Computational fluid dynamics modelling for indoor radioactive pollutant study

Computational fluid dynamics modelling for indoor radioactive pollutant study

The present case study focuses on indoor radon dispersion in an experimental room made of unfired mud brick by employing CFD modeling, active measurement, and passive measurement in closed and open room conditions. Radon flux for walls and floor surfaces of the room was measured experimentally. A CF...

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Veröffentlicht in:Journal of radioanalytical and nuclear chemistry 2024, Vol.333 (11), p.5569-5580
Hauptverfasser: Parkash, Rajat, Chauhan, Neetika, Garg, Ajay, Chauhan, R. P.
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry
Chemistry and Materials Science
Computational fluid dynamics
Diagnostic Radiology
Hadrons
Heavy Ions
Indoor air pollution
Inorganic Chemistry
Nuclear Chemistry
Nuclear Physics
Physical Chemistry
Pinholes
Radon levels
Spatial distribution
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Zusammenfassung:The present case study focuses on indoor radon dispersion in an experimental room made of unfired mud brick by employing CFD modeling, active measurement, and passive measurement in closed and open room conditions. Radon flux for walls and floor surfaces of the room was measured experimentally. A CFD model was designed to simulate spatial distribution pattern of indoor radon. The CFD simulation results are validated through a newly developed RnDuo monitor and single-entry pinhole-based twin-cup dosimeter. The mean indoor radon concentration decreases by approximately one-fourth level in an open room as compared to a closed room.
ISSN:0236-5731
1588-2780
DOI:10.1007/s10967-024-09595-3