Structural integrity assessment of Calandria of 540 MWe PHWR for in-vessel corium retention

Abstract

The safety demonstration of nuclear power plant, even for very low probability severe accident scenarios, has been an important requirement. A postulated severe accident is one of the beyond design basis plant states which can have significant consequences resulting from the nuclear fuel degradation. Such accident scenarios call for detailed safety assessment and provision of design features and guidelines for the operating personnel to manage the accident. In the present work, structural integrity assessment of Calandria assembly of a typical 540 MWe Indian Pressurized Heavy Water Reactor has been carried out to assess the duration of in-Calandria retention of core debris/corium for a postulated severe core damage accident scenario. The premise of the study, methodology and analysis tools used to assess structural integrity and failure timeline are discussed. Sequentially coupled thermo-mechanical analysis has been carried out for the thermal and mechanical loads arising out of the postulated accident and structural response of Calandria assembly is evaluated. The Calandria undergoes significant creep/plasticity deformation after loss of cooling through Calandria vault water. Plastic instability, excessive inelastic strains and creep-stress rupture criteria are considered to assess the structural failure of Calandria assembly. It is observed that the Calandria is able to maintain the structural integrity for reasonable duration of more than two days without any management action. Thus, the robustness of the PHWR design is demonstrated. Realistic assessment of timeline of in-Calandria corium/debris retention under such severe core damage accident loading are vital for assessing the severe accident management guidelines.