Detail publikace
Numerical simulation of fibre deposition in oral and large bronchial airways in comparison with experiments
FARKAS, Á. LÍZAL, F. ELCNER, J. JEDELSKÝ, J. JÍCHA, M.
Anglický název
Numerical simulation of fibre deposition in oral and large bronchial airways in comparison with experiments
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
Inhaled asbestos fibres have been implicated in causal relationships with increased frequencies of non-malignant pleural disease, asbestosis, mesothelioma and lung cancer. Replacement fibres are considered to be less harmful, however, their health effects are not fully understood. The objective of the present work was to implement and apply numerical fibre tracking techniques in order to simulate the deposition of fibres in a complex oro-pharyngeal-laryngeal-bronchial system at different inhalation flow rates and compare the results with the outcomes of recent measurements performed in the same geometry. Two different approaches for the estimation of drag force were considered. Simulated deposition efficiency values agreed reasonably well with the experimentally determined values, however, the drag model which considers the anisotropic nature of the geometry of fibres performed better than the one which accounted only for the their non-spherical shape. The highest values of deposition density correlated well with the location of primary lesions observed in pathological studies.
Anglický abstrakt
Inhaled asbestos fibres have been implicated in causal relationships with increased frequencies of non-malignant pleural disease, asbestosis, mesothelioma and lung cancer. Replacement fibres are considered to be less harmful, however, their health effects are not fully understood. The objective of the present work was to implement and apply numerical fibre tracking techniques in order to simulate the deposition of fibres in a complex oro-pharyngeal-laryngeal-bronchial system at different inhalation flow rates and compare the results with the outcomes of recent measurements performed in the same geometry. Two different approaches for the estimation of drag force were considered. Simulated deposition efficiency values agreed reasonably well with the experimentally determined values, however, the drag model which considers the anisotropic nature of the geometry of fibres performed better than the one which accounted only for the their non-spherical shape. The highest values of deposition density correlated well with the location of primary lesions observed in pathological studies.
Klíčová slova anglicky
Airway deposition of fibres, Drag force, Man-made vitreous fibres, Reconstructed airways
Vydáno
31.10.2019
Nakladatel
Elsevier Ltd
ISSN
0021-8502
Ročník
136
Strany od–do
1–14
Počet stran
14
BIBTEX
@article{BUT157515,
author="Árpád {Farkas} and František {Lízal} and Jakub {Elcner} and Jan {Jedelský} and Miroslav {Jícha},
title="Numerical simulation of fibre deposition in oral and large bronchial airways in comparison with experiments",
year="2019",
volume="136",
month="October",
pages="1--14",
publisher="Elsevier Ltd",
issn="0021-8502"
}