CFD Analysis of S-Gamma Model Coupled With Two-Group Interfacial Area Transport Equations and AMUSIG Model for a Large Diameter Pipe

核工程研究与设计 Pub Date : 2020-08-04 DOI:10.1115/icone2020-16645

Sungje Hong, J. Schlegel, Subash Sharma

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Abstract

This paper describes the modeling of flow regimes beyond bubbly flows in a large diameter channel considering polydispersity and bubble induced turbulence using the Eulerian two-fluid approach. A two-bubble-group approach with two-group interfacial area transport equations (IATEs) is used to demonstrate flow phenomena in a large diameter pipe. Source and sink terms for mass and momentum exchanges between the two groups of bubbles and for bubble coalescence and breakup mechanisms are implemented. For predicting particle size and its distribution, S-Gamma (Sγ) model is used. The Sγ model with two-group IATEs are evaluated by comparing local distributions of void fractions and Sauter mean diameters with results of adaptive-multiple-size-group (AMUSIG) models and experimental dataset developed by Schlegel et al., (2012) for model validations. It shows that two-group IATEs with Sγ model predict reasonably accurate flow characteristics of beyond bubbly flow regimes, but also show shortcomings in their accuracies predicting local distributions, which imply that further studies for modeling of interfacial force are needed.

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大直径管道S-Gamma耦合两组界面面积输运方程和AMUSIG模型的CFD分析

本文用欧拉双流体方法描述了考虑多分散性和气泡诱导湍流的大直径通道中超越气泡流动的流态模型。采用双气泡群方法和双群界面面积输运方程(IATEs)来模拟大直径管道内的流动现象。实现了两组气泡之间的质量和动量交换以及气泡合并和破裂机制的源汇项。采用S-Gamma (Sγ)模型预测粒径及其分布。通过将孔隙分数和Sauter平均直径的局部分布与自适应多尺寸组(AMUSIG)模型的结果和Schlegel等人(2012)开发的用于模型验证的实验数据集进行比较，评估具有两组IATEs的s - γ模型。结果表明，采用s - γ模型的两组IATEs能够较准确地预测气泡外流态的流动特性，但在预测局部分布的精度上也存在不足，需要对界面力模型进行进一步的研究。

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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核工程研究与设计

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