The phase equilibrium of Mars-relevant brines: the influence of nanoconfinement
ID:4063 View Protection:ATTENDEE Updated Time:2024-04-16 17:08:01 Hits:1813 Extended type 1

Start Time:2024-05-19 15:20(Asia/Shanghai)

Duration:5min

Session:S10 主题10、行星科学与空间物理 » S10-4主题10、行星科学与空间物理 专题10.3、专题10.6、专题10.5(19日下午,308)

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Abstract
The discovery of chlorides and perchlorates has profoundly influenced our view of liquid water on Mars (M. H. Hecht et al. 2009). These salts attract much attention because their hygroscopic nature and low eutectic temperature allow for the possibility of liquid water on the surface of Mars today (D. L. Nuding et al, 2014; D. Li et al, 2022). Recent studies showed that confined space significantly affects the phase boundary of salt solution, particularly in the freezing and deliquescence process (J. Meissner et al 2016; T. Talreja-Muthreja et al 2022). As the natural porous media, Martian soil produces such a confined environment for the brines, and influences the water adsorption and freezing behavior (A. O. Shumway et al, 2023).
In this work, we utilized silica porous materials (e.g. SBA-15, MCM-41) to mimic the soil environments, and experimentally investigate the eutectic temperature and deliquescence humidity of Mars-relevant salts (CaCl2, MgCl2, Ca(ClO4)2, and Mg(ClO4)2) in nanoconfinement. The results showed that the confinement effect on the melting points and deliquescence humidity of brines is more significant than in pure water, and the first-order phase transition of brines in narrow pores can even be suppressed completely. An ion interaction model (based on Pitzer theory and Kelvin equation) was developed to calculate the phase boundary shift of the brines in nanopores. These findings enrich our understanding of the water cycle among gas, liquid, and solid phases under Martian conditions.
Keywords
Mars,Brine,Phase equilibrium,Nanoconfinement
Speaker
WANG,Shaoheng
博士研究生 University of Hamburg

Submission Author
WANG,Shaoheng University of Hamburg
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    May 17

    2024

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    May 20

    2024

  • Mar 31 2024

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  • Mar 31 2024

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  • May 20 2024

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青年地学论坛理事会
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厦门大学近海海洋环境科学国家重点实验室
中国科学院城市环境研究所
自然资源部第三海洋研究所
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