FEM Simulation of Extreme Thermal and Mechanical Accident Loads on Screwed Spent Fuel Cask Lid Structures

To conˆrm the sealing performance of a metal cask subjected to impact force due to commercial aircraft crash against a spent fuel storage facility, a vertical impact test was carried out. In this test, a simplied deformable missile was used by considering the rigidity of the actual aircraft engine and accelerated to the speciˆed impact velocity (60 m/s) to hit the full-scale lid structure with the primary and secondary lids. Then, the leak rate, the inner pressure between the lids, and the displacement of the lids were measured. The leak rate of the secondary lid exceeded 1.0×10 -3 Pa･m 3 /s upon impact. However, because no residual lid opening displacement occurred after loading, the leak rate recovered to less than 1.0×10 -6 Pa･m 3 /s after 3 h from the impact test. In addition, to clarify the impact behaviour of the lid structure, the impact analysis using the LS DYNA code was executed. It was found that the lid bolts maintained the good tightening force after impact loading, and the sealing performance of the full-scale metal cask would not be aŠected immediately by the vertical impact of the aircraft engine with a speed of 60 m/s.

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FEM Simulation of Extreme Thermal and Mechanical Accident Loads on Screwed Spent Fuel Cask Lid Structures

Cited by 2 publications

References 3 publications

Evaluation of Sealing Performance of Metal Cask Subjected to Horizontal Impact Load of Aircraft Engine

Evaluation of Sealing Performance of Metal Cask Subjected to Horizontal Impact Load of Aircraft Engine

Evaluation of Sealing Performance of Metal Cask Subjected to Vertical Impact Load due to Aircraft Engine

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