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^(220)Rn子体暴露的剂量转换系数研究 被引量:1

The Dose Conversion Factors for Thoron Decay Products Exposure
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摘要 环境中220Rn子体暴露的剂量评价是近些年天然辐射防护研究领域热议的问题之一,其中一个焦点问题就是室内环境220Rn子体暴露的剂量转换系数的变化。回顾了近年来国内外该问题相关的研究结果,自行计算了室内环境下220Rn子体暴露的剂量转换系数,特别考虑结合态粒径分布及未结合态份额对室内环境220Rn子体暴露的剂量转换系数的影响。研究表明,220Rn子体暴露的剂量转换系数随着结合态220Rn子体粒径分布的增加而先降低后增加,随着220Rn子体未结合态份额的增大而线性增大。典型室内环境下220Rn子体暴露的有效剂量转换系数为95.95 nSv.(Bq.h.m-3)-1,其变化范围为90.61~101.28 nSv.(Bq.h.m-3)-1。 The dose evaluation of ^220Rn exposure in environment is one of the hottest discussed issues in the field of radiation protection. One focused point of this issue is the change of the dose conversion factor of ^220Rn progeny exposure. This paper reviews the recent domestic and foreign research results related to this problem and calculates the dose conversion factor of ^220Rn progeny, especially taking into count of the affect of the size distribution of attached ^220Rn progeny and the unattached fraction. The results show that the dose conversion factor changes with the size distribution of attached ^220Rn progeny, as it grows, first grows down then grows up. The dose conversion factor increases linearly with the unattached fraction. In typical indoor environment, the effective dose conversion factor of ^220Rn progeny exposure would be 95.95nSv·(Bq·h·m^-3)^-1, with a varing range of 90.61~101.28nSv·Bq·h·m^-3)^-1.
作者 王锋 张磊 郭秋菊 王善强 艾宪芸 马新华 史志兰
机构地区 防化研究院二所 北京大学物理学院技术物理系
出处 《辐射防护》 CAS CSCD 北大核心 2013年第1期54-58,共5页 Radiation Protection
关键词 220Rn子体 剂量转换系数 未结合态份额 粒径分布 ^220Rn progeny dose conversion factors the unattached fraction size distribution
分类号 X837 [环境科学与工程—环境工程]
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参考文献19

  • 1UNSCEAR. Sources and effects of ionizing radiation [ R ] Sweden : UNSCEAR, 2000 : 1 - 8.
  • 2Doi M, Fujimoto K, Kobayashi S, et al. Spatial distribution of Thoron and Radon concentrations in the ambient air of traditional Japanese wooden house[J]. Health Physics, 1994, 66 (1): 43 -49.
  • 3UNSCEAR. Sources and effects of ionizing radiation [ R ]. Sweden: UNSCEAR, 1988: 55 -57.
  • 4Shang B, Iida T, Ikebe Y. Influence of 220Rn on 222Rn measurement in Chinese cave dwellings. Radon and Thoron in the human environment [ C ]. Singapore : World Scientific, 1998:379 - 384.
  • 5ICRP. ICRP Publication 50 Lung cancer risk from indoor exposure radon daughters[ R]. Ann. ICRP 17 (1). Pergamon Press, Oxford. 1987:1-3.
  • 6NEA. Dosimetry aspects of exposure to radon and thoron daughter products [ R ]. Paris, 1983: 6 -18.
  • 7UNSCEAR. Sources and effects of ionizing radiations [ R ]. Sweden: UNSCEAR, 1993:50 - 54.
  • 8Jacobi W, Eisfeld K. Internal dosimetry of radon 222, radon - 220 and their short-lived daughters[ C ]//Proc. Ii symp. On the national radiation environment, Bombay 19 -22 Jan. 1981:131 - 143.
  • 9ICRP. ICRP Publication 66 Human respiratory tract model for radiological protection [ R ]. Ann. ICRP 24(1 -3), 1994.
  • 10NRC. Comparative dosimetry of radon in mines and homes [ R ]. Washington, DC: National academy Press. 1991 : 225 -226.

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2013年 第1期

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