期刊
JOURNAL OF CHEMICAL AND ENGINEERING DATA
卷 65, 期 8, 页码 3884-3892出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.jced.0c00217
关键词
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资金
- National Natural Science Foundation of China [41873068]
- Key Frontier Science Program [QYZDY-SSW-DQC008]
- Chinese Academy of Sciences
A visual method was developed to investigate the equilibrium phase relations of hydrate in the hydrogen sulfide (H2S)-H2O system using a high-pressure optical cell coupled with a heating-cooling stage under a microscope. The equilibrium pressure (P)-temperature (T) phase boundaries for the assemblages (1) hydrate (H)-liquid water (Lw)-vapor H2S [H2S (g)] and (2) H-Lw-liquid H2S [H2S (I)] were determined over a wide P-T range (0.0986 to 66.128 MPa and 272.4 to 307.7 K, respectively). In this study, a smaller visual cell was used, which has four advantages: (1) the phase transition process in a high-pressure optical cell under a microscope at various well-controlled P-T conditions can be fully observed; (2) the experimental run time is considerably reduced owing to the small experimental device, and <1 h is required to collect each equilibrium datum; (3) the experiment was sufficiently safe because the highpressure optical cell contains a small amount of H2S; and (4) the high-pressure optical cell is suitable for studying sample fluids at temperatures up to 873.15 K and pressures up to 100 MPa; the measurement range of P and T being far beyond that of previous studies. The van der Waals-Platteeuw model was used to calculate the equilibrium P-T lines for these two three-phase assemblages. To achieve more accurate results, the Kihara potential parameters were optimized using the improved values of H2S fugacity and its solubility in pure water, calculated from high-quality thermodynamic models, and the experimental data measured in this and previous studies. The average absolute deviations of the new model from the experimental data of this study are 1.1% and 5.8% for the H-Lw-H2S (g) and H-Lw-H2S (I) phase boundaries, respectively.
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