RT Journal Article
T1 Development of a robust and precise methodology for the measurement of the radon diffusion coefficient in diverse materials
A1 Castaño Casco, Elena
A1 Gutiérrez-Alvarez, Isidoro
A1 Barba Lobo, Alejandro
A1 Bolívar Raya, Juan Pedro
AB The main sources of radon indoors are the infiltration from the soil through the building materials and the materials themselves. These pathways are significantly influenced by the radon diffusion coefficient, D, of those elements, playing an important role when trying to mitigate radon accumulation. Current methodologies developed to determine D are difficult to apply. ISO 11665-13 imposes restrictive conditions on the experimental system and requires the application of numerical methods. In the methodology the problem material is placed between a chamber containing a radon source and an empty one and radon concentration is measured in the chambers. The D closer to the experimental data is then selected. In this work, the methodology was improved, and an algorithm was developed to complement the ISO. The algorithm solves for the physical governing equations and finds the value of D that best fits the data by minimising the differences between the predicted and experimental concentrations. Various statistical parameters and stop conditions were studied to determine when an optimal D was found. A validation procedure was developed for internal validation, and results were compared with the literature for external validation. Additional results are presented for materials not found in the literature
PB Elsevier
SN 0950-0618
SN 1879-0526 (electrónico)
YR 2024
FD 2024-07
LK https://hdl.handle.net/10272/24154
UL https://hdl.handle.net/10272/24154
LA eng
NO Castaño-Casco, E., Gutiérrez-Álvarez, I., Barba-Lobo, A., & Bolívar, J. P. (2024). Development of a robust and precise methodology for the measurement of the radon diffusion coefficient in diverse materials. In Construction and Building Materials (Vol. 440, p. 137402). Elsevier BV. https://doi.org/10.1016/j.conbuildmat.2024.137402
NO This research was partially funded by the Nuclear Safety Council(CSN) by the project “Radon exhalation from building materials;Radiological impact and corrective measures (EXRADON)” (Ref.: PR-047-2021) and the project funded by the Spanish Ministry of Science,Innovation and Universities’ Research Agency “Development and optimizationof a process for removing natural radionuclides in phosphogypsumleachates (RAD-REMOVE)” (Ref.: PID2020-116461RB-C21)
DS Repositorio Institucional de la Universidad de Huelva
RD 31 may 2026