Formation, characterisation and cooling of debris

Regarding safety improvements for existing nuclear power plants, the TMI-2 accident is interesting because of the present commercial dominance of light water reactors (LWR). This accident demonstrated that the nuclear safety philosophy evolved over the years has to cover accident sequences involving...

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Veröffentlicht in:Nuclear engineering and design 2006-10, Vol.236 (19), p.1955-1964
Hauptverfasser: Reinke, Nils, Drath, Tilman, Berlepsch, Thilo v., Unger, Hermann E., Koch, Marco K.
Format: Artikel
Sprache:eng
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Zusammenfassung:Regarding safety improvements for existing nuclear power plants, the TMI-2 accident is interesting because of the present commercial dominance of light water reactors (LWR). This accident demonstrated that the nuclear safety philosophy evolved over the years has to cover accident sequences involving massive core melt progression in order to develop reliable mitigation strategies for both, existing and advanced reactors. Although the TMI-2 core was reflooded, the results also appear applicable to the general melt progression phenomenology of most unrecovered (unreflooded) blocked core accident scenarios. Nevertheless, a large range in the initial conditions of core melt progression provides significant uncertainties in assessing the integrity of the lower head, the containment in severe reactor accidents, and the consequences of recovery actions in accident management, as well as core reflooding in particular. The probability of success of reflooding as an accident management strategy – in-vessel reflooding to terminate the accident and ex-vessel flooding to prevent reactor vessel melt-through – has to be assessed and discussed in detail.
ISSN:0029-5493
1872-759X
DOI:10.1016/j.nucengdes.2006.03.029