Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/28829
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: In situ methods for measuring thermal properties and heat flux on planetary bodies
Author(s): Kömle, Norbert I
Hütter, Erika S
Macher, Wolfgang
Kaufmann, Erika
Kargl, Günter
Knollenberg, Jörg
Grott, Matthias
Spohn, Tilman
Wawrzaszek, Roman
Banaszkiewicz, Marek
Seweryn, Karoly
Hagermann, Axel
Keywords: Thermal conductivity
Planetary surfaces
Lander missions
Issue Date: Jun-2011
Date Deposited: 13-Feb-2019
Citation: Kömle NI, Hütter ES, Macher W, Kaufmann E, Kargl G, Knollenberg J, Grott M, Spohn T, Wawrzaszek R, Banaszkiewicz M, Seweryn K & Hagermann A (2011) In situ methods for measuring thermal properties and heat flux on planetary bodies. Planetary and Space Science, 59 (8), pp. 639-660. https://doi.org/10.1016/j.pss.2011.03.004
Abstract: The thermo-mechanical properties of planetary surface and subsurface layers control to a high extent in which way a body interacts with its environment, in particular how it responds to solar irradiation and how it interacts with a potentially existing atmosphere. Furthermore, if the natural temperature profile over a certain depth can be measured in situ, this gives important information about the heat flux from the interior and thus about the thermal evolution of the body. Therefore, in most of the recent and planned planetary lander missions experiment packages for determining thermo-mechanical properties are part of the payload. Examples are the experiment MUPUS on Rosetta's comet lander Philae, the TECP instrument aboard NASA's Mars polar lander Phoenix, and the mole-type instrument HP3 currently developed for use on upcoming lunar and Mars missions. In this review we describe several methods applied for measuring thermal conductivity and heat flux and discuss the particular difficulties faced when these properties have to be measured in a low pressure and low temperature environment. We point out the abilities and disadvantages of the different instruments and outline the evaluation procedures necessary to extract reliable thermal conductivity and heat flux data from in situ measurements.
DOI Link: 10.1016/j.pss.2011.03.004
Rights: This article is Open Access under a CC BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/3.0/)
Licence URL(s): http://creativecommons.org/licenses/by-nc-nd/3.0/

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