旋流中水蒸气的均匀凝结机制：分子模拟的视角。

IF 3.9 2区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Langmuir Pub Date : 2025-09-23 DOI:10.1021/acs.langmuir.5c01001

Wenming Jiang,Zhengyu Wang,Maosen Song,Chenyu Han,Yuanyuan Zhou,Yang Liu

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引用次数: 0

摘要

超声速分离技术是一种易于加工、低投资、低能耗、无需添加化学品、环保的天然气处理技术。然而，超声速分离技术尚不成熟。此外，由于没有考虑旋流运动的影响，现有的液滴成核理论对超音速喷嘴内液滴成核过程的准确性仍然不清楚。通过分子动力学（MD）模拟研究了水蒸气的成核和凝结过程，并在微观水平上分析了冷却温度、轴向速度和切向速度对旋流凝结特性的动力学和热力学影响。研究发现，在较低的冷却温度和较高的轴向速度下，水蒸气凝结过程的诱导阶段缩短，成核速率加快，更容易发生成核。当轴向速度从200 ~ 400 m/s增加时，成核速率增加约2倍。当冷却温度从313 K增加到353 K时，成核率降低了57.7%。切向量的变化对水蒸气旋流凝结特性影响不大。

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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Homogeneous Condensation Mechanism of Water Vapor in Swirling Flow: A Molecular Simulation Perspective.

Supersonic separation technology is a natural gas treatment technology with easy processing, low investment, low energy consumption, no need to add chemicals, and environmental protection. However, supersonic separation technology is immature. Furthermore, the accuracy of existing nucleation theories for the droplet nucleation process in the supersonic nozzle remains unclear, because they do not consider the effect of swirling motion. The nucleation and condensation processes of water vapor were investigated via molecular dynamics (MD) simulations in this study, and the effects of cooling temperature, axial velocity, and tangential velocity on swirling flow condensation characteristics were analyzed kinetically and thermodynamically at the microscopic level. It is found that at lower cooling temperatures and higher axial velocities, the induction phase of the water vapor condensation process is shortened, the nucleation rate increases, and nucleation occurs more easily. When the axial velocity increases from 200 to 400 m/s, the nucleation rate increases about twice. When the cooling temperature increased from 313 to 353 K, the nucleation rate decreased by 57.7%. However, changes in tangentials have little effect on water vapor swirling flow condensation characteristics.

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来源期刊

Langmuir 化学-材料科学：综合

CiteScore

6.50

自引率

10.30%

发文量

1464

审稿时长

2.1 months

期刊介绍： Langmuir is an interdisciplinary journal publishing articles in the following subject categories: Colloids: surfactants and self-assembly, dispersions, emulsions, foams Interfaces: adsorption, reactions, films, forces Biological Interfaces: biocolloids, biomolecular and biomimetic materials Materials: nano- and mesostructured materials, polymers, gels, liquid crystals Electrochemistry: interfacial charge transfer, charge transport, electrocatalysis, electrokinetic phenomena, bioelectrochemistry Devices and Applications: sensors, fluidics, patterning, catalysis, photonic crystals However, when high-impact, original work is submitted that does not fit within the above categories, decisions to accept or decline such papers will be based on one criteria: What Would Irving Do? Langmuir ranks #2 in citations out of 136 journals in the category of Physical Chemistry with 113,157 total citations. The journal received an Impact Factor of 4.384*. This journal is also indexed in the categories of Materials Science (ranked #1) and Multidisciplinary Chemistry (ranked #5).