Publication detail

Study of aerosol transport and air flow in transparent human airways model

JEDELSKÝ, J. LÍZAL, F. JÍCHA, M. ŠTĚTINA, J. KOŠNER, J.

Original Title

Study of aerosol transport and air flow in transparent human airways model

English Title

Study of aerosol transport and air flow in transparent human airways model

Type

abstract

Language

en

Original Abstract

Before we approach to a measurement with the realistic transparent model we decided to check some questions, which arise in connection with adjustment of experiment. We have to do a decision how to attach the piston mechanism which simulates breathing to the model, accordingly to control breathing from above the model i. e. the inspiration is in overpressure or from below when the inspiration is in underpressure. The second objective was to ascertain splitting of air flow into particular branches of a model.

English abstract

Before we approach to a measurement with the realistic transparent model we decided to check some questions, which arise in connection with adjustment of experiment. We have to do a decision how to attach the piston mechanism which simulates breathing to the model, accordingly to control breathing from above the model i. e. the inspiration is in overpressure or from below when the inspiration is in underpressure. The second objective was to ascertain splitting of air flow into particular branches of a model.

Keywords

lung model, aerosol measurement, lung deposition, Laser Doppler anemometry

RIV year

2009

Released

06.09.2009

Location

Karlsruhe

Pages from

1

Pages to

1

Pages count

1

BibTex


@misc{BUT60860,
  author="Jan {Jedelský} and František {Lízal} and Miroslav {Jícha} and Josef {Štětina} and Jan {Košner}",
  title="Study of aerosol transport and air flow in transparent human airways model",
  annote="Before we approach to a measurement with the realistic transparent model we decided to check some questions, which arise in connection with adjustment of experiment. We have to do a decision how to attach the piston mechanism which simulates breathing to the model, accordingly to control breathing from above the model i. e. the inspiration is in overpressure or from below when the inspiration is in underpressure. The second objective was to ascertain splitting of air flow into particular branches of a model.",
  booktitle="EAC 2009",
  chapter="60860",
  year="2009",
  month="september",
  pages="1--1",
  type="abstract"
}