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- 2013 (19) (entfernen)
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- Dual purpose cask (3)
- Long-term storage (3)
- Extended storage (2)
- Cask accident scenario (1)
- Concrete foundation (1)
- Cylindrical cask (1)
- Damping concrete (1)
- Dehnratenabhängigkeit (1)
- Disposal (1)
- Drop test (1)
Cylindrical casks made of ductile cast iron are used for transport, interim storage and final disposal of radioactive waste in Germany. A basic design criterion is the ability to withstand a horizontal drop without impact Binders onto a foundation representative for the real ground of a storage facility. The increasing use of more cost-effective material compositions requires optimized cask geometries to reduce stresses and strains in the cask structure. For example, a non-uniform wall thickness was introduced to reduce maximum wall bending stresses. As a result, the load characteristics changed from line load to point load at bottom and lid side under horizontal drop fest conditions. Hereby, the position of highest stress inside the structure has shifted significantly. This was the reason for a systematic investigation of effects caused by small design changes or small variations of fest conditions. It led to a better understanding of the positions of high local stresses, their time history and maximum value for cylindrical casks under horizontal drop test conditions. Hence, the paper presents the lessons learnt from modeling and simulating such scenarios considering an impact without limiters onto a realistic target.
Sicherheitsbewertung von Lagerbehältern bei Auslaufen einer befristeten Zwischenlagergenehmigung
(2013)
Bei der sicherheitstechnischen Begutachtung der behälterspezifischen Aspekte nach Ablauf einer Zwischenlagergenehmigung ist entsprechend einer Neubeantragung zu verfahren. Die Sicherheitsbewertung erfolgt nach dem aktuellen Stand von Wissenschaft und Technik bei Berücksichtigung der zur Behälterbauart bereits vorliegenden Sicherheitsnachweise und Begutachtungsergebnisse sowie der physikalischen und chemischen Alterungseinflüsse der bisherigen Zwischenlagerung. Am Beispiel einer beantragten weiteren Zwischenlagerung nach Auslaufen einer auf 20 Jahre befristeten Genehmigung und dem notwendigen Behältertransport zu einem neuen Zwischenlager werden Erfahrungen bzgl. der durchgeführten Sicherheitsbewertung zur Erfüllung der Technischen Annahmebedingungen des neuen Behälterlagers dargestellt.
Finite element analysis (FEA) has been carried out for investigation of damping concrete under different impact loading conditions with a built-in material model and damage criteria available in FEA code ABAQUS.
At first, all parameters for the selected material model had been derived from compression Tests of cubic specimens. After that, a validation was carried out with different static and dynamic penetration tests. Finally, a 5 meter real drop test with a 23 Mg cylindrical cask could successfully be simulated.
German approach and experience feedback of transport ability of SNF packages after interim storage
(2013)
In Germany the concept of dry interim storage of spent fuel in dual purpose metal casks is implemented, currently for periods of up to 40 years.
The casks being used have an approved package design in accordance with the international transport regulations. The license for dry storage is granted on the German Atomic Energy Act with respect to the recently revised “Guidelines for dry interim storage of irradiated fuel assemblies and heat-generating radioactive waste in casks” by the German Waste management Commission (ESK).
For transport on public routes between or after long term interim storage periods, it has to be ensured that the transport and storage casks fulfil the specifications of the transport approval or other sufficient properties which satisfy the proofs for the compliance of the safety objectives at that time.
In recent years the validation period of transport approval certificates for manufactured, loaded and stored packages were discussed among authorities and applicants. A case dependant system of 3, 5 and 10 years was established. There are consequences for the safety cases in the Package Design Safety Report including evaluation of long term behavior of components and specific operating procedures of the package.
Present research and knowledge concerning the long term behavior of transport and storage cask components have to be consulted as well as experiences from interim cask storage operations. Challenges in the safety assessment are e.g. the behavior of aged metal and elastomeric gaskets under IAEA test conditions to ensure that the results of drop tests can be transferred to the compliance of the safety objectives at the time of transport after the interim storage period.
Dual purpose casks for the transportation and storage of spent nuclear fuel and other radioactive materials require very high leak-tightness of lid closure Systems under accident conditions as well as in the long-term to prevent activity release. For that purpose metal seals of specific types with an inner helical spring and outer metal liners are widely used and have shown their excellent performance if certain quality assurance requirements for fabrication and assembling are satisfied. Well defined surface roughness, clean and dry inert conditions are therefore essential. No seal failure in a loaded cask happened under these conditions until today.
Nevertheless, the considered and licensed Operation period is limited and all safety assessments have been performed and approved for this period of time which is 40 years in Germany so far. But in the meantime longer storage periods might be necessary for the future and therefore additional material data will be required. BAM is involved in the qualification and evaluation procedures of those seals from the early beginning. Because long-term tests are always time consuming BAM has early decided to perform additional tests with specific test seal configurations to gain a better understanding of the long-term behavior with regard to seal pressure force, leakage rate and useable resilience which is safety relevant mainly in case of accidental mechanical loads inside a storage facility or during a subsequent transport. Main test parameters are the material of the outer seal jacket (silver or aluminum) and the temperature. This paper presents the BAM test program including an innovative test mock-up and most recent test results. Based on these data extrapolation models to extended time periods are discussed, and also future plans to continue tests and to investigate seal behavior for additional test parameters are explained.
Zur numerischen Simulation von Transport- und Lagerbehältern für radioaktive Stoffe unter mechanischen Unfallbedingungen sind geeignete
Materialmodelle und zugehörige Parametersätze für alle relevanten Behälterbauteile und den Aufpralluntergrund sowie gegebenenfalls für weitere am Störfall beteiligte Komponenten erforderlich.
Sie bilden eine wesentliche Grundlage um für unterschiedliche Belastungsvarianten und Temperaturen zuverlässige Berechnungsergebnisse zu ermitteln, die umfangreiche experimentelle Erprobungen zumindest in Teilen ersetzen und damit einen zentralen Bestandteil von sicherheitstechnischen Nachweisen in gefahrgut- und atomrechtlichen Zulassungs- und Genehmigungsverfahren bilden können. Für die Auslegung der Behälter von besonderer Bedeutung ist die Effizienz der eingesetzten energieabsorbierenden Elemente, wie beispielsweise Stoßdämpfer am Behälterdeckel oder -boden bzw. äquivalente Strukturen auf oder im Fundament von Zwischen- und Endlagern.
Diese Bauteile, die häufig aus Holz, Polyurethan (PU) - Schaum oder Dämpferbeton hergestellt werden, erfahren beim Auf- oder Anprall erhebliche plastische Deformationen, deren Verteilung und Größenordnung u.a. von der Belastungsgeschwindigkeit, dem Belastungsverlauf und der Temperatur bestimmt werden. Die Berücksichtigung dieser Faktoren in dynamischen Finite Elemente (FE) Berechnungen, die den heutigen Stand der Simulationstechnik repräsentieren, setzt eine systematische Datenbasis für den stoßdämpfenden Werkstoff voraus und die Implementierung dieser Informationen in numerischen Materialformulierungen.
An der BAM wird seit Ende 2008 im Rahmen des vom BMBF geförderten Forschungsvorhabens ENREA (Entwicklung rechnerischer Analysemethoden für stoßdämpfende Strukturen beim Anprall oder Absturz von Abfallgebinden) die experimentelle Bestimmung derartiger Daten sowie die Anpassung und teilweise Neuentwicklung geeigneter Materialmodelle betrieben.