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首页> 外文期刊>International journal of nanoscience >AXIAL TRANSPORT OF LOW DENSITY, SIMPLE FLUID IN NANOCHANNEL SYSTEMS WITH PARTIAL MOLECULAR WALL SLIP: MODELING AND SIMULATION
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AXIAL TRANSPORT OF LOW DENSITY, SIMPLE FLUID IN NANOCHANNEL SYSTEMS WITH PARTIAL MOLECULAR WALL SLIP: MODELING AND SIMULATION

机译:具有部分分子壁滑移的纳米通道系统中低密度,简单流体的轴向传输:建模与仿真

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摘要

A model for gas transport through nanochannels is presented. Molecular simulations of Argon (modeled as a Lennard-Jones fluid) flowing over a carbon surface were performed to develop a correlation for molecular wall slip based on temperature and angle of collision. The correlation is used to modify the oscillatory model of diffusion. Molecular transport is argued to be in one of two domains: near wall localized diffusion at low and moderate temperatures, and delocalized diffusion at high temperatures. The molecular diffusivity is found to exceed that predicted by Knudsen diffusion at high temperatures, and diffusive oscillatory models at all temperatures. Molecular simulations compare favorably with the presented model.
机译:提出了通过纳米通道的气体传输模型。进行了在碳表面上流动的氩气(建模为Lennard-Jones流体)的分子模拟,以基于碰撞的温度和角度得出分子壁滑移的相关性。相关用于修改扩散的振荡模型。分子运输被认为是在两个领域之一:在低温和中温下壁附近的局部扩散,以及在高温下的离域扩散。发现分子扩散率在高温下超过了努森扩散预测的值,在所有温度下均具有扩散振荡模型。分子模拟与所提出的模型相比具有优势。

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