Titans damp ground: Constraints on Titan surface thermal properties from the temperature evolution of the Huygens GCMS inlet

A simple thermal model is developed to determine the temperature history of the inlet tube of the Huygens probe gas chromatograph mass spectrometer (GCMS) after its fortuitous emplacement on the surface of Saturns moon Titan. The model parameters are adjusted to match the recorded temperature histor...

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Bibliographic Details
Main Authors: LORENZ, R. D., NIEMANN, H. B., HARPOLD, D. N., WAY, S. H., ZARNECKI, J. C.
Format: Article in Journal/Newspaper
Language:English
Published: Meteoritics & Planetary Science Archives 2006
Subjects:
Thermal modeling;Spacecraft;Titan;Evaporation
Methane hydrate
Online Access:https://journals.uair.arizona.edu/index.php/maps/article/view/15354
Description
Summary:A simple thermal model is developed to determine the temperature history of the inlet tube of the Huygens probe gas chromatograph mass spectrometer (GCMS) after its fortuitous emplacement on the surface of Saturns moon Titan. The model parameters are adjusted to match the recorded temperature history of a nearby heater, taking into account heat losses by conduction to the rest of the probe and to Titans cold atmosphere. The model suggests that after impact when forced convective cooling ceased, the inlet temperature rose from ~110 K to an asymptotic value of only ~145 K. This requires that the inlet was embedded in a surface that acted as an effective heat sink, most plausibly interpreted as wet or damp with liquid methane. The data appear inconsistent with a tar or dry, fine-grained surface, and the inlet was not warm enough to devolatilize methane hydrate.

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