Nuclear Engineering and Technology

Korean Nuclear Society (한국원자력학회)
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Investigation of the relationship between earthquakes and indoor radon concentrations at a building in Gyeongju, Korea

  • Kim, Jae Wook (Department of Nuclear & Energy Engineering, Dongguk University-Gyeongju) ;
  • Joo, Han Young (Department of Nuclear & Energy Engineering, Dongguk University-Gyeongju) ;
  • Kim, Rinah (Department of Nuclear & Energy Engineering, Dongguk University-Gyeongju) ;
  • Moon, Joo Hyun (Department of Nuclear & Energy Engineering, Dongguk University-Gyeongju)
  • Received : 2017.06.26
  • Accepted : 2017.12.20
  • Published : 2018.04.25
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Abstract

This article measured and analyzed the indoor radon concentrations at one university building in Gyeongju, Republic of Korea, to investigate if there is any relationship between earthquakes and indoor radon concentration. Since 12 September 2016, when two 5.1 and 5.8 magnitude earthquakes occurred, hundreds of aftershocks affected Gyeongju until January 2017. The measurements were made at the ground floor of the Energy Engineering Hall of Dongguk University in Gyeongju over a period between February 2016 and January 2017. The measurements were made with an RAD7 detector on the basis of the US Environmental Protection Agency measurement protocol. Each measurement was continuously made every 30 minutes over the measurement period every month. Among earthquakes with 2.0 or greater magnitude, the earthquakes whose occurrence timings fell into the measurement periods were screened for further analysis. We observed similar spike-like patterns between the indoor radon concentration distributions and earthquakes: a sudden increase in the peak indoor radon concentration 1-4 days before an earthquake, gradual decrease before the earthquake, and sudden drop on the day of the earthquake if the interval between successive earthquakes was moderately longer, for example, 3 days in this article.

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References

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