Enhanced CH4 Recovery Induced via Structural Transformation in the CH4/CO2 Replacement That Occurs in sH Hydrates

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• 作者：Yohan Lee ; Yunju Kim ; Yongwon Seo
• 刊名：Environmental Science & Technology
• 出版年：2015
• 出版时间：July 21, 2015
• 年：2015
• 卷：49
• 期：14
• 页码：8899-8906
• 全文大小：455K
• ISSN：1520-5851

文摘

The CH₄/CO₂ replacement that occurs in sH hydrates is investigated, with a primary focus on the enhanced CH₄ recovery induced via structural transformation with a CO₂ injection. In this study, neohexane (NH) is used as a liquid hydrocarbon guest in the sH hydrates. Direct thermodynamic measurements and spectroscopic identification are investigated to reveal the replacement process for recovering CH₄ and simultaneously sequestering CO₂ in the sH (CH₄ + NH) hydrate. The hydrate phase behavior and the ¹³C NMR and Raman spectroscopy results of the CH₄ + CO₂ + NH systems demonstrate that CO₂ functions as a coguest of sH hydrates in CH₄-rich conditions, and that the structural transition of sH to sI hydrates occurs in CO₂-rich conditions. CO₂ molecules are found to preferentially occupy the medium 4³5⁶6³ cages of sH hydrates or the large 5¹²6² cages of sI hydrates during the replacement. Due to the favorable structural transition and resulting re-establishment of guest distributions, approximately 88% of the CH₄ is recoverable from sH (CH₄ + NH) hydrates with a CO₂ injection. The hydrate dissociation and subsequent reformation caused by the structural transformation of sH to sI is also confirmed using a high-pressure microdifferential scanning calorimeter through the detection of the significant heat flows generated during the replacement.