INTERCOMPARISON OF METHODS FOR INVESTIGATING THE PHYSICAL CHARACTERISTICS OF RADON DECAY PRODUCTS IN THE INDOOR ENVIRONMENT

被引:0
|
作者
REINEKING, A
BUTTERWECK, G
PORSTENDORFER, J
STRONG, JC
VARNMARCKE, H
VANDINGENEN, R
机构
来源
RADIATION PROTECTION DOSIMETRY | 1992年 / 45卷 / 1-4期
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中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
The average activity concentrations of radon gas and its short-lived decay products were measured under normal living conditions and deviated by less than 10% during an intercomparison between the three European groups of the National Radiological Protection Board (UK), Ghent (Belgium) and Gottingen (Germany). The spread in the derived unattached fraction, f(p), ranged up to 50% in situations without additional aerosol sources (average f(p)=0.1) and the variation in the evaluated attachment rate X and plateout rates q(a) and q(fl) was sometimes two-fold. Different size fractionating methodologies yield similar AMD/AMADs of 200 nm for the accumulation mode (deviation < 30%) during measurements in a low ventilated room with an aged aerosol. Active aerosol sources yield complex size distributions in the attached region and varied by a factor of 2.
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页码:41 / 46
页数:6
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    [J]. INDOOR AND BUILT ENVIRONMENT, 2017, 26 (05) : 621 - 630
  • [23] TRANSPORT AND DEPOSITION OF INDOOR RADON DECAY PRODUCTS .2. INFLUENCE OF ENVIRONMENTAL-CONDITIONS
    BRAGER, GS
    REVZAN, KL
    [J]. ATMOSPHERIC ENVIRONMENT PART B-URBAN ATMOSPHERE, 1991, 25 (03): : 359 - 368
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    Tamaki, K.
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    Shakirov, A. L.
    Bigeldiyeva, M. T.
    Medeubayeva, A. A.
    Stvayeva, A. E.
    [J]. PHYSICS OF ATOMIC NUCLEI, 2021, 84 (11) : 1929 - 1934
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  • [27] Methods for Measuring Daughter Products of Radon Decay in the Surface Atmospheric Layer of the Earth
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    Yu. A. Zaripova
    A. V. Yushkov
    A. L. Shakirov
    M. T. Bigeldiyeva
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    A. E. Stvayeva
    [J]. Physics of Atomic Nuclei, 2021, 84 : 1929 - 1934
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    Bi, L.
    Wang, J.
    Skubacz, K.
    Tschiersch, J.
    [J]. RADIATION PROTECTION DOSIMETRY, 2010, 141 (04) : 390 - 394
  • [29] The Variation Characteristics of Indoor Radon Concentration from Buildings with Different Environment, Seoul
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    Lee, Ji-Young
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    Chae, Young-Zoo
    [J]. JOURNAL OF KOREAN SOCIETY FOR ATMOSPHERIC ENVIRONMENT, 2011, 27 (06) : 692 - 702
  • [30] Seasonal behavior of radon decay products in indoor air and resulting radiation dose to human respiratory tract
    Mostafa, A. M. A.
    Yamazawa, H.
    Uosif, M. A. M.
    Moriizumi, J.
    [J]. JOURNAL OF RADIATION RESEARCH AND APPLIED SCIENCES, 2015, 8 (01) : 142 - 147
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