Nuclear Engineering and Technology

  • 제41권10호
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  • Pages.1255-1262
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  • 2009
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  • 1738-5733(pISSN)
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  • 2234-358X(eISSN)
한국원자력학회 (Korean Nuclear Society)
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STATUS OF THE PSHA IN KOREA FOR NUCLEAR POWER PLANT SITES

  • 발행 : 2009.12.31
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초록

This paper introduces the status of and issues related to the PSHA (Probabilistic Seismic Hazard Analysis) of Korean Nuclear Power Plant sites. PSHA was first introduced to the nuclear industry in the mid-1980s. The Korean PSHA is based on Cornell and accommodates the modem approach for eliciting expertise and statistical treatment. Due to the low seismicity in Korea, large uncertainties exist in the PSHA database including seismic source maps, seismicity parameters of seismic sources, and attenuation formulae. Though research in seismology, geology, and earthquake engineering since the mid-1990s has significantly reduced uncertainties, a considerable amount still exists. Considering the low seismicity of the Korean Peninsula, especially the lack of strong motion data, further reduction will take several decades.

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참고문헌

  1. Korea Atomic Energy Research Ins (KAERI), Seismic Hazard Analysis of Nuclear Power Plant Sites in Korea (Sanpo Site) (1986)
  2. Chough, S.K., S.-T. Kwon, J.-H. Ree, and D.K. Choi, 'Tectonic and sedimentary evolution of the Korean peninsula: a review and new view,' Earth-Science Rev., 52, 175-235 (2000) https://doi.org/10.1016/S0012-8252(00)00029-5
  3. Kim, O.-J., “Mineral resources of Korea, in Circum-Pacific Energy and Mineral Resources,” Memoir No. 25, Am. Assoc. Petroleum Geologists, 440-447 (1976)
  4. Molnar, P. and P. Tapponier, “Cenozoic tectonics of Asia: Effects of a continental collision,” Scinece, 189, 419-426 (1975) https://doi.org/10.1126/science.189.4201.419
  5. Hellinger, S.J., K.M. Shedlock, J.G. Sclater, and H. Ye, “The Cenozoic evolution of the North Chna basin,” Tectonics, 4, 343-358 (1985) https://doi.org/10.1029/TC004i004p00343
  6. Ma, X. and D. Wu, “Cenozoic extensional tectonics in China,” Tectonophys. 133, 243-255 (1987) https://doi.org/10.1016/0040-1951(87)90268-X
  7. Kearey P. and F.J. Vine, Global Tectonics, Blackwell Scinece, 2nd Ed., p. 344 (1996)
  8. Jolivet, L., K. Tamaki, and M. Fournier, “Japan Sea, opening history and mechanism: A synthesis,” J. Geophys. Res., 99, 22237-22259 (1994) https://doi.org/10.1029/93JB03463
  9. Johnston, A.C., Seismotectonic interpretations and conclusions from the stable continental region seismicity database: in Schneider, J.F., Ed., The earthquakes of stable continental regions, Vol. 1: Assessment of large earthquake potential, Electric Power Research Institute (1994)
  10. Korea Meterological Administration, Seismological Annual Report (2006) (in Korean)
  11. Earthquake Research Institute of Tokyo University, http://wwweic.eri.u-tokyo.ac.jp/CATALOG/ junec/ (2009)
  12. U.S. Geological Survey, http://www.usgs.gov/ (2007)
  13. Ree, J.-H., S.-H. Kwon, Y. Park, S.-T. Kwon, and S.-H. Park, “Pretectonic and posttectonic emplacements of the granitoids in the south central Okchon belt, South Korea: implications for the timing of the strike-slip shearing and thrusting,” Tectonics, 20, 850-867 (2001) https://doi.org/10.1029/2000TC001267
