Methane and carbon at equilibrium in source rocks

IF 0.9 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS

Geochemical Transactions Pub Date : 2013-12-12 DOI:10.1186/1467-4866-14-5

Frank D Mango

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引用次数: 4

Abstract

Methane in source rocks may not exist exclusively as free gas. It could exist in equilibrium with carbon and higher hydrocarbons: CH₄?+?C?<?=?>?Hydrocarbon. Three lines of evidence support this possibility. 1) Shales ingest gas in amounts and selectivities consistent with gas-carbon equilibrium. There is a 50% increase in solid hydrocarbon mass when Fayetteville Shale is exposed to methane (450?psi) under moderate conditions (100°C): Rock-Eval S2 (mg?g^-1) 8.5 =?>?12.5. All light hydrocarbons are ingested, but with high selectivity, consistent with competitive addition to receptor sites in a growing polymer. Mowry Shale ingests butane vigorously from argon, for example, but not from methane under the same conditions. 2) Production data for a well producing from Fayetteville Shale declines along the theoretical curve for withdrawing gas from higher hydrocarbons in equilibrium with carbon. 3) A new general gas-solid equilibrium model accounts for natural gas at thermodynamic equilibrium, and C₆-C₇ hydrocarbons constrained to invariant compositions. The results make a strong case for methane in equilibrium with carbon and higher hydrocarbons. If correct, the higher hydrocarbons in source rocks are gas reservoirs, raising the possibility of substantially more gas in shales than analytically apparent, and far more gas in shale deposits than currently recognized.

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烃源岩中甲烷和碳处于平衡状态

烃源岩中的甲烷可能不完全以游离气体的形式存在。它可以与碳和高级碳氢化合物平衡存在:CH4 + C < =碳氢化合物。有三条证据支持这种可能性。1)页岩吸气量和选择性符合气碳平衡。当Fayetteville页岩在中等条件下(100°C)暴露于甲烷(450?psi)中时，固体烃质量增加了50%:Rock-Eval S2 (mg?g-1) 8.5 =?>所有轻烃都被摄取，但具有高选择性，与生长中的聚合物中受体位点的竞争性添加一致。例如，在相同的条件下，莫里页岩从氩气中大量吸收丁烷，而不是从甲烷中吸收丁烷。2) Fayetteville页岩井的产量数据沿理论曲线下降，从与碳平衡的高碳氢化合物中提取天然气。3)一种新的通用气固平衡模型考虑了天然气的热力学平衡和C6-C7烃的组分约束。这些结果有力地证明了甲烷与碳和高级碳氢化合物处于平衡状态。如果正确的话，烃源岩中含量较高的碳氢化合物是气藏，这就增加了页岩中天然气含量远高于分析结果的可能性，也增加了页岩矿床中天然气含量远高于目前认识到的可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Geochemical Transactions 地学-地球化学与地球物理

CiteScore

3.70

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.

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