亚大气压下水闪动的多态数值模拟

IF 1.8 Q3 MECHANICS
Fluids Pub Date : 2023-04-28 DOI:10.3390/fluids8050143
Clément Loiseau, Stéphane Mimouni, Didier Colmont, Stéphane Vincent
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引用次数: 0

摘要

采用欧拉-欧拉方法对水膜闪蒸现象进行了CFD数值研究,并与水膜闪蒸实验进行了对比。水膜最初在34到74°C的温度下加热(从1到41°C的过热度),在实验过程中压力从1巴降至50毫巴。本文指出,由于高估了水膜上方(气/液滴区域)的阻力,用简单的液/泡模型不能正确地模拟实验。然而,广义大界面模型(GLIM),一种由7.0版本的neptune_cfd软件实现的多区域方法,能够区分水膜(其中液体/气泡相互作用占主导地位)和气体区域(其中气体/液滴相互作用占主导地位),并给出了很好的定性结果。最后,本文证明了过热液体的Berne界面传热模型可以准确地预测水温随时间的演变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Modelling of Water Flashing at Sub-Atmopsheric Pressure with a Multi-Regime Approach
The CFD numerical study of the flash boiling phenomenon of a water film was conducted using an Euler–Euler method, and compared to the experiments on the flashing of a water film. The water film is initially heated at temperatures ranging from 34 to 74 ∘C (frim 1 to 41 ∘C superheat), and the pressure is decreased from 1 bar to 50 mbar during the experiments. This paper shows that the experiments could not be correctly modelled by a simple liquid/bubble model because of the overestimation of the drag force above the water film (in the gas/droplet region). The generalised large interface model (GLIM), however, a multi-regime approach implemented in the version 7.0 of the neptune_cfd software, is able to differentiate the water film, where liquid/bubble interactions are predominant from the gas region where gas/droplet interactions are predominant, and gives nice qualitative results. Finally, this paper shows that the interfacial heat transfer model of Berne for superheated liquids could accurately predict the evolution of the water temperature over time.
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来源期刊
Fluids
Fluids Engineering-Mechanical Engineering
CiteScore
3.40
自引率
10.50%
发文量
326
审稿时长
12 weeks
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