Methane Flow through Organic-Rich Nanopores: The Key Role of Atomic-Scale Roughness

Castez M. F.; Winograd E. A.; Sanchez V. M.

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Methane Flow through Organic-Rich Nanopores: The Key Role of Atomic-Scale Roughness

机译：甲烷流经有机富含纳米孔：原子尺度粗糙度的关键作用

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We perform a detailed study of methane flow through nanoporous kerogen. Using molecular dynamics and modeling the kerogen pore with an amorphous carbon nanotube (a-CNT), we show that the reported flow enhancement over Hagen Poisseuile flow is mainly due to the smoothness, on an atomic scale, of the CNT. It acts in two ways: first, it helps the mobility of the adsorbed layer; second, and even more important for the flow enhancement, it prevents the dependency on the inverse of the channel length (L) from developing. While the former can incrementally contribute to the flow, the latter effect can explain the orders of magnitude found in comparison to macroscopic results.

机译：我们通过纳米多孔基因进行甲烷流的详细研究。使用分子动力学和用无定形碳纳米管（A-CNT）建模的Kerogen孔，我们表明报告的流量增强蜂拥而至的流量主要是由于CNT的原子尺度的平滑度。它以两种方式起作用：首先，它有助于吸附层的移动性; 其次，对于流量增强更重要，它可以防止对频道长度（L）的逆发展的依赖性。虽然前者可以逐渐贡献流量，但后者效果可以解释与宏观结果相比发现的数量级。

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《The journal of physical chemistry, C. Nanomaterials and interfaces》 |2017年第51期|共10页
作者
Castez M. F.; Winograd E. A.; Sanchez V. M.;
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YPF Tecnol SA Ave Petroleo S-N RA-1923 Berisso Buenos Aires Argentina;

YPF Tecnol SA Ave Petroleo S-N RA-1923 Berisso Buenos Aires Argentina;

Consejo Nacl Invest Cient &

Tecn Godoy Cruz 2290 RA-1425 Buenos Aires DF Argentina;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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1. Methane Flow through Organic-Rich Nanopores: The Key Role of Atomic-Scale Roughness [J] . Castez M. F., Winograd E. A., Sanchez V. M. The journal of physical chemistry, C. Nanomaterials and interfaces . 2017,第51期

机译：甲烷流经有机富含纳米孔：原子尺度粗糙度的关键作用
2. Molecular dynamics simulation of methane transport in confined organic nanopores with high relative roughness [J] . He Jian, Ju Yang, Kulasinski Karol, Journal of natural gas science and engineering . 2019,第期

机译：具有高相对粗糙度的密闭有机纳米孔甲烷输送的分子动力学模拟
3. Paleoredox reconstruction of bituminous shales from the Miocene Hancili Formation, cankiri-corum Basin, Turkey: Evaluating the role of anoxia in accumulation of organic-rich shales [J] . Moradi A. Vosoughi, Sari A., Akkaya P. Marine and Petroleum Geology . 2016,第Null期

机译：土耳其Cankiri-Corum盆地中新世汉西里组沥青页岩的古氧化还原改造：评估缺氧在富含有机质页岩中的作用
4. Methane Flow in Shale Nanopores with Kerogen Microstructure by Molecular Simulations [C] . Tianhao Wu, Abbas Firoozabadi SPE Annual Technical Conference and Exhibition . 2018

机译：通过分子模拟具有Kerogen微观结构的页岩纳米孔的甲烷流动
5. Large-scale roughness effect on free-surface and bulk flow characteristics in open-channel flows. [D] . Polatel, Ceyda. 2006

机译：大型粗糙度对明渠流动中的自由表面和整体流动特性产生影响。
6. Mechanisms for Enhanced Hydrophobicity by Atomic-Scale Roughness [O] . Yumi Katasho, Yunfeng Liang, Sumihiko Murata, -1

机译：原子尺度粗糙度增强疏水性的机理
7. Molecular dynamics simulation of methane transport in confined organic nanopores with high relative roughness [O] . Jian He, Yang Ju, Karol Kulasinski, 2019

机译：具有高相对粗糙度的密闭有机纳米孔甲烷转运的分子动力学模拟

Methane Flow through Organic-Rich Nanopores: The Key Role of Atomic-Scale Roughness

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