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Use of the t-Distribution to Construct Seismic Hazard Curves for Seismic Probabilistic Safety Assessments

  • Yee, Eric (KEPCO International Nuclear Graduate School, Department of Nuclear Power Plant Engineering)
  • Received : 2016.11.17
  • Accepted : 2016.12.23
  • Published : 2017.04.25

Abstract

Seismic probabilistic safety assessments are used to help understand the impact potential seismic events can have on the operation of a nuclear power plant. An important component to seismic probabilistic safety assessment is the seismic hazard curve which shows the frequency of seismic events. However, these hazard curves are estimated assuming a normal distribution of the seismic events. This may not be a strong assumption given the number of recorded events at each source-to-site distance. The use of a normal distribution makes the calculations significantly easier but may underestimate or overestimate the more rare events, which is of concern to nuclear power plants. This paper shows a preliminary exploration into the effect of using a distribution that perhaps more represents the distribution of events, such as the t-distribution to describe data. The integration of a probability distribution with potentially larger tails basically pushes the hazard curves outward, suggesting a different range of frequencies for use in seismic probabilistic safety assessments. Therefore the use of a more realistic distribution results in an increase in the frequency calculations suggesting rare events are less rare than thought in terms of seismic probabilistic safety assessment. However, the opposite was observed with the ground motion prediction equation considered.

Keywords

References

  1. I.M. Idriss, An NGA empirical model for estimating the horizontal spectral values generated by shallow crustal earthquakes, Earthq. Spectra. 24 (2008) 217-242. https://doi.org/10.1193/1.2924362
  2. M. Power, B. Chiou, N. Abrahamson, Y. Bozorgnia, T. Shantz, C. Roblee, An overview of the NGA project, Earthq. Spectra. 24 (2008) 3-21. https://doi.org/10.1193/1.2894833
  3. B. Chiou, R. Darragh, N. Gregor, W. Silva, NGA project strongmotion database, Earthq. Spectra. 24 (2008) 23-44. https://doi.org/10.1193/1.2894831
  4. Electric Power Research Institute (EPRI), Seismic Fragility Application Guide, EPRI, Palo Alto, CA, 2002.
  5. A methodology for analyzing precursors to earthquake-initiated and fire-initiated accident sequences, U.S. Nuclear Regulatory Commission, Report NUREG/CR-6544 (1998).

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