Nanoscale Morphology of Kerogen and In Situ Nanomechanical Properties of Green River Oil Shale

Journal of nanomechanics & micromechanics Pub Date : 2016-03-01 DOI:10.1061/(ASCE)NM.2153-5477.0000103

Kristin N. Alstadt, K. Katti, D. Katti

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引用次数: 53

Abstract

AbstractOil shale is an important energy resource that is immensely underutilized due to the cost of extraction of crude oil from oil shale as a result of limited scientific understanding of the locking of kerogen, the precursor to crude oil in the oil shale. Here, nanomechanical properties of in situ kerogen surrounded by minerals in oil shale are evaluated for the Green River Formation oil shale of Colorado Piceance Basin. Electron microscopy and energy dispersive spectroscopy experiments indicate that the sizes of kerogen-rich phases in the oil shale samples are of the scale of 10–50 nm. Comparison of nanoindentation experiments on light- and dark-colored oil shale regions indicates that light oil shale has softer regions arising from higher kerogen content. There do not appear to be significant differences between light- and dark-colored oil shale in orientation parallel and perpendicular to the bedding plane. The elastic modulus values of dark- and light-colored oil shale from nanomechanical experime...

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绿河油页岩干酪根纳米形貌及原位纳米力学性质

摘要油页岩是一种重要的能源资源，但由于对油页岩中原油的前体——干酪根的锁相作用的科学认识有限，从油页岩中提取原油的成本很高，因此这一资源没有得到充分利用。以科罗拉多皮切斯盆地绿河组油页岩为研究对象，评价了油页岩中被矿物包裹的原位干酪根的纳米力学性质。电镜和能谱实验表明，油页岩样品中富干酪根相的尺寸在10 ~ 50 nm之间。浅色油页岩和深色油页岩纳米压痕实验对比表明，浅色油页岩中由于干酪根含量较高，存在较软的区域。浅色油页岩和深色油页岩在平行和垂直于层理面方向上没有明显差异。通过纳米力学实验得到了深色油页岩和浅色油页岩的弹性模量值。

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Journal of nanomechanics & micromechanics

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