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Autores principales: Fuente, Marta, Goggins, Jamie, Rabago, Daniel, Fuente, Ismael, Sainz, Carlos, Foley, Mark
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2403.15392
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author Fuente, Marta
Goggins, Jamie
Rabago, Daniel
Fuente, Ismael
Sainz, Carlos
Foley, Mark
author_facet Fuente, Marta
Goggins, Jamie
Rabago, Daniel
Fuente, Ismael
Sainz, Carlos
Foley, Mark
contents A one-year monitoring study was conducted in a pilot house with high radon levels to investigate the ability and efficiency of radon mitigation by soil depressurisation (SD) both active and passive. The study included monitoring of radon concentration, pressure field extension (pfe) under the slab and some atmospheric parameters for different testing phases. Periods in which the house remained closed to foster radon accumulation were alternated with phases of active and passive soil depressurisation under different conditions. The behaviour of the radon concentration in the pilot house was analysed along with the influence of atmospheric variables, significant correlations were found for the radon concentration with atmospheric pressure, outdoor temperature and wind. From the pfe analysis it was proven that the pressure drop with distance from the suction point of the SD system is proportional to the depressurisation generated. It was found also that the permeability characterisation of the pilot house agrees with the literature about granular fill materials characterisation for radon SD systems across Europe. Radon reductions in excess of 85% were achieved for the different testing phases in all cases. Finally, from the results it was stated that a fan power of 23 W is sufficient to ensure radon reductions over 85% for dwellings with similar aggregate layer and soil permeability.
format Preprint
id arxiv_https___arxiv_org_abs_2403_15392
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Radon mitigation by soil depressurisation case study: radon concentration and pressure field extension monitoring in a pilot house in Spain
Fuente, Marta
Goggins, Jamie
Rabago, Daniel
Fuente, Ismael
Sainz, Carlos
Foley, Mark
Computational Engineering, Finance, and Science
A one-year monitoring study was conducted in a pilot house with high radon levels to investigate the ability and efficiency of radon mitigation by soil depressurisation (SD) both active and passive. The study included monitoring of radon concentration, pressure field extension (pfe) under the slab and some atmospheric parameters for different testing phases. Periods in which the house remained closed to foster radon accumulation were alternated with phases of active and passive soil depressurisation under different conditions. The behaviour of the radon concentration in the pilot house was analysed along with the influence of atmospheric variables, significant correlations were found for the radon concentration with atmospheric pressure, outdoor temperature and wind. From the pfe analysis it was proven that the pressure drop with distance from the suction point of the SD system is proportional to the depressurisation generated. It was found also that the permeability characterisation of the pilot house agrees with the literature about granular fill materials characterisation for radon SD systems across Europe. Radon reductions in excess of 85% were achieved for the different testing phases in all cases. Finally, from the results it was stated that a fan power of 23 W is sufficient to ensure radon reductions over 85% for dwellings with similar aggregate layer and soil permeability.
title Radon mitigation by soil depressurisation case study: radon concentration and pressure field extension monitoring in a pilot house in Spain
topic Computational Engineering, Finance, and Science
url https://arxiv.org/abs/2403.15392