Shutdown Chemistry Optimization at Maanshan NPP

摘要

At Maanshan PWRs, a significant piping radiation buildup caused by crud burst from fuel surface in the beginning of RFO used to be blamed as a contribution to high personal exposures during outage. Therefore, several modifications on shutdown chemistry procedures such as, early lithium removal rapid boration dissolved hydrogen removal extended RCP operation and maintaining maximum let down flow, have been consecutively conducted since #1RFO-16, 2006. The important operational and chemical parameters of modified shutdown chemistry procedures adopted in #2 RFO-17, 2008 and superiority in low reading (2 mSv/hr) from let down heat exchangers area radiation monitor over llmSv/hr of #1RFO-16 at the.same area will be addressed in this paper. At the end of #2 RFO-17, low personal exposures of 765 man- mSv (TLD)verified the absence of crud burst during shutdown chemistry process and broke records of Maanshan NPP as well. Even with a new job on PZR pre-emptive dissimilar weld overlay which exhausting 17.37% of total 797 man-mSv (TLD) in the latest #1 RFO-18, 659 man-mSv (TLD) made another record low in the history of Maanshan.