Piping steady-state vibration monitoring programs were implemented during preoperational testing and initial plant startup at most nuclear power plants. Evaluations of piping steady-state vibrations are also performed as piping and component failures attributable to excessive vibration are detected or other potential vibration problems are detected during plant operation. Additionally, as a result of increased flow rates in some piping systems due to extended power uprate (EPU) programs at several plants, new piping steady-state vibration monitoring programs are in various stages of implementation. As plants have aged, pipe wall thinning resulting from flow accelerated corrosion (FAC) has become a recognized industry problem and programs have been established to detect, evaluate and monitor pipe wall thinning. Typically, the piping vibration monitoring and FAC programs have existed separately without interaction. Thus, the potential impact of wall thinning due to FAC on piping vibration evaluations may not be recognized. The potential effects of wall thinning due to FAC on piping vibration evaluations are reviewed. Piping susceptible to FAC and piping susceptible to significant steady-state vibrations, based on industry experience, are identified and compared. Possible methods for establishing links between the FAC and vibration monitoring programs and for accounting for the effects of FAC on both historical and future piping vibration evaluations are discussed.
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ASME 2003 Pressure Vessels and Piping Conference
July 20–24, 2003
Cleveland, Ohio, USA
Conference Sponsors:
- Pressure Vessels and Piping Division
ISBN:
0-7918-4159-6
PROCEEDINGS PAPER
Effects of Flow Accelerated Corrosion on Piping Steady-State Vibration Evaluations
Brian J. Voll
Brian J. Voll
Sargent & Lundy LLC, Chicago, IL
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Brian J. Voll
Sargent & Lundy LLC, Chicago, IL
Paper No:
PVP2003-2168, pp. 177; 1 page
Published Online:
August 13, 2008
Citation
Voll, BJ. "Effects of Flow Accelerated Corrosion on Piping Steady-State Vibration Evaluations." Proceedings of the ASME 2003 Pressure Vessels and Piping Conference. Aging Management and Component Analysis. Cleveland, Ohio, USA. July 20–24, 2003. pp. 177. ASME. https://doi.org/10.1115/PVP2003-2168
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