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Impact of Wind Speed on Response of Diffusion-Type Radon-Thoron Detectors to Thoron

Author

Listed:
  • Yasutaka Omori

    (Department of Radiation Physics and Chemistry, Fukushima Medical University, 1 Hikarigaoka, Fukushima 960-1295, Japan)

  • Yuki Tamakuma

    (Institute of Radiation Emergency Medicine, Hirosaki University, 66-1 Hon-cho, Hirosaki, Aomori 036-8564, Japan)

  • Eka Djatnika Nugraha

    (Graduate School of Health Sciences, Hirosaki University, 66-1 Hon-cho, Hirosaki, Aomori 036-8564, Japan)

  • Takahito Suzuki

    (Fuji Electric Co., Ltd., 1 Fujimachi, Hino, Tokyo 191-8502, Japan)

  • Miki Arian Saputra

    (Graduate School of Health Sciences, Hirosaki University, 66-1 Hon-cho, Hirosaki, Aomori 036-8564, Japan)

  • Masahiro Hosoda

    (Institute of Radiation Emergency Medicine, Hirosaki University, 66-1 Hon-cho, Hirosaki, Aomori 036-8564, Japan
    Graduate School of Health Sciences, Hirosaki University, 66-1 Hon-cho, Hirosaki, Aomori 036-8564, Japan)

  • Shinji Tokonami

    (Institute of Radiation Emergency Medicine, Hirosaki University, 66-1 Hon-cho, Hirosaki, Aomori 036-8564, Japan)

Abstract

Air exchange through a porous medium depends partly on a pressure gradient induced in it, i.e., air-flow conditions of the outer air. Consequently, response of diffusion-type detectors to radon and thoron may vary with air-flow conditions surrounding the detectors. This effect may be significant for thoron measurement because thoron has a shorter half-life than radon. The present study examined response of diffusion-type detectors (RADUETs and one AlphaGUARD) to thoron with respect to wind speed using a thoron calibration chamber. Response of RADUETs to thoron increased with wind speed. Response of the AlphaGUARD increased with wind speed, but it became constant at a high wind speed. Different response trends to thoron between the RADUETs and the AlphaGUARD could be qualitatively explained by flow states induced by the pressure gradient in the filter or the sponge of these detectors. For RADUETs, laminar (Darcy) flow was induced in the sponge in the examined wind speed range, which meant that thoron entry into the detector increased with wind speed. For the AlphaGUARD, laminar flow was induced in the filter in the low wind speed range, whereas flow was changed to turbulent (non-Darcy) flow at a high wind speed for which thoron entry into the detector did not depend on wind speed.

Suggested Citation

  • Yasutaka Omori & Yuki Tamakuma & Eka Djatnika Nugraha & Takahito Suzuki & Miki Arian Saputra & Masahiro Hosoda & Shinji Tokonami, 2020. "Impact of Wind Speed on Response of Diffusion-Type Radon-Thoron Detectors to Thoron," IJERPH, MDPI, vol. 17(9), pages 1-13, May.
  • Handle: RePEc:gam:jijerp:v:17:y:2020:i:9:p:3178-:d:353468
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    References listed on IDEAS

    as
    1. Yasutaka Omori & Michikuni Shimo & Miroslaw Janik & Tetsuo Ishikawa & Hidenori Yonehara, 2020. "Variable Strength in Thoron Interference for a Diffusion-Type Radon Monitor Depending on Ventilation of the Outer Air," IJERPH, MDPI, vol. 17(3), pages 1-9, February.
    2. Miroslaw Janik & Shinji Tokonami & Kazuki Iwaoka & Naregundi Karunakara & Shetty Trilochana & Mandya Purushotham Mohan & Sudeep Kumara & Indaje Yashodhara & Weihai Zhuo & Chao Zhao & Fangdong Tang & L, 2019. "Comparison of Radon and Thoron Concentration Measuring Systems Among Asian Countries," IJERPH, MDPI, vol. 16(24), pages 1-11, December.
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    Cited by:

    1. Chutima Kranrod & Yuki Tamakuma & Masahiro Hosoda & Shinji Tokonami, 2020. "Importance of Discriminative Measurement for Radon Isotopes and Its Utilization in the Environment and Lessons Learned from Using the RADUET Monitor," IJERPH, MDPI, vol. 17(11), pages 1-15, June.

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