NT & RP Journal
EXTENDED STATION BLACKOUT ANALYSES OF AN APR1400 WITH MARS-KS
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Vol. XXXI, No. 4, Pp. 307-392
December 2016
UDC 621.039+614.876:504.06
ISSN 1451-3994

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Pages: 318-326

Authors:
Woongbae Kim, Hyungwook Jang, Seungjong Oh, and Sangyong Lee

Abstract

The Fukushima Dai-ichi nuclear power plant accident shows that natural disasters such as earthquakes and the subsequent tsunamis can cause station blackout for several days. The electric energy required for essential systems during a station blackout is provided from emergency backup batteries installed at the nuclear power plant. In South Korea, in the event of an extended station blackout, the life of these emergency backup batteries has recently been extended from 8 hours to 24 hours at Shin-Kori 5, 6, and APR1400 for design certification. For a battery life of 24 hours, available safety means system, equipment and procedures are studied and analyzed in their ability to cope with an extended station blackout. A sensitivity study of reactor coolant pump seal leakage is performed to verify how different seal leakages could affect the system. For simulating extended station blackout scenarios, the best estimate MARS-KS computer code was used. In this paper, an APR1400 RELAP5 input deck was developed for station blackout scenario to analyze operation strategy by manually depressurizing the reactor coolant system through the steam generator's secondary side. Additionally, a sensitivity study on reactor coolant pump seal leakage was carried out.

Key words: extended station blackout, station battery, reactor coolant pump seal leakage, MARS-KS

FULL PAPER IN PDF FORMAT (2.26 MB)

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