Detail publikace

Vývoj teplotně-vakuové komory pro testování palubních a kosmických zařízení v simulovaných extrémních podmínkách

MAŠEK, J.

Český název

Vývoj teplotně-vakuové komory pro testování palubních a kosmických zařízení v simulovaných extrémních podmínkách

Anglický název

Thermo-vacuum test chamber development for airborne and space equipment testing in simulated extreme conditions

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

en

Originální abstrakt

The Institute of Aerospace Engineering, Brno University of Technology developed a unique thermo-vacuum test facility to simulate extreme aerospace environmental conditions. Even though originally developed for space technology Qualification tests, the know-how can be used to test airborne equipment in laboratory to develop and certify new prototypes under civil or military aviation regulations. Moreover, the experimental thermo-vacuum chamber can be used for research and development of space technologies and its testing in different simulated space environments. The innovative tailor-made thermo-vacuum chamber presented here was designed to enable test procedures in simulated Martian atmospheric conditions (vacuum of 50 Pa absolute, temperatures up to −125 °C and pure CO2 environment of 1000 Pa absolute). The vacuum tightness of the chamber, the deep cooling of the tested sample under a vacuum environment, the thermal insulations or the heat transfer paths had to be precisely considered. The verification tests of the facility design then proved excellent performance and viability for future technology modifications. This paper reflects the market needs to test airborne and space equipment in different vacuum-cryogenic and thermally controlled extreme conditions.

Anglický abstrakt

The Institute of Aerospace Engineering, Brno University of Technology developed a unique thermo-vacuum test facility to simulate extreme aerospace environmental conditions. Even though originally developed for space technology Qualification tests, the know-how can be used to test airborne equipment in laboratory to develop and certify new prototypes under civil or military aviation regulations. Moreover, the experimental thermo-vacuum chamber can be used for research and development of space technologies and its testing in different simulated space environments. The innovative tailor-made thermo-vacuum chamber presented here was designed to enable test procedures in simulated Martian atmospheric conditions (vacuum of 50 Pa absolute, temperatures up to −125 °C and pure CO2 environment of 1000 Pa absolute). The vacuum tightness of the chamber, the deep cooling of the tested sample under a vacuum environment, the thermal insulations or the heat transfer paths had to be precisely considered. The verification tests of the facility design then proved excellent performance and viability for future technology modifications. This paper reflects the market needs to test airborne and space equipment in different vacuum-cryogenic and thermally controlled extreme conditions.

Klíčová slova česky

Kosmické technologie, teplotně-vakuová komora, Marsovské podmínky, miniaturní tepelný spínač, kryo-vakuová izolace

Klíčová slova anglicky

Space technology, Thermo-vacuum test chamber, Martian conditions, Miniaturized Heat Switch, Vacuum-cryogenic insulation

Vydáno

11.09.2018

Nakladatel

The International Council of the Aeronautical Sciences

Místo

ICAS 2018, Belo Horizonte, Brazílie

ISBN

978-3-932182-88-4

Kniha

ICAS 2018 - PROCEEDINGS

Číslo edice

31

Strany od–do

1–9

Počet stran

9

BIBTEX


@inproceedings{BUT151323,
  author="Jakub {Mašek},
  title="Thermo-vacuum test chamber development for airborne and space equipment testing in simulated extreme conditions",
  booktitle="ICAS 2018 - PROCEEDINGS
",
  year="2018",
  month="September",
  pages="1--9",
  publisher="The International Council of the Aeronautical Sciences",
  address="ICAS 2018, Belo Horizonte, Brazílie",
  isbn="978-3-932182-88-4"
}