Development for Life Assessment System for Pipes of Thermal Power Plants |
Hyun, Jung-Seob
(KEPCO Research Institute)
Heo, Jae-Sil (KEPCO Research Institute) Kim, Doo-Young (KEPCO Research Institute) Park, Min-Gyu (KEPCO Research Institute) |
1 | B. Han, B. J. Wever, T. Neger, In-service condition monitoring of piping systems in power plants requirements and advanced techniques, vol. 1, issue 1, pp. 1-13, OMNI (in German), 2002. |
2 | J. S. Hyun, G. W. Song, S. Y. Cho, Y. S. Lee, Real-time displacement monitoring system system for high temperature steam pipe of fossil power plant, vol. 297-300, pp. 2164-2168, Key Engineering Materials, 2005. DOI |
3 | P. K. James, Current experiences in typical problems and failures with boiler piping components and supports, pp.161-168, PVP-Vol. Component analysis and evaluation, aging and maintenance and pipe supports, ASME, 1998. |
4 | E. Oakey, Power plant life management and performance improvement, Woodhead Publishing, 2011. |
5 | PipePlus ver. 7.02(Algor, Pittsburgh, Pensilvania, United states) |
6 | G. E. Dieter, Mechanical Metallurgy, McGraw-Hill, 1989. |
7 | T. Fournier, On-line fatigue monitoring and margins probablistic assessment, pp. 271-276, SMIRT-12K, Kussmaul, North-Holland, 1993. |
8 | ASME, Power Piping, B31, pp. 9-15, ASME code for pressure piping, 2004. |
9 | M. T. Flaman, B. E. Mills, Development of a strain gauge based online structural integrity monitoring system for fossil fueled G. S., CEA project No. 726 G 627, Ontario Hydro Research Division, USA, 1992. |