Effect of Soil Moisture Content on Radon and Thoron Exhalation

Hosoda, Masahiro; Shimo, Michikuni; Sugino, Masato; Furukawa, Mutsuhisa; Fukushi, Masahiro

doi:10.3327/jnst.44.664

Cited by 17 publications

(12 citation statements)

References 15 publications

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“…Another reason which can be proposed is dependence of radon (thoron) exhalation from soil/building materials on humidity. In the rainy season, which corresponds to the period during which radon concentration is lowest, the high humidity condition may reduce radon and thoron emanation resulting in a decrease in their exhalation (e.g., Faheem and Matiullah, 2008;Hosoda et al, 2007). In addition, there is a slight difference in radon concentration in the summer and rainy seasons (Table 2).…”

Section: Distributions Of Radon Thoron and Thoron Progeny Concentratmentioning

confidence: 95%

Long-term measurements of residential radon, thoron, and thoron progeny concentrations around the Chhatrapur placer deposit, a high background radiation area in Odisha, India

Omori¹,

Prasad

Sahoo³

et al. 2016

Journal of Environmental Radioactivity

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Section: Distributions Of Radon Thoron and Thoron Progeny Concentratmentioning

confidence: 95%

Long-term measurements of residential radon, thoron, and thoron progeny concentrations around the Chhatrapur placer deposit, a high background radiation area in Odisha, India

Omori¹,

Prasad

Sahoo³

et al. 2016

Journal of Environmental Radioactivity

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“…The flux density of radon per unit area of the bulk porous medium (radon exhalation rate of pores plus solids), rather than per unit area of the pore air, migrated through soil that results from diffusion can be calculated from Eq.(16). 16,66) …”

Section: Exhalation Ratementioning

confidence: 99%

“…SCHERY 5) and HOSODA 16) estimated that radon exhalation rate, at dry soil with a very little amount of water content (nearly 0%), increases smoothly with increase water content until it reached 8%. Then the exhalation rate will decrease with increase of water content.…”

Section: Water Contentmentioning

confidence: 99%

Radon Migration Process and Its Influence Factors; Review

Hassan

Hosoda²,

Ishikawa³

et al. 2009

Hoken Butsuri

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Radon (222 Rn) generated within the grains of rocks, soils, building materials and other materials by the radioactive decay of radium ( 226 Ra) can migrate to the atmosphere. This paper reviews the emanation coefficient, diffusion coefficient, and exhalation rate, and the factors that control the rate at which radon can enter atmosphere. The emanation coefficient which is the fraction of radon generated within the grains of materials and escaped to the pore space, varied from 2.1 to 32% for rocks, from 0.14 to 80% for soil, and from 0.10 to 58% in case of building materials. In addition, measurement methods used to evaluate emanation coefficient and its influence factors are also reviewed. The diffusion of radon is a process determined by radon concentration gradient across the radon sources and the surrounding air. The effective diffusion coefficient of some materials is summarized. Moreover, the radon exhalation rate process and the main influencing factors on the variation of exhalation rate data are reviewed. The exhalation rate varied in the range of 0.11 to 80 mBq m -2 s -1 , 2.0 10 -3 to 5.0 10 4 mBq m -2 s -1 and 4.0 10 -3 to 5.0 10 1 mBq m -2 s -1 for rocks, soils and building materials, respectively.

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“…1. Although based on nearly 1100 observations, this regression equation eventually could tend to overestimate the diffusion coefficient of radon isotopes at very low (<w5%) soil moisture (Hosoda et al, 2007;Papachristodoulou et al, 2007). This potential uncertainty, however, does not affect the simulations presented here: as our OPUS simulations indicate, volumetric soil moisture even during summer did not drop below 10%.…”

Section: Rn In Soilmentioning

confidence: 71%