Author/Authors :
Ghyym، نويسنده , , Seong H، نويسنده ,
Abstract :
In this work, one strategy of severe accident management, the
applicability of the in-vessel retention (IVR) concept, which has been incorporated
in passive type reactor designs, to evolutionary type reactor designs, is
examined with emphasis on the method of external reactor vessel cooling
(ERVC) to realize the IVR concept in view of two aspects: for the regulatory
aspect, it is addressed in the context of the resolution of the issue of corium
coolability; for the technical one, the reliance on and the effectiveness of the
IVR concept are mentioned. Additionally, for the ERVC method to be better
applied to designs of the evolutionary type reactor, the conditions to be met
are pointed out in view of the technical aspect. Concerning the issue of corium
coolabilityjquenchability, based on results of the review, plausible alternative
strategies are proposed. According to the decision makerʹs risk behavior, these
would help materialize the conceptual design for evolutionary type reactors,
especially Korea Next Generation Reactors (KNGRs), which have been
developing at the Korea Electric Power Research Institute (KEPRI): (AI)
Strategy IA: strategy based on the global approach using the reliance on the
wet cavity method; (A2) Strategy 1 B: strategy based on the combined
approach using both the reliance on the wet cavity method and the countermeasures
for preserving containment integrity; (A3) Strategy 2A: strategy
based on the global approach to the reliance on the ERVC method; (A4)
Strategy 2B: strategy based on the balanced approach using both the reliance
on the ERVC method and the countermeasures for preserving containment
integrity. Finally, in application to an advanced pressurized water reactor
(PWR) design, several recommendations are made in focusing on both monitoring
the status of approaches and preparing countermeasures in regard to
the regulatory and the technical aspects
