The Fission Product Retention of Pebble-Bed Reactors in Ultimate Accidents

K. Petersen; H. Barthels; H. E. Drescher; C. B. Von Der Decken; N. Iniotakis; W. Schenk; R. Schulten

doi:dx.doi.org/10.13182/NT79-A32331

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The Fission Product Retention of Pebble-Bed Reactors in Ultimate Accidents

K. Petersen, H. Barthels, H. E. Drescher, C. B. Von Der Decken, N. Iniotakis, W. Schenk, R. Schulten

Nuclear Technology / Volume 46 / Number 2 / December 1979 / Pages 306-311

Technical Paper / Nuclear Power Reactor Safety (Presented at the ENS/ANS International Meeting, Brussels, Belgium, October 16–19, 1978) / Reactor / dx.doi.org/10.13182/NT79-A32331

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Unrestricted core heatup analysis based on recent experimental investigations of heat, gas, and fission product transport mechanism under ultimate accident conditions proves for the example of the 500-MW(thermal) plant the inherent safety potential of the pebble-bed high-temperature reactor. Under the hypothetical assumptions of depressurization of the primary circuit through a large hole within the prestressed concrete reactor vessel top region and the failure of all heat sinks, including the liner cooling system, the core structure, fuel elements, and consequently the essential fission product barriers remain undamaged. The integrated ¹³⁷Cs contamination of the containment after depressurization rises only to 1 Ci after 100 h.