Phase Diagram for the Methane–Ethane System and Its Implications for Titan’s Lakes

On Titan, methane (CH 4 ) and ethane (C 2 H 6 ) are the dominant species found in the lakes and seas. In this study, we have combined laboratory work and modeling to refine the methane–ethane binary phase diagram at low temperatures and probe how the molecules interact at these conditions. We used v...

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Veröffentlicht in:The planetary science journal 2021-06, Vol.2 (3), p.118
Hauptverfasser: Engle, Anna E., Hanley, Jennifer, Dustrud, Shyanne, Thompson, Garrett, Lindberg, Gerrick E., Grundy, William M., Tegler, Stephen C.
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Sprache:eng
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Zusammenfassung:On Titan, methane (CH 4 ) and ethane (C 2 H 6 ) are the dominant species found in the lakes and seas. In this study, we have combined laboratory work and modeling to refine the methane–ethane binary phase diagram at low temperatures and probe how the molecules interact at these conditions. We used visual inspection for the liquidus and Raman spectroscopy for the solidus. Through these methods, we determined a eutectic point of 71.15 ± 0.5 K at a composition of 0.644 ± 0.018 methane–0.356 ± 0.018 ethane mole fraction from the liquidus data. Using the solidus data, we found a eutectic isotherm temperature of 72.2 K with a standard deviation of 0.4 K. In addition to mapping the binary system, we looked at the solid–solid transitions of pure ethane and found that, when cooling, the transition of solid I–III occurred at 89.45 ± 0.2 K. The warming sequence showed transitions of solid III–II occurring at 89.85 ± 0.2 K and solid II–I at 89.65 ± 0.2 K. Ideal predictions were compared with molecular dynamics simulations to reveal that the methane–ethane system behaves almost ideally, and the largest deviations occur as the mixing ratio approaches the eutectic composition.
ISSN:2632-3338
2632-3338
DOI:10.3847/PSJ/abf7d0