV-limit, some risk-based safety criteria for a limitation are mentioned with the focus of the consequence level and the general avoidance of catastrophic worst case scenarios.
Safety criteria for the transport of hydrogen in permanently mounted composite pressure vessels
(2020)
The recent growth of the net of hydrogen fuelling stations increases the demands to transport compressed hydrogen on road by battery vehicles or tube-trailers, both in composite pressure vessels. As a transport regulation, the ADR is applicable in Europe and adjoined regions, and is used for national transport in the EU. This regulation provides requirements based on the behaviour of each individual pressure vessel, regardless of the pressure of the transported hydrogen and relevant consequences resulting from generally possible worst case scenarios such as sudden rupture. In 2012, the BAM (German Federal Institute for Materials Research and Testing) introduced consequence-dependent requirements and established them in national transport requirements concerning the “UN service life checks” etc. to consider the transported volume and pressure of gases. This results in a requirement that becomes more restrictive as the product of pressure and volume increases. In the studies presented here, the safety measures for hydrogen road transport are identified and reviewed through a number of safety measures from countries including Japan, the USA and China. Subsequently, the failure consequences of using trailer vehicles, the related risk and the chance are evaluated. A benefit-related risk criterion is suggested to add to regulations and to be defined as a safety goal in standards for hydrogen transport vehicles and for mounted pressure vessels. Finally, an idea is given for generating probabilistic safety data and for highly efficient evaluation without a significant increase of effort.
Es werden die Zusammenhänge des Druckvolumenprodukts und der Konsequenz bei Druckgasen insbesondere für Wasserstoff dargestellt. Entsprechend werden Stellungnahmen zu verschiedenen Normungsprojekten abgeleitet und perspektivische Entwicklungen mit dem resultierenden Bedarf in der Normung dargestellt. Außerdem wird am Beispiel ein Problem in der praktischen Beurteilung von Speicherpopulationen für Batteriefahrzeuge diskutiert.
Monte-Carlo-Analysis of Minimum Burst Requirements for Composite Cylinders for Hydrogen Service
(2021)
For achieving Net Zero-aims hydrogen is an indispensable component, probably the main component. For the usage of hydrogen, a wide acceptance is necessary, which requires trust in hydrogen based on absence of major incidents resulting from a high safety level. Burst tests stand for a type of testing that is used in every test standard and regulation as one of the key issues for ensuring safety in use. The central role of burst and proof test is grown to historical reasons for steam engines and steel vessels but - with respect for composite pressure vessels (CPVs) - not due an extraordinary depth of outcomes. Its importance results from the relatively simple test process with relatively low costs and gets its importance by running of the different test variations in parallel. In relevant test und production standards (as e. g. ECE R134) the burst test is used in at least 4 different meanings. There is the burst test on a) new CPVs and some others b) for determining the residual strength subsequent to various simulations of ageing effects. Both are performed during the approval process on a pre-series. Then there is c) the batch testing during the CPVs production and finally d) the 100% proof testing, which means to stop the burst test at a certain pressure level. These different aspects of burst tests are analysed and compared with respect to its importance for the resulting safety of the populations of CPVs in service based on experienced test results and Monte-Carlo simulations. As main criterial for this the expected failure rate in a probabilistic meaning is used. This finally ends up with recommendations for relevant RC&S especially with respect to GTR 13.
We present the results of distributed fiber optic strain sensing for condition monitoring of a hybrid type IV composite fully wrapped pressure vessel using multilayer integrated optical fibers. Distributed strain sensing was performed for a total number of 252,000 load cycles until burst of the vessel. During this ageing test material fatigue could be monitored and spatially localized. Critical material changes were detected 17,000 cycles before material failure. Results have been validated by acoustic emission analysis.
The publication is an extended abstract on the modelling of the manufacturing process related residual stresses in type 4 pressure vessels for hydrogen storage. A 2D analytical model based on the classical laminate theory and a 3D finite element model are introduced. The calculated residual stress state after the filament winding process as well as the stress state in service are presented and discussed.