The objective of the USNRC supported Lower Head Failure (LHF) Experiment Program at Sandia National Laboratories is to experimentally investigate and characterize the failure of the reactor pressure vessel (RPV) lower head due to the thermal and pressure loads of a severe accident. The experimental program is complemented by a modeling program focused on the development of a constitutive formulation for use in standard finite element structure mechanics codes. The problem is of importance because: lower head failure defines the initial conditions of all ex-vessel events; the inability of state-of-the-art models to simulate the result of the TMI-II accident (Stickler, et al. 1993); and TMI-II results suggest the possibility of in-vessel cool...
International audienceIn PWR severe accident scenarios, involving a relocation of corium (core melt)...
The paper studies influence the ageing effects on the failure of a Reactor Pressure Vessel (RPV) dur...
The subject of this paper is to compare the results of the different calculations performed by the b...
A severe accident in a nuclear power plant could result in the relocation of large quantities of mol...
International audienceIn order to characterize the timing, mode and size of a possible lower head fa...
In existing severe accident codes such as MELCOR and THALES2, rupture of reactor pressure vessel (RP...
The USNRC/SNL OLHF program was carried out within the framework of an OECD project. This program con...
A good understanding of the mechanical behaviour of the reactor pressure vessel (RPV) lower head is ...
Considering the unlikely core melt down scenario for a light water reactor (LWR) a possible failure ...
The mechanical behaviour of the reactor pressure vessel strongly influences the environmental conseq...
In the study of severe pressurized water reactor accidents, the scenarios that describe the relocati...
International audienceIn PWR severe accident scenarios, involving a relocation of corium (core melt)...
The paper studies influence the ageing effects on the failure of a Reactor Pressure Vessel (RPV) dur...
The subject of this paper is to compare the results of the different calculations performed by the b...
A severe accident in a nuclear power plant could result in the relocation of large quantities of mol...
International audienceIn order to characterize the timing, mode and size of a possible lower head fa...
In existing severe accident codes such as MELCOR and THALES2, rupture of reactor pressure vessel (RP...
The USNRC/SNL OLHF program was carried out within the framework of an OECD project. This program con...
A good understanding of the mechanical behaviour of the reactor pressure vessel (RPV) lower head is ...
Considering the unlikely core melt down scenario for a light water reactor (LWR) a possible failure ...
The mechanical behaviour of the reactor pressure vessel strongly influences the environmental conseq...
In the study of severe pressurized water reactor accidents, the scenarios that describe the relocati...
International audienceIn PWR severe accident scenarios, involving a relocation of corium (core melt)...
The paper studies influence the ageing effects on the failure of a Reactor Pressure Vessel (RPV) dur...
The subject of this paper is to compare the results of the different calculations performed by the b...
Add to ORKG