Detail publikace

Thermo-vacuum test chamber development for heat switch testing in simulated Martian conditions

MAŠEK, J. BROŽEK, P. HORÁK, M.

Originální název

Thermo-vacuum test chamber development for heat switch testing in simulated Martian conditions

Typ

přednáška

Jazyk

angličtina

Originální abstrakt

In the fall of 2014 the Institute of Aerospace Engineering had been awarded by contract to perform Miniaturized Heat Switch testing. The Miniaturized Heat Switch was the unique technology developed by Italian company Aero Sekur for European Space Agency's missions to Mars. The aim of the project was to develop an innovative but simple experimental thermo-vacuum test chamber to simulate Martian atmospheric conditions. Conditions such as vacuum of 50 Pa absolute, temperatures in the range from -125 degrees C to + 60 C and pure CO2 environment of 1000 Pa absolute. The vacuum tightness of the chamber, deep cooling of the specimen under vacuum environment, thermal insulations or heat transfer paths had to be precisely considered. Important decision was to use the liquid nitrogen as the most appropriate cooling medium and copper rods for heat transfer outside the chamber. Later, elementary calibration vacuum-tightness test of the facility showed that the pressure increased from initial value of 220 Pa absolute to 450 Pa absolute within 16.5 hours and thus proved excellent chamber design. Therefore in the future, the test chamber modular design can be easily modified to allow testing of other space equipment in different simulated conditions.

Klíčová slova

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

Autoři

MAŠEK, J.; BROŽEK, P.; HORÁK, M.

Vydáno

15. 5. 2017

Místo

Engineering Mechanics 2017, Svratka, ČR

Strany od

622

Strany do

625

Strany počet

4

BibTex

@misc{BUT140881,
  author="Jakub {Mašek} and Petr {Brožek} and Marek {Horák}",
  title="Thermo-vacuum test chamber development for heat switch testing in simulated Martian conditions",
  year="2017",
  pages="622--625",
  address="Engineering Mechanics 2017, Svratka, ČR",
  note="lecture"
}