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Computational fluid dynamics modelling of the regular wave flow regime in air-water downwards annular flows

Nicolò Varallo, Riccardo Mereu, Giorgio Besagni, Christos N. Markides

2023Process Safety and Environmental Protection10 citationsDOIOpen Access PDF

Abstract

Although the global flow characteristics of annular gas-liquid flows have been studied experimentally for more than 50 years, the spatiotemporally-resolved details of these flows have remained relatively unexplored until recently, with data provided via advanced experimental methods based, e.g., on optical techniques. Similarly, the numerical modelling of annular flows is still an immature process. The present work aims to provide a computational fluid dynamics (CFD) model based on the volume of fluid (VOF) method for simulating annular gas-liquid flows, setting the stage for a deeper investigation of these flows at global and local scales. The work focuses on the most common downwards annular flow (DAF) flow pattern: the regular wave regime. 3-D and 2-D axisymmetric transient simulations have been performed using a commercial code (ANSYS Fluent 2021 R1). The code is validated through available experimental data regarding topological flow properties, mainly film thickness and wave statistics. The validation results suggest that 3-D simulations are needed to provide predictions that agree with the experimental data, highlighting strong 3-D features in the flow.

Topics & Concepts

Volume of fluid methodComputational fluid dynamicsMechanicsFlow (mathematics)Work (physics)Fluid dynamicsFluentRotational symmetryPhysicsThermodynamicsFluid Dynamics and Heat TransferFluid Dynamics and Thin FilmsSpacecraft and Cryogenic Technologies
Computational fluid dynamics modelling of the regular wave flow regime in air-water downwards annular flows | Litcius