Publication detail

Regional Deposition of Particles in a Model of Human Lungs: A Comparison of Numerical Simulation and Experimental Results

LÍZAL, F. ELCNER, J. BĚLKA, M. JEDELSKÝ, J. JÍCHA, M.

Original Title

Regional Deposition of Particles in a Model of Human Lungs: A Comparison of Numerical Simulation and Experimental Results

English Title

Regional Deposition of Particles in a Model of Human Lungs: A Comparison of Numerical Simulation and Experimental Results

Type

conference proceedings

Language

en

Original Abstract

Relatively good agreement was found between experiments and simulation for the lower flowrate and segments with multiple bifurcations. Simulated deposition was systematically higher for segments 1 – 12. On the contrary, the first 12 segments agree well for the higher flowrate, however, the deposition in the multiple bifurcation segments was underestimated by the simulation.

English abstract

Relatively good agreement was found between experiments and simulation for the lower flowrate and segments with multiple bifurcations. Simulated deposition was systematically higher for segments 1 – 12. On the contrary, the first 12 segments agree well for the higher flowrate, however, the deposition in the multiple bifurcation segments was underestimated by the simulation.

Keywords

aerosol deposition, computational fluid dynamics, positron emission tomography, lungs

Released

04.09.2016

Publisher

French society for aerosol research

Location

Tours

Pages from

1

Pages to

1

Pages count

1

URL

BibTex


@proceedings{BUT131200,
  author="František {Lízal} and Jakub {Elcner} and Miloslav {Bělka} and Jan {Jedelský} and Miroslav {Jícha}",
  title="Regional Deposition of Particles in a Model of Human Lungs: A Comparison of Numerical Simulation and Experimental Results",
  annote="Relatively good agreement was found between experiments and simulation for the lower flowrate and segments with multiple bifurcations. Simulated deposition was systematically higher for segments 1 – 12. On the contrary, the first 12 segments agree well for the higher flowrate, however, the deposition in the multiple bifurcation segments was underestimated by the simulation.",
  address="French society for aerosol research",
  chapter="131200",
  howpublished="electronic, physical medium",
  institution="French society for aerosol research",
  year="2016",
  month="september",
  pages="1--1",
  publisher="French society for aerosol research",
  type="conference proceedings"
}