In Situ Diamond-Anvil Cell Observations of Methanogenesis at High Pressures and Temperatures

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• 作者：Anurag Sharma ; George D. Cody ; Russell J. Hemley
• 刊名：Energy & Fuels
• 出版年：2009
• 出版时间：November 19, 2009
• 年：2009
• 卷：23
• 期：11
• 页码：5571-5579
• 全文大小：961K
• 年卷期：v.23,no.11(November 19, 2009)
• ISSN：1520-5029

文摘

In situ high pressure−temperature (P−T) measurements on C−H−O fluids at lower crust and upper mantle conditions have been performed to assess the extent and limit of methane generation within the Earth. Experiments were conducted using diamond-anvil cells at temperatures from 250 to >1500 °C and pressures between 1 and 8 GPa, assuming conditions along a subduction-setting geotherm. In many experiments, methanogenesis is observed, in particular, in those experiments in which elemental carbon or reduced transition metals (e.g., Fe⁰) were present. The direct reduction of CO₂ to methane was not observed under any set of conditions. Methanogenesis is sensitive to C−H−O fluid composition and, specifically, the activity of H₂. Kinetic barriers to direct hydrogenation of CO persists over the range of conditions explored, and hydrogenated transition-metal carbonyl species likely play a critical role in methane formation. Surprisingly, the direct hydrogenation of graphite yields considerable methane. The observation of both CO₂ and H₂ generation during high T and P reactions of ferrous oxide, calcium carbonate, and water indicates that methanogenesis in the lower crust and upper mantle is plausible; however, the absolute yield of methane is strongly controlled by the activity of H₂.