SYMPOSIA PAPER Published: 01 August 2012

Neutron Flux Reduction Programs for Reactor Pressure Vessel of Korea Nuclear Unit 1


The objective of this work is to implement various fast neutron flux reduction programs on the beltline region of the reactor pressure vessel to reduce the increasing rate of reference temperature for pressurized thermal shock (RTPTS) for Korea Nuclear Unit 1. A pressurized thermal shock (PTS) event is an event or transient in pressurized water reactors (PWRs) causing severe overcooling (thermal shock) concurrent with or followed by significant pressure in the reactor vessel. A PTS concern arises if one of these transients acts in the beltline region of a reactor vessel where a reduced fracture resistance exists because of neutron irradiation. Generally, the RTPTS value is continuously increasing according to the fast neutron irradiation during the reactor operation, and it can reach the screening criterion prior to the expiration of the operating license. To reduce the increasing rate of RTPTS, various neutron flux reduction programs can be implemented, which are focused on license renewal. In this paper, neutron flux reduction programs, such as low leakage loading pattern strategy, loading of neutron absorber rods, and dummy fuel assembly loading are considered for Korea Nuclear Unit 1, of which the RTPTS value of the leading material (circumferential weld) is going to reach the screening criterion in the near future. To evaluate the effects of the neutron flux reduction programs, plant and cycle specific forward neutron transport calculations for the various neutron flux reduction programs were carried out. For the analysis, all transport calculations were carried out by using the DORT 3.1 discrete ordinate code and BUGLE-96 cross-section library.

Author Information

Yoo, Choon, Sung
Korea Atomic Energy Research Institute (KAERI), Daejeon, KP
Kim, Byoung, Chul
Korea Reactor Integrity Surveillance Technology (KRIST), Daejeon, KP
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Developed by Committee: E10
Pages: 249–263
DOI: 10.1520/STP155020120020
ISBN-EB: 978-0-8031-7553-2
ISBN-13: 978-0-8031-7536-5