  14. Cornell, C.A., “Engineering Seismic Risk Analysis,” Bull. Seismo. Soc. of Am., vol. 58, p. 1583-1606 (1968)
  15. Korea Institute of Energy and Resources. Seismic Risk Map of Korea (1983) (in Korean)
  16. W.H. Kim et al., “A Study on the Seismic Design Criteria (II),” App. A.6-Seismic Hazard Study, Earthquake Engineering Society of Korea (1997) (in Korean)
  17. Kiehwa Lee, “A Study on the Seismic Design Criteria (II),” App. A.7-Seismic Hazard Study, Earthquake Engineering Society of Korea (1997) (in Korean)
  18. Lee, K. and W.-S. Yang, “Historical Seismicity of Korea,” Bulletin of the Seismological Society of America, Vol. 96, pp.864-855 (2006) https://doi.org/10.1785/0120050050
  19. Seo, J.M., Rhee, H.M, Choi, I.K, and Yoo, H.J., “A Study on the Sensitivity of the Gutenberg-Richter Parameter Value on the Seismic Hazard in Korea,” Porc. of Earthq. Eng. Soc. of Korea Conference (2009) (in Korean)
  20. Korea Meteorological Administration, http://www.kma.go.kr/(2009) (in Korean)
  21. International Seismological Centre, http://www.isc.ac.uk
  22. A. Okada, K. Takemura, M. Watanabe, Y. Suzuki and J.-B. Kyung, “Trench excavation survey across the Yangsan and Ulsan fault systems in the southeastern part of Korean peninsula,” Transactions, Japanese Geomorphological Union, Vol.22-3, pp.287-306, (2001)
  23. J.B. Kyung, K. Lee, A. Okada, K. Takemura, M. Watanabe, Y. Suzuki and T. Naruse, “Active fault study in the central part of the Yangsan fault, southeastern part of Korea,” In: Y.I. Lee and J.H. Kim (eds.), Tectonic Evolution of Eastern Asian Continent, Short Papers for the International Symposium on the Occasion of the 50th Anniversary of the Geological Society of Korea, 33-38, (1997)
  24. U. Chwae, D.Y. Lee, B.J. Lee, C.R. Ryoo, P.Y., Choi, S.J. Choi, D.L. Cho, J.Y. Kim, C.B. Lee, W.S. Kee, D.Y. Yang, I.J. Kim, Y. Kim, J.H. Yoo, B.G. Chae, W.Y. Kim, P.J. Kang, I.H. Yu and H.K. Lee, “An investigation and evaluation of capable fault, southeastern part of the Korean peninsula,” KIGAM Research Report KR-98(c)-22, Korea Institute of Geology, Mining and Materials (1998) (in Korean with English abstract)
  25. H.K. Lee and J.S. Yang, “Temporal and spatial patterns of Quaternary fault activity in the southeastern part of the Korean peninsula,” In: W.S. Kee, Y.H. Kim and K.Y. Song (eds.), Quaternary Tectonics of Southeastern Korea, The 5th Symposium of Geology of Korea, 45-55, KIGAM (2007) (in Korean with English abstract)
  26. C.J. Chang, “Structural characteristics and evolution of the Yangsan fault, SE Korea,” Ph.D Thesis, Kyungpook National University, Daegu, Korea, 259p. (2001) (in Korean with English abstract)
  27. Korea Hydro and Nuclear Power Co., “Development of technology of advanced seismic assessment of NPP sites (Final Report),” KEPRI/01NS17, 860 p., KEPRI (2004) (in Korean with English summary)
  28. Korea Electric Power Research Institute, “Evaluation of maximum potential earthquake for nuclear power plant sites (Final Report),” KINS/GR-335, KEPRI/TR.E08.C2006.225, 531 p., KEPRI (2006) (in Korean with English summary)
  29. Korea Electric Power Research In., Improvement of Uncertainty in Probabilistic Seismic Hazard Analysis (1999) (in Korean)
  30. Lee, K., and Jung, H. O., “A study of instrumental earthquake data of Korea”, J. Geol. Soc. Korea, 16, No. 1, pp. 32-45 (1980)
