Publication detail

Analysis of Pitot tube static probe angle in the experimental chamber conditions.

HLAVATÁ, P. MAXA, J. VYROUBAL, P.

Original Title

Analysis of Pitot tube static probe angle in the experimental chamber conditions.

English Title

Analysis of Pitot tube static probe angle in the experimental chamber conditions.

Type

conference paper

Language

en

Original Abstract

The article deals with the analysis of the conic angle of the static Pitots tube for the measures of the supersonic flow in the experimental chamber. Using the mathematical – physics analysis was mapped the assumed state of the flow in the experimental chamber and for expected flow velocities above the aperture was, using Taylor- Maccol theory, chosen corresponding angle of the conic probe for prevention from making of the detached shockwave due to the elimination of the measured results distortion.

English abstract

The article deals with the analysis of the conic angle of the static Pitots tube for the measures of the supersonic flow in the experimental chamber. Using the mathematical – physics analysis was mapped the assumed state of the flow in the experimental chamber and for expected flow velocities above the aperture was, using Taylor- Maccol theory, chosen corresponding angle of the conic probe for prevention from making of the detached shockwave due to the elimination of the measured results distortion.

Keywords

Environmental scanning electron microscope (ESEM), ANSYS Fluent, finite volume method, Differentially pumped chamber, Taylor – Maccoll theory.

Released

20.10.2018

ISBN

978-80-214-5109-4

Book

ECS Transactions

Pages from

50

Pages to

56

Pages count

7

BibTex


@inproceedings{BUT150574,
  author="Pavla {Šabacká} and Jiří {Maxa} and Petr {Vyroubal}",
  title="Analysis of Pitot tube static probe angle in the experimental chamber conditions.",
  annote="The article deals with the analysis of the conic angle of the static Pitots tube for the measures of the supersonic flow in the experimental chamber.  Using the mathematical – physics analysis was mapped the assumed state of the flow in the experimental chamber and for expected flow velocities above the aperture was, using Taylor- Maccol theory, chosen corresponding angle of the conic probe for prevention from making of the detached shockwave due to the elimination of the measured results distortion.",
  booktitle="ECS Transactions",
  chapter="150574",
  doi="10.1149/08701.0369ecst",
  howpublished="online",
  number="1",
  year="2018",
  month="october",
  pages="50--56",
  type="conference paper"
}