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  • 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.
  • 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. (en)
Title
  • Investigation of Flow in a Model of Human Airways using Constant Temperature Anemometry and Numerical Simulation
  • Investigation of Flow in a Model of Human Airways using Constant Temperature Anemometry and Numerical Simulation (en)
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  • Investigation of Flow in a Model of Human Airways using Constant Temperature Anemometry and Numerical Simulation
  • Investigation of Flow in a Model of Human Airways using Constant Temperature Anemometry and Numerical Simulation (en)
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  • RIV/00216305:26210/13:PU106769!RIV14-GA0-26210___
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  • P(EE2.3.30.0039), P(GAP105/11/1339), S
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  • 81090
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  • RIV/00216305:26210/13:PU106769
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  • constant temperature anemometry, numerical simulation, CFD, human airways, flow measurement (en)
http://linked.open.../riv/klicoveSlovo
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  • [D0A58898298C]
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  • Vouliagmeni, Athens
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  • Vouliagmeni, Athens, Greece
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  • Recent Advances in Fluid Mechanics and Heat & Mass Transfer
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  • Jedelský, Jan
  • Jícha, Miroslav
  • Lízal, František
  • Elcner, Jakub
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http://linked.open.../riv/zahajeniAkce
number of pages
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  • WSEAS Press
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  • 978-1-61804-183-8
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  • 26210
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