Hierarchical modeling of indoor radon concentration: how much do geology and building factors matter?
Hierarchical modeling of indoor radon concentration: how much do geology and building factors matter?
Radon is a natural gas known to be the main contributor to natural background radiation exposure and only second to smoking as major leading cause of lung cancer. The main concern is in indoor environments where the gas tends to accumulate and can reach high concentrations. The primary contributor of this gas into the building is from the soil although architectonic characteristics, such as building materials, can largely affect concentration values. Understanding the factors affecting the concentration in dwellings and workplaces is important both in prevention, when the construction of a new building is being planned, and in mitigation when the amount of Radon detected inside a building is too high. In this paper we investigate how several factors, such as geologic typologies of the soil and a range of building characteristics, impact on indoor concentration focusing, in particular, on how concentration changes as a function of the floor level. Adopting a mixed effects model to account for the hierarchical nature of the data, we also quantify the extent to which such measurable factors manage to explain the variability of indoor radon concentration.
227-237
Borgoni, Riccardo
df9c90ab-c2d2-47d6-bcc7-1444a605d6ff
De Francesco, Davide
d2cc8a1b-817a-427b-8d9a-0e1d1702e578
De Bartolo, Daniela
dd8cb648-4096-4921-893c-a0a4a74ea68b
Tzavidis, Nikos
431ec55d-c147-466d-9c65-0f377b0c1f6a
1 December 2014
Borgoni, Riccardo
df9c90ab-c2d2-47d6-bcc7-1444a605d6ff
De Francesco, Davide
d2cc8a1b-817a-427b-8d9a-0e1d1702e578
De Bartolo, Daniela
dd8cb648-4096-4921-893c-a0a4a74ea68b
Tzavidis, Nikos
431ec55d-c147-466d-9c65-0f377b0c1f6a
Borgoni, Riccardo, De Francesco, Davide, De Bartolo, Daniela and Tzavidis, Nikos
(2014)
Hierarchical modeling of indoor radon concentration: how much do geology and building factors matter?
Journal of Environmental Radioactivity, 138, .
(doi:10.1016/j.jenvrad.2014.08.022).
Abstract
Radon is a natural gas known to be the main contributor to natural background radiation exposure and only second to smoking as major leading cause of lung cancer. The main concern is in indoor environments where the gas tends to accumulate and can reach high concentrations. The primary contributor of this gas into the building is from the soil although architectonic characteristics, such as building materials, can largely affect concentration values. Understanding the factors affecting the concentration in dwellings and workplaces is important both in prevention, when the construction of a new building is being planned, and in mitigation when the amount of Radon detected inside a building is too high. In this paper we investigate how several factors, such as geologic typologies of the soil and a range of building characteristics, impact on indoor concentration focusing, in particular, on how concentration changes as a function of the floor level. Adopting a mixed effects model to account for the hierarchical nature of the data, we also quantify the extent to which such measurable factors manage to explain the variability of indoor radon concentration.
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Published date: 1 December 2014
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Statistics
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Local EPrints ID: 369678
URI: http://eprints.soton.ac.uk/id/eprint/369678
ISSN: 0265-931X
PURE UUID: 9b727af4-9139-4bc5-a646-7f94e4cd1154
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Date deposited: 09 Oct 2014 11:17
Last modified: 15 Mar 2024 03:11
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Author:
Riccardo Borgoni
Author:
Davide De Francesco
Author:
Daniela De Bartolo
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