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LÍZAL, F. ELCNER, J. JEDELSKÝ, J. JÍCHA, M.
Original Title
Investigation of Flow in a Model of Human Airways using Constant Temperature Anemometry and Numerical Simulation
Type
conference paper
Language
English
Original Abstract
Mechanics of flow in human lungs has major influence on a transport and deposition of inhaled particles. A semi-realistic model of human tracheobronchial airways was used for experimental measurement and numerical simulation of an air velocity field. Axial velocities in 14 points in a trachea were measured using Constant Temperature Anemometry and compared with numerical simulation. The influence of a computational mesh quality was investigated as well. The experimental and simulated results proved significant differences between the methods. Probable causes of the discrepancies are a size of the anemometric probe, accuracy of the numerical method and its sensitivity to mesh quality and boundary conditions.
Keywords
constant temperature anemometry, numerical simulation, CFD, human airways, flow measurement
Authors
LÍZAL, F.; ELCNER, J.; JEDELSKÝ, J.; JÍCHA, M.
RIV year
2013
Released
14. 5. 2013
Publisher
WSEAS Press
Location
Vouliagmeni, Athens, Greece
ISBN
978-1-61804-183-8
Book
Recent Advances in Fluid Mechanics and Heat & Mass Transfer
Pages from
35
Pages to
40
Pages count
6
BibTex
@inproceedings{BUT104062, author="František {Lízal} and Jakub {Elcner} and Jan {Jedelský} and Miroslav {Jícha}", title="Investigation of Flow in a Model of Human Airways using Constant Temperature Anemometry and Numerical Simulation", booktitle="Recent Advances in Fluid Mechanics and Heat & Mass Transfer", year="2013", pages="35--40", publisher="WSEAS Press", address="Vouliagmeni, Athens, Greece", isbn="978-1-61804-183-8" }