  31. Seo, J.M., Choi, I.K. and Rhee, H.M.,“A Study on the Historical Earthquake Catalogs and Gutenberg-Richter Parameter Values of the Korean Peninsula,” J. of Nuclear Engineering Technology (accepted for publication)
  32. Kyung, J.B. et al., “Seismic Activity of Korea since 1978,” Porc. of Earthq. Eng. Soc. of Korea Conference (2009) (in Korean)
  33. Noh, M.H, Lee, S.K. and Choi, K.R, “Minimum Magnitude of Earthquake Catalog of Korea Meteorological Agency for the Estimation of Seismicity Parameters,” J. of Korean Geophy. Soc., V.3, No. 4, p 261-268 (2000)
  34. Yun, K.H., “Method and Example for Completeness Analysis of Historical Earthquakes,” Workshop on Probabilistic Seismic Hazard Analysis, Daejeon (2009) (in Korean)
  35. Aki, K., Strong-motion seismology. In: Kanamori, H. and Boschi, E. (eds.), Earthquakes: Observation, Theory and Interpretation, Proprieta Letteraria Riservata, Italy, 223-250. (1983)
  36. Noh, M. and K. Lee, “Estimation of peak ground motions in the southeastern part of the Korean peninsula (II): Development of predictive equations.” Journal of the Geological Society of Korea, 31, 175-187. (1995)
  37. Boore, D.M, “Stochastic simulation of high-frequency ground motions based on seismological models of the radiated spectra.” Bulletin of the Seismological Society of America, 73, 1865-1894. (1983)
  38. Noh, M. and K. Lee, “Estimation of peak ground motions in the southeastern part of the Korean peninsula (I): Estimation of spectral parameters.” Journal of the Geological Society of Korea, 30, 2 97-306. (1994)
  39. Park, J.U., M. Noh, and K. Lee, “Development of attenuation equations of ground motions in the southern part of the Korean peninsula.” Journal of the Earthquake Engineering Society of Korea, 3, 21-27. (1999) (in Korean)
  40. Jo, N.D. and C.-E. Baag, “Stochastic prediction of strong ground motions in southern Korea.” Journal of the Earthquake Engineering Society of Korea, 5, 17-26. (2001) (in Korean with English abstract)
  41. Jo, N.D. and C.-E. Baag, “Estimation of spectrum decay parameter and stochastic prediction of strong ground motions in southeastern Korea,” Journal of the Earthquake Engineering Society of Korea, 7, 59-70. (2003) (in Korean with English abstract)
  42. Park, D.H., J.M. Lee, C.-E. Baag, and J.K. Kim, "Stochastic prediction of strong ground motions and attenuation equations in the southeastern Korean peninsula," Journal of the Geological Society of Korea, 37, 21-30. (2001) (in Korean with English abstract)
  43. Junn, J.-G., N.D. Jo, and C.-E. Baag, “Stochastic prediction of ground motions in southern Korea,” Geosciences Journal, 6, 203-214. (2002) https://doi.org/10.1007/BF02912691
  44. Noh, M., “Predictive equations of ground motions in Korea,” Journal of the Korean Geophysical Society, Vol. 9, No. 3, pp.171-179. (2006)
  45. Jun, M.S. and O. Kulhánek, “Source parameters of earthquakes in and around the Korean peninsula deduced from spectral analysis,” Physics of the Earth and Planetary Interiors, 65, 255-266. (1991) https://doi.org/10.1016/0031-9201(91)90132-2
  46. Kim, S.K. and Kim, B.C, “Source parameters of earthquakes occurred in the Korean peninsula,” Proceeding of the Earthquake Engineering Society of Korea, Spring Conference, 3-11. (2002)
  47. Yun, K.H., Park, D.H., and Chang, C.J., “Estimation of Brune's Stress Drops around the Korean Peninsula,” Proceeding of the Earthquake Engineering Society of Korea Spring Conference, 70-78. (2006)

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